/******************************************************************************
*
* Copyright (C) 2015 Xilinx, Inc. All rights reserved.
-*
+*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
-*
+*
* You should have received a copy of the GNU General Public License along
* with this program; if not, see <http://www.gnu.org/licenses/>
-*
-*
-******************************************************************************/
-
-#include <xil_io.h>
-#include <sleep.h>
-#include "psu_init_gpl.h"
-
-int mask_pollOnValue(u32 add , u32 mask, u32 value );
-
-int mask_poll(u32 add , u32 mask );
-
-void mask_delay(u32 delay);
-
-u32 mask_read(u32 add , u32 mask );
-
-static void PSU_Mask_Write (unsigned long offset, unsigned long mask, unsigned long val)
-{
- unsigned long RegVal = 0x0;
- RegVal = Xil_In32 (offset);
- RegVal &= ~(mask);
- RegVal |= (val & mask);
- Xil_Out32 (offset, RegVal);
-}
-
- void prog_reg (unsigned long addr, unsigned long mask, unsigned long shift, unsigned long value) {
- int rdata =0;
- rdata = Xil_In32(addr);
- rdata = rdata & (~mask);
- rdata = rdata | (value << shift);
- Xil_Out32(addr,rdata);
- }
-
-unsigned long psu_pll_init_data() {
- // : RPLL INIT
- /*Register : RPLL_CFG @ 0XFF5E0034</p>
-
- PLL loop filter resistor control
- PSU_CRL_APB_RPLL_CFG_RES 0x2
-
- PLL charge pump control
- PSU_CRL_APB_RPLL_CFG_CP 0x3
-
- PLL loop filter high frequency capacitor control
- PSU_CRL_APB_RPLL_CFG_LFHF 0x3
-
- Lock circuit counter setting
- PSU_CRL_APB_RPLL_CFG_LOCK_CNT 0x258
-
- Lock circuit configuration settings for lock windowsize
- PSU_CRL_APB_RPLL_CFG_LOCK_DLY 0x3f
-
- Helper data. Values are to be looked up in a table from Data Sheet
- (OFFSET, MASK, VALUE) (0XFF5E0034, 0xFE7FEDEFU ,0x7E4B0C62U)
- RegMask = (CRL_APB_RPLL_CFG_RES_MASK | CRL_APB_RPLL_CFG_CP_MASK | CRL_APB_RPLL_CFG_LFHF_MASK | CRL_APB_RPLL_CFG_LOCK_CNT_MASK | CRL_APB_RPLL_CFG_LOCK_DLY_MASK | 0 );
-
- RegVal = ((0x00000002U << CRL_APB_RPLL_CFG_RES_SHIFT
- | 0x00000003U << CRL_APB_RPLL_CFG_CP_SHIFT
- | 0x00000003U << CRL_APB_RPLL_CFG_LFHF_SHIFT
- | 0x00000258U << CRL_APB_RPLL_CFG_LOCK_CNT_SHIFT
- | 0x0000003FU << CRL_APB_RPLL_CFG_LOCK_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E4B0C62U);
- /*############################################################################################################################ */
-
- // : UPDATE FB_DIV
- /*Register : RPLL_CTRL @ 0XFF5E0030</p>
-
- Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_
- ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
- PSU_CRL_APB_RPLL_CTRL_PRE_SRC 0x0
-
- The integer portion of the feedback divider to the PLL
- PSU_CRL_APB_RPLL_CTRL_FBDIV 0x48
-
- This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency
- PSU_CRL_APB_RPLL_CTRL_DIV2 0x1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00717F00U ,0x00014800U)
- RegMask = (CRL_APB_RPLL_CTRL_PRE_SRC_MASK | CRL_APB_RPLL_CTRL_FBDIV_MASK | CRL_APB_RPLL_CTRL_DIV2_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_RPLL_CTRL_PRE_SRC_SHIFT
- | 0x00000048U << CRL_APB_RPLL_CTRL_FBDIV_SHIFT
- | 0x00000001U << CRL_APB_RPLL_CTRL_DIV2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00717F00U ,0x00014800U);
- /*############################################################################################################################ */
-
- // : BY PASS PLL
- /*Register : RPLL_CTRL @ 0XFF5E0030</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_RPLL_CTRL_BYPASS 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000008U ,0x00000008U)
- RegMask = (CRL_APB_RPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_RPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- // : ASSERT RESET
- /*Register : RPLL_CTRL @ 0XFF5E0030</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRL_APB_RPLL_CTRL_RESET 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000001U ,0x00000001U)
- RegMask = (CRL_APB_RPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_RPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- // : DEASSERT RESET
- /*Register : RPLL_CTRL @ 0XFF5E0030</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRL_APB_RPLL_CTRL_RESET 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000001U ,0x00000000U)
- RegMask = (CRL_APB_RPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_RPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : CHECK PLL STATUS
- /*Register : PLL_STATUS @ 0XFF5E0040</p>
-
- RPLL is locked
- PSU_CRL_APB_PLL_STATUS_RPLL_LOCK 1
- (OFFSET, MASK, VALUE) (0XFF5E0040, 0x00000002U ,0x00000002U) */
- mask_poll(CRL_APB_PLL_STATUS_OFFSET,0x00000002U);
-
- /*############################################################################################################################ */
-
- // : REMOVE PLL BY PASS
- /*Register : RPLL_CTRL @ 0XFF5E0030</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_RPLL_CTRL_BYPASS 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000008U ,0x00000000U)
- RegMask = (CRL_APB_RPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_RPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : RPLL_TO_FPD_CTRL @ 0XFF5E0048</p>
-
- Divisor value for this clock.
- PSU_CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0 0x3
-
- Control for a clock that will be generated in the LPD, but used in the FPD as a clock source for the peripheral clock muxes.
- (OFFSET, MASK, VALUE) (0XFF5E0048, 0x00003F00U ,0x00000300U)
- RegMask = (CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000003U << CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_TO_FPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U);
- /*############################################################################################################################ */
-
- // : RPLL FRAC CFG
- /*Register : RPLL_FRAC_CFG @ 0XFF5E0038</p>
-
- Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona
- mode and uses DATA of this register for the fractional portion of the feedback divider.
- PSU_CRL_APB_RPLL_FRAC_CFG_ENABLED 0x0
-
- Fractional value for the Feedback value.
- PSU_CRL_APB_RPLL_FRAC_CFG_DATA 0x0
-
- Fractional control for the PLL
- (OFFSET, MASK, VALUE) (0XFF5E0038, 0x8000FFFFU ,0x00000000U)
- RegMask = (CRL_APB_RPLL_FRAC_CFG_ENABLED_MASK | CRL_APB_RPLL_FRAC_CFG_DATA_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_RPLL_FRAC_CFG_ENABLED_SHIFT
- | 0x00000000U << CRL_APB_RPLL_FRAC_CFG_DATA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- // : IOPLL INIT
- /*Register : IOPLL_CFG @ 0XFF5E0024</p>
-
- PLL loop filter resistor control
- PSU_CRL_APB_IOPLL_CFG_RES 0xc
-
- PLL charge pump control
- PSU_CRL_APB_IOPLL_CFG_CP 0x3
-
- PLL loop filter high frequency capacitor control
- PSU_CRL_APB_IOPLL_CFG_LFHF 0x3
-
- Lock circuit counter setting
- PSU_CRL_APB_IOPLL_CFG_LOCK_CNT 0x339
-
- Lock circuit configuration settings for lock windowsize
- PSU_CRL_APB_IOPLL_CFG_LOCK_DLY 0x3f
-
- Helper data. Values are to be looked up in a table from Data Sheet
- (OFFSET, MASK, VALUE) (0XFF5E0024, 0xFE7FEDEFU ,0x7E672C6CU)
- RegMask = (CRL_APB_IOPLL_CFG_RES_MASK | CRL_APB_IOPLL_CFG_CP_MASK | CRL_APB_IOPLL_CFG_LFHF_MASK | CRL_APB_IOPLL_CFG_LOCK_CNT_MASK | CRL_APB_IOPLL_CFG_LOCK_DLY_MASK | 0 );
-
- RegVal = ((0x0000000CU << CRL_APB_IOPLL_CFG_RES_SHIFT
- | 0x00000003U << CRL_APB_IOPLL_CFG_CP_SHIFT
- | 0x00000003U << CRL_APB_IOPLL_CFG_LFHF_SHIFT
- | 0x00000339U << CRL_APB_IOPLL_CFG_LOCK_CNT_SHIFT
- | 0x0000003FU << CRL_APB_IOPLL_CFG_LOCK_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E672C6CU);
- /*############################################################################################################################ */
-
- // : UPDATE FB_DIV
- /*Register : IOPLL_CTRL @ 0XFF5E0020</p>
-
- Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_
- ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
- PSU_CRL_APB_IOPLL_CTRL_PRE_SRC 0x0
-
- The integer portion of the feedback divider to the PLL
- PSU_CRL_APB_IOPLL_CTRL_FBDIV 0x2d
-
- This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency
- PSU_CRL_APB_IOPLL_CTRL_DIV2 0x0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00717F00U ,0x00002D00U)
- RegMask = (CRL_APB_IOPLL_CTRL_PRE_SRC_MASK | CRL_APB_IOPLL_CTRL_FBDIV_MASK | CRL_APB_IOPLL_CTRL_DIV2_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_IOPLL_CTRL_PRE_SRC_SHIFT
- | 0x0000002DU << CRL_APB_IOPLL_CTRL_FBDIV_SHIFT
- | 0x00000000U << CRL_APB_IOPLL_CTRL_DIV2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00717F00U ,0x00002D00U);
- /*############################################################################################################################ */
-
- // : BY PASS PLL
- /*Register : IOPLL_CTRL @ 0XFF5E0020</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_IOPLL_CTRL_BYPASS 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000008U ,0x00000008U)
- RegMask = (CRL_APB_IOPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_IOPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- // : ASSERT RESET
- /*Register : IOPLL_CTRL @ 0XFF5E0020</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRL_APB_IOPLL_CTRL_RESET 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000001U ,0x00000001U)
- RegMask = (CRL_APB_IOPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_IOPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- // : DEASSERT RESET
- /*Register : IOPLL_CTRL @ 0XFF5E0020</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRL_APB_IOPLL_CTRL_RESET 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000001U ,0x00000000U)
- RegMask = (CRL_APB_IOPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_IOPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : CHECK PLL STATUS
- /*Register : PLL_STATUS @ 0XFF5E0040</p>
-
- IOPLL is locked
- PSU_CRL_APB_PLL_STATUS_IOPLL_LOCK 1
- (OFFSET, MASK, VALUE) (0XFF5E0040, 0x00000001U ,0x00000001U) */
- mask_poll(CRL_APB_PLL_STATUS_OFFSET,0x00000001U);
-
- /*############################################################################################################################ */
-
- // : REMOVE PLL BY PASS
- /*Register : IOPLL_CTRL @ 0XFF5E0020</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_IOPLL_CTRL_BYPASS 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000008U ,0x00000000U)
- RegMask = (CRL_APB_IOPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_IOPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : IOPLL_TO_FPD_CTRL @ 0XFF5E0044</p>
-
- Divisor value for this clock.
- PSU_CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0 0x3
-
- Control for a clock that will be generated in the LPD, but used in the FPD as a clock source for the peripheral clock muxes.
- (OFFSET, MASK, VALUE) (0XFF5E0044, 0x00003F00U ,0x00000300U)
- RegMask = (CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000003U << CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_TO_FPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U);
- /*############################################################################################################################ */
-
- // : IOPLL FRAC CFG
- /*Register : IOPLL_FRAC_CFG @ 0XFF5E0028</p>
-
- Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona
- mode and uses DATA of this register for the fractional portion of the feedback divider.
- PSU_CRL_APB_IOPLL_FRAC_CFG_ENABLED 0x0
-
- Fractional value for the Feedback value.
- PSU_CRL_APB_IOPLL_FRAC_CFG_DATA 0x0
-
- Fractional control for the PLL
- (OFFSET, MASK, VALUE) (0XFF5E0028, 0x8000FFFFU ,0x00000000U)
- RegMask = (CRL_APB_IOPLL_FRAC_CFG_ENABLED_MASK | CRL_APB_IOPLL_FRAC_CFG_DATA_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_IOPLL_FRAC_CFG_ENABLED_SHIFT
- | 0x00000000U << CRL_APB_IOPLL_FRAC_CFG_DATA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- // : APU_PLL INIT
- /*Register : APLL_CFG @ 0XFD1A0024</p>
-
- PLL loop filter resistor control
- PSU_CRF_APB_APLL_CFG_RES 0x2
-
- PLL charge pump control
- PSU_CRF_APB_APLL_CFG_CP 0x3
-
- PLL loop filter high frequency capacitor control
- PSU_CRF_APB_APLL_CFG_LFHF 0x3
-
- Lock circuit counter setting
- PSU_CRF_APB_APLL_CFG_LOCK_CNT 0x258
-
- Lock circuit configuration settings for lock windowsize
- PSU_CRF_APB_APLL_CFG_LOCK_DLY 0x3f
-
- Helper data. Values are to be looked up in a table from Data Sheet
- (OFFSET, MASK, VALUE) (0XFD1A0024, 0xFE7FEDEFU ,0x7E4B0C62U)
- RegMask = (CRF_APB_APLL_CFG_RES_MASK | CRF_APB_APLL_CFG_CP_MASK | CRF_APB_APLL_CFG_LFHF_MASK | CRF_APB_APLL_CFG_LOCK_CNT_MASK | CRF_APB_APLL_CFG_LOCK_DLY_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_APLL_CFG_RES_SHIFT
- | 0x00000003U << CRF_APB_APLL_CFG_CP_SHIFT
- | 0x00000003U << CRF_APB_APLL_CFG_LFHF_SHIFT
- | 0x00000258U << CRF_APB_APLL_CFG_LOCK_CNT_SHIFT
- | 0x0000003FU << CRF_APB_APLL_CFG_LOCK_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E4B0C62U);
- /*############################################################################################################################ */
-
- // : UPDATE FB_DIV
- /*Register : APLL_CTRL @ 0XFD1A0020</p>
-
- Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_
- ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
- PSU_CRF_APB_APLL_CTRL_PRE_SRC 0x0
-
- The integer portion of the feedback divider to the PLL
- PSU_CRF_APB_APLL_CTRL_FBDIV 0x42
-
- This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency
- PSU_CRF_APB_APLL_CTRL_DIV2 0x1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00717F00U ,0x00014200U)
- RegMask = (CRF_APB_APLL_CTRL_PRE_SRC_MASK | CRF_APB_APLL_CTRL_FBDIV_MASK | CRF_APB_APLL_CTRL_DIV2_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_APLL_CTRL_PRE_SRC_SHIFT
- | 0x00000042U << CRF_APB_APLL_CTRL_FBDIV_SHIFT
- | 0x00000001U << CRF_APB_APLL_CTRL_DIV2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00717F00U ,0x00014200U);
- /*############################################################################################################################ */
-
- // : BY PASS PLL
- /*Register : APLL_CTRL @ 0XFD1A0020</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_APLL_CTRL_BYPASS 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000008U ,0x00000008U)
- RegMask = (CRF_APB_APLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_APLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- // : ASSERT RESET
- /*Register : APLL_CTRL @ 0XFD1A0020</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRF_APB_APLL_CTRL_RESET 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000001U ,0x00000001U)
- RegMask = (CRF_APB_APLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_APLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- // : DEASSERT RESET
- /*Register : APLL_CTRL @ 0XFD1A0020</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRF_APB_APLL_CTRL_RESET 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000001U ,0x00000000U)
- RegMask = (CRF_APB_APLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_APLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : CHECK PLL STATUS
- /*Register : PLL_STATUS @ 0XFD1A0044</p>
-
- APLL is locked
- PSU_CRF_APB_PLL_STATUS_APLL_LOCK 1
- (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000001U ,0x00000001U) */
- mask_poll(CRF_APB_PLL_STATUS_OFFSET,0x00000001U);
-
- /*############################################################################################################################ */
-
- // : REMOVE PLL BY PASS
- /*Register : APLL_CTRL @ 0XFD1A0020</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_APLL_CTRL_BYPASS 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000008U ,0x00000000U)
- RegMask = (CRF_APB_APLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_APLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_CTRL_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : APLL_TO_LPD_CTRL @ 0XFD1A0048</p>
-
- Divisor value for this clock.
- PSU_CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0 0x3
-
- Control for a clock that will be generated in the FPD, but used in the LPD as a clock source for the peripheral clock muxes.
- (OFFSET, MASK, VALUE) (0XFD1A0048, 0x00003F00U ,0x00000300U)
- RegMask = (CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000003U << CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_TO_LPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U);
- /*############################################################################################################################ */
-
- // : APLL FRAC CFG
- /*Register : APLL_FRAC_CFG @ 0XFD1A0028</p>
-
- Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona
- mode and uses DATA of this register for the fractional portion of the feedback divider.
- PSU_CRF_APB_APLL_FRAC_CFG_ENABLED 0x0
-
- Fractional value for the Feedback value.
- PSU_CRF_APB_APLL_FRAC_CFG_DATA 0x0
-
- Fractional control for the PLL
- (OFFSET, MASK, VALUE) (0XFD1A0028, 0x8000FFFFU ,0x00000000U)
- RegMask = (CRF_APB_APLL_FRAC_CFG_ENABLED_MASK | CRF_APB_APLL_FRAC_CFG_DATA_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_APLL_FRAC_CFG_ENABLED_SHIFT
- | 0x00000000U << CRF_APB_APLL_FRAC_CFG_DATA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_APLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- // : DDR_PLL INIT
- /*Register : DPLL_CFG @ 0XFD1A0030</p>
-
- PLL loop filter resistor control
- PSU_CRF_APB_DPLL_CFG_RES 0x2
-
- PLL charge pump control
- PSU_CRF_APB_DPLL_CFG_CP 0x3
-
- PLL loop filter high frequency capacitor control
- PSU_CRF_APB_DPLL_CFG_LFHF 0x3
-
- Lock circuit counter setting
- PSU_CRF_APB_DPLL_CFG_LOCK_CNT 0x258
-
- Lock circuit configuration settings for lock windowsize
- PSU_CRF_APB_DPLL_CFG_LOCK_DLY 0x3f
-
- Helper data. Values are to be looked up in a table from Data Sheet
- (OFFSET, MASK, VALUE) (0XFD1A0030, 0xFE7FEDEFU ,0x7E4B0C62U)
- RegMask = (CRF_APB_DPLL_CFG_RES_MASK | CRF_APB_DPLL_CFG_CP_MASK | CRF_APB_DPLL_CFG_LFHF_MASK | CRF_APB_DPLL_CFG_LOCK_CNT_MASK | CRF_APB_DPLL_CFG_LOCK_DLY_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_DPLL_CFG_RES_SHIFT
- | 0x00000003U << CRF_APB_DPLL_CFG_CP_SHIFT
- | 0x00000003U << CRF_APB_DPLL_CFG_LFHF_SHIFT
- | 0x00000258U << CRF_APB_DPLL_CFG_LOCK_CNT_SHIFT
- | 0x0000003FU << CRF_APB_DPLL_CFG_LOCK_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E4B0C62U);
- /*############################################################################################################################ */
-
- // : UPDATE FB_DIV
- /*Register : DPLL_CTRL @ 0XFD1A002C</p>
-
- Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_
- ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
- PSU_CRF_APB_DPLL_CTRL_PRE_SRC 0x0
-
- The integer portion of the feedback divider to the PLL
- PSU_CRF_APB_DPLL_CTRL_FBDIV 0x40
-
- This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency
- PSU_CRF_APB_DPLL_CTRL_DIV2 0x1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00717F00U ,0x00014000U)
- RegMask = (CRF_APB_DPLL_CTRL_PRE_SRC_MASK | CRF_APB_DPLL_CTRL_FBDIV_MASK | CRF_APB_DPLL_CTRL_DIV2_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_DPLL_CTRL_PRE_SRC_SHIFT
- | 0x00000040U << CRF_APB_DPLL_CTRL_FBDIV_SHIFT
- | 0x00000001U << CRF_APB_DPLL_CTRL_DIV2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00717F00U ,0x00014000U);
- /*############################################################################################################################ */
-
- // : BY PASS PLL
- /*Register : DPLL_CTRL @ 0XFD1A002C</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DPLL_CTRL_BYPASS 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000008U ,0x00000008U)
- RegMask = (CRF_APB_DPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_DPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- // : ASSERT RESET
- /*Register : DPLL_CTRL @ 0XFD1A002C</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRF_APB_DPLL_CTRL_RESET 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000001U ,0x00000001U)
- RegMask = (CRF_APB_DPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_DPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- // : DEASSERT RESET
- /*Register : DPLL_CTRL @ 0XFD1A002C</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRF_APB_DPLL_CTRL_RESET 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000001U ,0x00000000U)
- RegMask = (CRF_APB_DPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_DPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : CHECK PLL STATUS
- /*Register : PLL_STATUS @ 0XFD1A0044</p>
-
- DPLL is locked
- PSU_CRF_APB_PLL_STATUS_DPLL_LOCK 1
- (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000002U ,0x00000002U) */
- mask_poll(CRF_APB_PLL_STATUS_OFFSET,0x00000002U);
-
- /*############################################################################################################################ */
-
- // : REMOVE PLL BY PASS
- /*Register : DPLL_CTRL @ 0XFD1A002C</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DPLL_CTRL_BYPASS 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000008U ,0x00000000U)
- RegMask = (CRF_APB_DPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_DPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : DPLL_TO_LPD_CTRL @ 0XFD1A004C</p>
-
- Divisor value for this clock.
- PSU_CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0 0x3
-
- Control for a clock that will be generated in the FPD, but used in the LPD as a clock source for the peripheral clock muxes.
- (OFFSET, MASK, VALUE) (0XFD1A004C, 0x00003F00U ,0x00000300U)
- RegMask = (CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000003U << CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_TO_LPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U);
- /*############################################################################################################################ */
-
- // : DPLL FRAC CFG
- /*Register : DPLL_FRAC_CFG @ 0XFD1A0034</p>
-
- Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona
- mode and uses DATA of this register for the fractional portion of the feedback divider.
- PSU_CRF_APB_DPLL_FRAC_CFG_ENABLED 0x0
-
- Fractional value for the Feedback value.
- PSU_CRF_APB_DPLL_FRAC_CFG_DATA 0x0
-
- Fractional control for the PLL
- (OFFSET, MASK, VALUE) (0XFD1A0034, 0x8000FFFFU ,0x00000000U)
- RegMask = (CRF_APB_DPLL_FRAC_CFG_ENABLED_MASK | CRF_APB_DPLL_FRAC_CFG_DATA_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_DPLL_FRAC_CFG_ENABLED_SHIFT
- | 0x00000000U << CRF_APB_DPLL_FRAC_CFG_DATA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- // : VIDEO_PLL INIT
- /*Register : VPLL_CFG @ 0XFD1A003C</p>
-
- PLL loop filter resistor control
- PSU_CRF_APB_VPLL_CFG_RES 0x2
-
- PLL charge pump control
- PSU_CRF_APB_VPLL_CFG_CP 0x3
-
- PLL loop filter high frequency capacitor control
- PSU_CRF_APB_VPLL_CFG_LFHF 0x3
-
- Lock circuit counter setting
- PSU_CRF_APB_VPLL_CFG_LOCK_CNT 0x28a
-
- Lock circuit configuration settings for lock windowsize
- PSU_CRF_APB_VPLL_CFG_LOCK_DLY 0x3f
-
- Helper data. Values are to be looked up in a table from Data Sheet
- (OFFSET, MASK, VALUE) (0XFD1A003C, 0xFE7FEDEFU ,0x7E514C62U)
- RegMask = (CRF_APB_VPLL_CFG_RES_MASK | CRF_APB_VPLL_CFG_CP_MASK | CRF_APB_VPLL_CFG_LFHF_MASK | CRF_APB_VPLL_CFG_LOCK_CNT_MASK | CRF_APB_VPLL_CFG_LOCK_DLY_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_VPLL_CFG_RES_SHIFT
- | 0x00000003U << CRF_APB_VPLL_CFG_CP_SHIFT
- | 0x00000003U << CRF_APB_VPLL_CFG_LFHF_SHIFT
- | 0x0000028AU << CRF_APB_VPLL_CFG_LOCK_CNT_SHIFT
- | 0x0000003FU << CRF_APB_VPLL_CFG_LOCK_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_CFG_OFFSET ,0xFE7FEDEFU ,0x7E514C62U);
- /*############################################################################################################################ */
-
- // : UPDATE FB_DIV
- /*Register : VPLL_CTRL @ 0XFD1A0038</p>
-
- Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk is the source 100 video clk is the source 101 pss_alt_
- ef_clk is the source 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
- PSU_CRF_APB_VPLL_CTRL_PRE_SRC 0x0
-
- The integer portion of the feedback divider to the PLL
- PSU_CRF_APB_VPLL_CTRL_FBDIV 0x39
-
- This turns on the divide by 2 that is inside of the PLL. This does not change the VCO frequency, just the output frequency
- PSU_CRF_APB_VPLL_CTRL_DIV2 0x1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00717F00U ,0x00013900U)
- RegMask = (CRF_APB_VPLL_CTRL_PRE_SRC_MASK | CRF_APB_VPLL_CTRL_FBDIV_MASK | CRF_APB_VPLL_CTRL_DIV2_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_VPLL_CTRL_PRE_SRC_SHIFT
- | 0x00000039U << CRF_APB_VPLL_CTRL_FBDIV_SHIFT
- | 0x00000001U << CRF_APB_VPLL_CTRL_DIV2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00717F00U ,0x00013900U);
- /*############################################################################################################################ */
-
- // : BY PASS PLL
- /*Register : VPLL_CTRL @ 0XFD1A0038</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_VPLL_CTRL_BYPASS 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000008U ,0x00000008U)
- RegMask = (CRF_APB_VPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_VPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- // : ASSERT RESET
- /*Register : VPLL_CTRL @ 0XFD1A0038</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRF_APB_VPLL_CTRL_RESET 1
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000001U ,0x00000001U)
- RegMask = (CRF_APB_VPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_VPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- // : DEASSERT RESET
- /*Register : VPLL_CTRL @ 0XFD1A0038</p>
-
- Asserts Reset to the PLL. When asserting reset, the PLL must already be in BYPASS.
- PSU_CRF_APB_VPLL_CTRL_RESET 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000001U ,0x00000000U)
- RegMask = (CRF_APB_VPLL_CTRL_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_VPLL_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : CHECK PLL STATUS
- /*Register : PLL_STATUS @ 0XFD1A0044</p>
-
- VPLL is locked
- PSU_CRF_APB_PLL_STATUS_VPLL_LOCK 1
- (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000004U ,0x00000004U) */
- mask_poll(CRF_APB_PLL_STATUS_OFFSET,0x00000004U);
-
- /*############################################################################################################################ */
-
- // : REMOVE PLL BY PASS
- /*Register : VPLL_CTRL @ 0XFD1A0038</p>
-
- Bypasses the PLL clock. The usable clock will be determined from the POST_SRC field. (This signal may only be toggled after 4
- cycles of the old clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_VPLL_CTRL_BYPASS 0
-
- PLL Basic Control
- (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000008U ,0x00000000U)
- RegMask = (CRF_APB_VPLL_CTRL_BYPASS_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_VPLL_CTRL_BYPASS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_CTRL_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : VPLL_TO_LPD_CTRL @ 0XFD1A0050</p>
-
- Divisor value for this clock.
- PSU_CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0 0x3
-
- Control for a clock that will be generated in the FPD, but used in the LPD as a clock source for the peripheral clock muxes.
- (OFFSET, MASK, VALUE) (0XFD1A0050, 0x00003F00U ,0x00000300U)
- RegMask = (CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000003U << CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_TO_LPD_CTRL_OFFSET ,0x00003F00U ,0x00000300U);
- /*############################################################################################################################ */
-
- // : VIDEO FRAC CFG
- /*Register : VPLL_FRAC_CFG @ 0XFD1A0040</p>
-
- Fractional SDM bypass control. When 0, PLL is in integer mode and it ignores all fractional data. When 1, PLL is in fractiona
- mode and uses DATA of this register for the fractional portion of the feedback divider.
- PSU_CRF_APB_VPLL_FRAC_CFG_ENABLED 0x1
-
- Fractional value for the Feedback value.
- PSU_CRF_APB_VPLL_FRAC_CFG_DATA 0x820c
-
- Fractional control for the PLL
- (OFFSET, MASK, VALUE) (0XFD1A0040, 0x8000FFFFU ,0x8000820CU)
- RegMask = (CRF_APB_VPLL_FRAC_CFG_ENABLED_MASK | CRF_APB_VPLL_FRAC_CFG_DATA_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_VPLL_FRAC_CFG_ENABLED_SHIFT
- | 0x0000820CU << CRF_APB_VPLL_FRAC_CFG_DATA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_VPLL_FRAC_CFG_OFFSET ,0x8000FFFFU ,0x8000820CU);
- /*############################################################################################################################ */
-
-
- return 1;
-}
-unsigned long psu_clock_init_data() {
- // : CLOCK CONTROL SLCR REGISTER
- /*Register : GEM3_REF_CTRL @ 0XFF5E005C</p>
-
- Clock active for the RX channel
- PSU_CRL_APB_GEM3_REF_CTRL_RX_CLKACT 0x1
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_GEM3_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_GEM3_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_GEM3_REF_CTRL_DIVISOR0 0xc
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_GEM3_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E005C, 0x063F3F07U ,0x06010C00U)
- RegMask = (CRL_APB_GEM3_REF_CTRL_RX_CLKACT_MASK | CRL_APB_GEM3_REF_CTRL_CLKACT_MASK | CRL_APB_GEM3_REF_CTRL_DIVISOR1_MASK | CRL_APB_GEM3_REF_CTRL_DIVISOR0_MASK | CRL_APB_GEM3_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_GEM3_REF_CTRL_RX_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_GEM3_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_GEM3_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000CU << CRL_APB_GEM3_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_GEM3_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_GEM3_REF_CTRL_OFFSET ,0x063F3F07U ,0x06010C00U);
- /*############################################################################################################################ */
-
- /*Register : USB0_BUS_REF_CTRL @ 0XFF5E0060</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_USB0_BUS_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0 0x6
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_USB0_BUS_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0060, 0x023F3F07U ,0x02010600U)
- RegMask = (CRL_APB_USB0_BUS_REF_CTRL_CLKACT_MASK | CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_MASK | CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_MASK | CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_USB0_BUS_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000006U << CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_USB0_BUS_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_USB0_BUS_REF_CTRL_OFFSET ,0x023F3F07U ,0x02010600U);
- /*############################################################################################################################ */
-
- /*Register : USB3_DUAL_REF_CTRL @ 0XFF5E004C</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_USB3_DUAL_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1 0xf
-
- 6 bit divider
- PSU_CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0 0x5
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL. (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E004C, 0x023F3F07U ,0x020F0500U)
- RegMask = (CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_MASK | CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_MASK | CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_MASK | CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_USB3_DUAL_REF_CTRL_CLKACT_SHIFT
- | 0x0000000FU << CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000005U << CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_USB3_DUAL_REF_CTRL_OFFSET ,0x023F3F07U ,0x020F0500U);
- /*############################################################################################################################ */
-
- /*Register : QSPI_REF_CTRL @ 0XFF5E0068</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_QSPI_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_QSPI_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_QSPI_REF_CTRL_DIVISOR0 0xc
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_QSPI_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0068, 0x013F3F07U ,0x01010C00U)
- RegMask = (CRL_APB_QSPI_REF_CTRL_CLKACT_MASK | CRL_APB_QSPI_REF_CTRL_DIVISOR1_MASK | CRL_APB_QSPI_REF_CTRL_DIVISOR0_MASK | CRL_APB_QSPI_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_QSPI_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_QSPI_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000CU << CRL_APB_QSPI_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_QSPI_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_QSPI_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010C00U);
- /*############################################################################################################################ */
-
- /*Register : SDIO1_REF_CTRL @ 0XFF5E0070</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_SDIO1_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_SDIO1_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_SDIO1_REF_CTRL_DIVISOR0 0x6
-
- 000 = IOPLL; 010 = RPLL; 011 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_SDIO1_REF_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0070, 0x013F3F07U ,0x01010602U)
- RegMask = (CRL_APB_SDIO1_REF_CTRL_CLKACT_MASK | CRL_APB_SDIO1_REF_CTRL_DIVISOR1_MASK | CRL_APB_SDIO1_REF_CTRL_DIVISOR0_MASK | CRL_APB_SDIO1_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_SDIO1_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_SDIO1_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000006U << CRL_APB_SDIO1_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_SDIO1_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_SDIO1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010602U);
- /*############################################################################################################################ */
-
- /*Register : SDIO_CLK_CTRL @ 0XFF18030C</p>
-
- MIO pad selection for sdio1_rx_clk (feedback clock from the PAD) 0: MIO [51] 1: MIO [76]
- PSU_IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL 0
-
- SoC Debug Clock Control
- (OFFSET, MASK, VALUE) (0XFF18030C, 0x00020000U ,0x00000000U)
- RegMask = (IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_SDIO_CLK_CTRL_OFFSET ,0x00020000U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : UART0_REF_CTRL @ 0XFF5E0074</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_UART0_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_UART0_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_UART0_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_UART0_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0074, 0x013F3F07U ,0x01010F00U)
- RegMask = (CRL_APB_UART0_REF_CTRL_CLKACT_MASK | CRL_APB_UART0_REF_CTRL_DIVISOR1_MASK | CRL_APB_UART0_REF_CTRL_DIVISOR0_MASK | CRL_APB_UART0_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_UART0_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_UART0_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_UART0_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_UART0_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_UART0_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U);
- /*############################################################################################################################ */
-
- /*Register : UART1_REF_CTRL @ 0XFF5E0078</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_UART1_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_UART1_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_UART1_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_UART1_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0078, 0x013F3F07U ,0x01010F00U)
- RegMask = (CRL_APB_UART1_REF_CTRL_CLKACT_MASK | CRL_APB_UART1_REF_CTRL_DIVISOR1_MASK | CRL_APB_UART1_REF_CTRL_DIVISOR0_MASK | CRL_APB_UART1_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_UART1_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_UART1_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_UART1_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_UART1_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_UART1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U);
- /*############################################################################################################################ */
-
- /*Register : I2C0_REF_CTRL @ 0XFF5E0120</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_I2C0_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_I2C0_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_I2C0_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_I2C0_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0120, 0x013F3F07U ,0x01010F00U)
- RegMask = (CRL_APB_I2C0_REF_CTRL_CLKACT_MASK | CRL_APB_I2C0_REF_CTRL_DIVISOR1_MASK | CRL_APB_I2C0_REF_CTRL_DIVISOR0_MASK | CRL_APB_I2C0_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_I2C0_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_I2C0_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_I2C0_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_I2C0_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_I2C0_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U);
- /*############################################################################################################################ */
-
- /*Register : I2C1_REF_CTRL @ 0XFF5E0124</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_I2C1_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_I2C1_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_I2C1_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_I2C1_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0124, 0x013F3F07U ,0x01010F00U)
- RegMask = (CRL_APB_I2C1_REF_CTRL_CLKACT_MASK | CRL_APB_I2C1_REF_CTRL_DIVISOR1_MASK | CRL_APB_I2C1_REF_CTRL_DIVISOR0_MASK | CRL_APB_I2C1_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_I2C1_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_I2C1_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_I2C1_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_I2C1_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_I2C1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U);
- /*############################################################################################################################ */
-
- /*Register : CAN1_REF_CTRL @ 0XFF5E0088</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_CAN1_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_CAN1_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_CAN1_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_CAN1_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0088, 0x013F3F07U ,0x01010F00U)
- RegMask = (CRL_APB_CAN1_REF_CTRL_CLKACT_MASK | CRL_APB_CAN1_REF_CTRL_DIVISOR1_MASK | CRL_APB_CAN1_REF_CTRL_DIVISOR0_MASK | CRL_APB_CAN1_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_CAN1_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_CAN1_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_CAN1_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_CAN1_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_CAN1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U);
- /*############################################################################################################################ */
-
- /*Register : CPU_R5_CTRL @ 0XFF5E0090</p>
-
- Turing this off will shut down the OCM, some parts of the APM, and prevent transactions going from the FPD to the LPD and cou
- d lead to system hang
- PSU_CRL_APB_CPU_R5_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_CPU_R5_CTRL_DIVISOR0 0x3
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_CPU_R5_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0090, 0x01003F07U ,0x01000302U)
- RegMask = (CRL_APB_CPU_R5_CTRL_CLKACT_MASK | CRL_APB_CPU_R5_CTRL_DIVISOR0_MASK | CRL_APB_CPU_R5_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_CPU_R5_CTRL_CLKACT_SHIFT
- | 0x00000003U << CRL_APB_CPU_R5_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_CPU_R5_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_CPU_R5_CTRL_OFFSET ,0x01003F07U ,0x01000302U);
- /*############################################################################################################################ */
-
- /*Register : IOU_SWITCH_CTRL @ 0XFF5E009C</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_IOU_SWITCH_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_IOU_SWITCH_CTRL_DIVISOR0 0x6
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_IOU_SWITCH_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E009C, 0x01003F07U ,0x01000602U)
- RegMask = (CRL_APB_IOU_SWITCH_CTRL_CLKACT_MASK | CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_MASK | CRL_APB_IOU_SWITCH_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_IOU_SWITCH_CTRL_CLKACT_SHIFT
- | 0x00000006U << CRL_APB_IOU_SWITCH_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_IOU_SWITCH_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_IOU_SWITCH_CTRL_OFFSET ,0x01003F07U ,0x01000602U);
- /*############################################################################################################################ */
-
- /*Register : PCAP_CTRL @ 0XFF5E00A4</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_PCAP_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_PCAP_CTRL_DIVISOR0 0x6
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_PCAP_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00A4, 0x01003F07U ,0x01000602U)
- RegMask = (CRL_APB_PCAP_CTRL_CLKACT_MASK | CRL_APB_PCAP_CTRL_DIVISOR0_MASK | CRL_APB_PCAP_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_PCAP_CTRL_CLKACT_SHIFT
- | 0x00000006U << CRL_APB_PCAP_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_PCAP_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_PCAP_CTRL_OFFSET ,0x01003F07U ,0x01000602U);
- /*############################################################################################################################ */
-
- /*Register : LPD_SWITCH_CTRL @ 0XFF5E00A8</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_LPD_SWITCH_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_LPD_SWITCH_CTRL_DIVISOR0 0x3
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_LPD_SWITCH_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00A8, 0x01003F07U ,0x01000302U)
- RegMask = (CRL_APB_LPD_SWITCH_CTRL_CLKACT_MASK | CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_MASK | CRL_APB_LPD_SWITCH_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_LPD_SWITCH_CTRL_CLKACT_SHIFT
- | 0x00000003U << CRL_APB_LPD_SWITCH_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_LPD_SWITCH_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_LPD_SWITCH_CTRL_OFFSET ,0x01003F07U ,0x01000302U);
- /*############################################################################################################################ */
-
- /*Register : LPD_LSBUS_CTRL @ 0XFF5E00AC</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_LPD_LSBUS_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_LPD_LSBUS_CTRL_DIVISOR0 0xf
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_LPD_LSBUS_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00AC, 0x01003F07U ,0x01000F02U)
- RegMask = (CRL_APB_LPD_LSBUS_CTRL_CLKACT_MASK | CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_MASK | CRL_APB_LPD_LSBUS_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_LPD_LSBUS_CTRL_CLKACT_SHIFT
- | 0x0000000FU << CRL_APB_LPD_LSBUS_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_LPD_LSBUS_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_LPD_LSBUS_CTRL_OFFSET ,0x01003F07U ,0x01000F02U);
- /*############################################################################################################################ */
-
- /*Register : DBG_LPD_CTRL @ 0XFF5E00B0</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_DBG_LPD_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_DBG_LPD_CTRL_DIVISOR0 0x6
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_DBG_LPD_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00B0, 0x01003F07U ,0x01000602U)
- RegMask = (CRL_APB_DBG_LPD_CTRL_CLKACT_MASK | CRL_APB_DBG_LPD_CTRL_DIVISOR0_MASK | CRL_APB_DBG_LPD_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_DBG_LPD_CTRL_CLKACT_SHIFT
- | 0x00000006U << CRL_APB_DBG_LPD_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_DBG_LPD_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_DBG_LPD_CTRL_OFFSET ,0x01003F07U ,0x01000602U);
- /*############################################################################################################################ */
-
- /*Register : ADMA_REF_CTRL @ 0XFF5E00B8</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_ADMA_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_ADMA_REF_CTRL_DIVISOR0 0x3
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_ADMA_REF_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00B8, 0x01003F07U ,0x01000302U)
- RegMask = (CRL_APB_ADMA_REF_CTRL_CLKACT_MASK | CRL_APB_ADMA_REF_CTRL_DIVISOR0_MASK | CRL_APB_ADMA_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_ADMA_REF_CTRL_CLKACT_SHIFT
- | 0x00000003U << CRL_APB_ADMA_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_ADMA_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_ADMA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000302U);
- /*############################################################################################################################ */
-
- /*Register : PL0_REF_CTRL @ 0XFF5E00C0</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_PL0_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL0_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL0_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_PL0_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00C0, 0x013F3F07U ,0x01010F00U)
- RegMask = (CRL_APB_PL0_REF_CTRL_CLKACT_MASK | CRL_APB_PL0_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL0_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL0_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_PL0_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_PL0_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_PL0_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_PL0_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_PL0_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010F00U);
- /*############################################################################################################################ */
-
- /*Register : PL1_REF_CTRL @ 0XFF5E00C4</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_PL1_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL1_REF_CTRL_DIVISOR1 0x4
-
- 6 bit divider
- PSU_CRL_APB_PL1_REF_CTRL_DIVISOR0 0xf
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_PL1_REF_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00C4, 0x013F3F07U ,0x01040F00U)
- RegMask = (CRL_APB_PL1_REF_CTRL_CLKACT_MASK | CRL_APB_PL1_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL1_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL1_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_PL1_REF_CTRL_CLKACT_SHIFT
- | 0x00000004U << CRL_APB_PL1_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000000FU << CRL_APB_PL1_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_PL1_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_PL1_REF_CTRL_OFFSET ,0x013F3F07U ,0x01040F00U);
- /*############################################################################################################################ */
-
- /*Register : PL2_REF_CTRL @ 0XFF5E00C8</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_PL2_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL2_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL2_REF_CTRL_DIVISOR0 0x4
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_PL2_REF_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00C8, 0x013F3F07U ,0x01010402U)
- RegMask = (CRL_APB_PL2_REF_CTRL_CLKACT_MASK | CRL_APB_PL2_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL2_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL2_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_PL2_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_PL2_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000004U << CRL_APB_PL2_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_PL2_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_PL2_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010402U);
- /*############################################################################################################################ */
-
- /*Register : PL3_REF_CTRL @ 0XFF5E00CC</p>
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_PL3_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL3_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_PL3_REF_CTRL_DIVISOR0 0x3
-
- 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_PL3_REF_CTRL_SRCSEL 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E00CC, 0x013F3F07U ,0x01010302U)
- RegMask = (CRL_APB_PL3_REF_CTRL_CLKACT_MASK | CRL_APB_PL3_REF_CTRL_DIVISOR1_MASK | CRL_APB_PL3_REF_CTRL_DIVISOR0_MASK | CRL_APB_PL3_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_PL3_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRL_APB_PL3_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000003U << CRL_APB_PL3_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_PL3_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_PL3_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010302U);
- /*############################################################################################################################ */
-
- /*Register : AMS_REF_CTRL @ 0XFF5E0108</p>
-
- 6 bit divider
- PSU_CRL_APB_AMS_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRL_APB_AMS_REF_CTRL_DIVISOR0 0x1d
-
- 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_AMS_REF_CTRL_SRCSEL 0x2
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_AMS_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0108, 0x013F3F07U ,0x01011D02U)
- RegMask = (CRL_APB_AMS_REF_CTRL_DIVISOR1_MASK | CRL_APB_AMS_REF_CTRL_DIVISOR0_MASK | CRL_APB_AMS_REF_CTRL_SRCSEL_MASK | CRL_APB_AMS_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_AMS_REF_CTRL_DIVISOR1_SHIFT
- | 0x0000001DU << CRL_APB_AMS_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRL_APB_AMS_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRL_APB_AMS_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_AMS_REF_CTRL_OFFSET ,0x013F3F07U ,0x01011D02U);
- /*############################################################################################################################ */
-
- /*Register : DLL_REF_CTRL @ 0XFF5E0104</p>
-
- 000 = IOPLL; 001 = RPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new clock. This
- is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_DLL_REF_CTRL_SRCSEL 0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0104, 0x00000007U ,0x00000000U)
- RegMask = (CRL_APB_DLL_REF_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000000U << CRL_APB_DLL_REF_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_DLL_REF_CTRL_OFFSET ,0x00000007U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : TIMESTAMP_REF_CTRL @ 0XFF5E0128</p>
-
- 6 bit divider
- PSU_CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0 0xf
-
- 1XX = pss_ref_clk; 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and
- cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRL_APB_TIMESTAMP_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFF5E0128, 0x01003F07U ,0x01000F00U)
- RegMask = (CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_MASK | CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_MASK | CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x0000000FU << CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRL_APB_TIMESTAMP_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_TIMESTAMP_REF_CTRL_OFFSET ,0x01003F07U ,0x01000F00U);
- /*############################################################################################################################ */
-
- /*Register : SATA_REF_CTRL @ 0XFD1A00A0</p>
-
- 000 = IOPLL_TO_FPD; 010 = APLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of
- he new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_SATA_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_SATA_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRF_APB_SATA_REF_CTRL_DIVISOR0 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00A0, 0x01003F07U ,0x01000200U)
- RegMask = (CRF_APB_SATA_REF_CTRL_SRCSEL_MASK | CRF_APB_SATA_REF_CTRL_CLKACT_MASK | CRF_APB_SATA_REF_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_SATA_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_SATA_REF_CTRL_CLKACT_SHIFT
- | 0x00000002U << CRF_APB_SATA_REF_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_SATA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U);
- /*############################################################################################################################ */
-
- /*Register : PCIE_REF_CTRL @ 0XFD1A00B4</p>
-
- 000 = IOPLL_TO_FPD; 010 = RPLL_TO_FPD; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cyc
- es of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_PCIE_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_PCIE_REF_CTRL_CLKACT 0x1
-
- 6 bit divider
- PSU_CRF_APB_PCIE_REF_CTRL_DIVISOR0 0x2
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00B4, 0x01003F07U ,0x01000200U)
- RegMask = (CRF_APB_PCIE_REF_CTRL_SRCSEL_MASK | CRF_APB_PCIE_REF_CTRL_CLKACT_MASK | CRF_APB_PCIE_REF_CTRL_DIVISOR0_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_PCIE_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_PCIE_REF_CTRL_CLKACT_SHIFT
- | 0x00000002U << CRF_APB_PCIE_REF_CTRL_DIVISOR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_PCIE_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U);
- /*############################################################################################################################ */
-
- /*Register : DP_VIDEO_REF_CTRL @ 0XFD1A0070</p>
-
- 6 bit divider
- PSU_CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0 0x3
-
- 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (This signal may only be toggled after 4 cycles of the
- ld clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL 0x3
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_DP_VIDEO_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0070, 0x013F3F07U ,0x01010303U)
- RegMask = (CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_MASK | CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_MASK | CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_MASK | CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000003U << CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000003U << CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_DP_VIDEO_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DP_VIDEO_REF_CTRL_OFFSET ,0x013F3F07U ,0x01010303U);
- /*############################################################################################################################ */
-
- /*Register : DP_AUDIO_REF_CTRL @ 0XFD1A0074</p>
-
- 6 bit divider
- PSU_CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0 0x27
-
- 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (This signal may only be toggled after 4 cycles of the
- ld clock and 4 cycles of the new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_DP_AUDIO_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0074, 0x013F3F07U ,0x01012700U)
- RegMask = (CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_MASK | CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_MASK | CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_MASK | CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000027U << CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_DP_AUDIO_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DP_AUDIO_REF_CTRL_OFFSET ,0x013F3F07U ,0x01012700U);
- /*############################################################################################################################ */
-
- /*Register : DP_STC_REF_CTRL @ 0XFD1A007C</p>
-
- 6 bit divider
- PSU_CRF_APB_DP_STC_REF_CTRL_DIVISOR1 0x1
-
- 6 bit divider
- PSU_CRF_APB_DP_STC_REF_CTRL_DIVISOR0 0x11
-
- 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of t
- e new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DP_STC_REF_CTRL_SRCSEL 0x3
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_DP_STC_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A007C, 0x013F3F07U ,0x01011103U)
- RegMask = (CRF_APB_DP_STC_REF_CTRL_DIVISOR1_MASK | CRF_APB_DP_STC_REF_CTRL_DIVISOR0_MASK | CRF_APB_DP_STC_REF_CTRL_SRCSEL_MASK | CRF_APB_DP_STC_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_DP_STC_REF_CTRL_DIVISOR1_SHIFT
- | 0x00000011U << CRF_APB_DP_STC_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000003U << CRF_APB_DP_STC_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_DP_STC_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DP_STC_REF_CTRL_OFFSET ,0x013F3F07U ,0x01011103U);
- /*############################################################################################################################ */
-
- /*Register : ACPU_CTRL @ 0XFD1A0060</p>
-
- 6 bit divider
- PSU_CRF_APB_ACPU_CTRL_DIVISOR0 0x1
-
- 000 = APLL; 010 = DPLL; 011 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- lock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_ACPU_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock. For the half speed APU Clock
- PSU_CRF_APB_ACPU_CTRL_CLKACT_HALF 0x1
-
- Clock active signal. Switch to 0 to disable the clock. For the full speed ACPUX Clock. This will shut off the high speed cloc
- to the entire APU
- PSU_CRF_APB_ACPU_CTRL_CLKACT_FULL 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0060, 0x03003F07U ,0x03000100U)
- RegMask = (CRF_APB_ACPU_CTRL_DIVISOR0_MASK | CRF_APB_ACPU_CTRL_SRCSEL_MASK | CRF_APB_ACPU_CTRL_CLKACT_HALF_MASK | CRF_APB_ACPU_CTRL_CLKACT_FULL_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_ACPU_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_ACPU_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_ACPU_CTRL_CLKACT_HALF_SHIFT
- | 0x00000001U << CRF_APB_ACPU_CTRL_CLKACT_FULL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_ACPU_CTRL_OFFSET ,0x03003F07U ,0x03000100U);
- /*############################################################################################################################ */
-
- /*Register : DBG_TRACE_CTRL @ 0XFD1A0064</p>
-
- 6 bit divider
- PSU_CRF_APB_DBG_TRACE_CTRL_DIVISOR0 0x2
-
- 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of
- he new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DBG_TRACE_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_DBG_TRACE_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0064, 0x01003F07U ,0x01000200U)
- RegMask = (CRF_APB_DBG_TRACE_CTRL_DIVISOR0_MASK | CRF_APB_DBG_TRACE_CTRL_SRCSEL_MASK | CRF_APB_DBG_TRACE_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_DBG_TRACE_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_DBG_TRACE_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_DBG_TRACE_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DBG_TRACE_CTRL_OFFSET ,0x01003F07U ,0x01000200U);
- /*############################################################################################################################ */
-
- /*Register : DBG_FPD_CTRL @ 0XFD1A0068</p>
-
- 6 bit divider
- PSU_CRF_APB_DBG_FPD_CTRL_DIVISOR0 0x2
-
- 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of
- he new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DBG_FPD_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_DBG_FPD_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0068, 0x01003F07U ,0x01000200U)
- RegMask = (CRF_APB_DBG_FPD_CTRL_DIVISOR0_MASK | CRF_APB_DBG_FPD_CTRL_SRCSEL_MASK | CRF_APB_DBG_FPD_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_DBG_FPD_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_DBG_FPD_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_DBG_FPD_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DBG_FPD_CTRL_OFFSET ,0x01003F07U ,0x01000200U);
- /*############################################################################################################################ */
-
- /*Register : DDR_CTRL @ 0XFD1A0080</p>
-
- 6 bit divider
- PSU_CRF_APB_DDR_CTRL_DIVISOR0 0x2
-
- 000 = DPLL; 001 = VPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new clock. This
- s not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DDR_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0080, 0x00003F07U ,0x00000200U)
- RegMask = (CRF_APB_DDR_CTRL_DIVISOR0_MASK | CRF_APB_DDR_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_DDR_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_DDR_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DDR_CTRL_OFFSET ,0x00003F07U ,0x00000200U);
- /*############################################################################################################################ */
-
- /*Register : GPU_REF_CTRL @ 0XFD1A0084</p>
-
- 6 bit divider
- PSU_CRF_APB_GPU_REF_CTRL_DIVISOR0 0x1
-
- 000 = IOPLL_TO_FPD; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of
- he new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_GPU_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock, which will stop clock for GPU (and both Pixel Processors).
- PSU_CRF_APB_GPU_REF_CTRL_CLKACT 0x1
-
- Clock active signal for Pixel Processor. Switch to 0 to disable the clock only to this Pixel Processor
- PSU_CRF_APB_GPU_REF_CTRL_PP0_CLKACT 0x1
-
- Clock active signal for Pixel Processor. Switch to 0 to disable the clock only to this Pixel Processor
- PSU_CRF_APB_GPU_REF_CTRL_PP1_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A0084, 0x07003F07U ,0x07000100U)
- RegMask = (CRF_APB_GPU_REF_CTRL_DIVISOR0_MASK | CRF_APB_GPU_REF_CTRL_SRCSEL_MASK | CRF_APB_GPU_REF_CTRL_CLKACT_MASK | CRF_APB_GPU_REF_CTRL_PP0_CLKACT_MASK | CRF_APB_GPU_REF_CTRL_PP1_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_GPU_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_GPU_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_GPU_REF_CTRL_CLKACT_SHIFT
- | 0x00000001U << CRF_APB_GPU_REF_CTRL_PP0_CLKACT_SHIFT
- | 0x00000001U << CRF_APB_GPU_REF_CTRL_PP1_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_GPU_REF_CTRL_OFFSET ,0x07003F07U ,0x07000100U);
- /*############################################################################################################################ */
-
- /*Register : GDMA_REF_CTRL @ 0XFD1A00B8</p>
-
- 6 bit divider
- PSU_CRF_APB_GDMA_REF_CTRL_DIVISOR0 0x2
-
- 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- lock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_GDMA_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_GDMA_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00B8, 0x01003F07U ,0x01000200U)
- RegMask = (CRF_APB_GDMA_REF_CTRL_DIVISOR0_MASK | CRF_APB_GDMA_REF_CTRL_SRCSEL_MASK | CRF_APB_GDMA_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_GDMA_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_GDMA_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_GDMA_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_GDMA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U);
- /*############################################################################################################################ */
-
- /*Register : DPDMA_REF_CTRL @ 0XFD1A00BC</p>
-
- 6 bit divider
- PSU_CRF_APB_DPDMA_REF_CTRL_DIVISOR0 0x2
-
- 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- lock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DPDMA_REF_CTRL_SRCSEL 0x0
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_DPDMA_REF_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00BC, 0x01003F07U ,0x01000200U)
- RegMask = (CRF_APB_DPDMA_REF_CTRL_DIVISOR0_MASK | CRF_APB_DPDMA_REF_CTRL_SRCSEL_MASK | CRF_APB_DPDMA_REF_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_DPDMA_REF_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_DPDMA_REF_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_DPDMA_REF_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DPDMA_REF_CTRL_OFFSET ,0x01003F07U ,0x01000200U);
- /*############################################################################################################################ */
-
- /*Register : TOPSW_MAIN_CTRL @ 0XFD1A00C0</p>
-
- 6 bit divider
- PSU_CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0 0x2
-
- 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of the new
- lock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_TOPSW_MAIN_CTRL_SRCSEL 0x2
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_TOPSW_MAIN_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00C0, 0x01003F07U ,0x01000202U)
- RegMask = (CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_MASK | CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_MASK | CRF_APB_TOPSW_MAIN_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRF_APB_TOPSW_MAIN_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_TOPSW_MAIN_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_TOPSW_MAIN_CTRL_OFFSET ,0x01003F07U ,0x01000202U);
- /*############################################################################################################################ */
-
- /*Register : TOPSW_LSBUS_CTRL @ 0XFD1A00C4</p>
-
- 6 bit divider
- PSU_CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0 0x5
-
- 000 = APLL; 010 = IOPLL_TO_FPD; 011 = DPLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of
- he new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL 0x2
-
- Clock active signal. Switch to 0 to disable the clock
- PSU_CRF_APB_TOPSW_LSBUS_CTRL_CLKACT 0x1
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00C4, 0x01003F07U ,0x01000502U)
- RegMask = (CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_MASK | CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_MASK | CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_MASK | 0 );
-
- RegVal = ((0x00000005U << CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0_SHIFT
- | 0x00000002U << CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL_SHIFT
- | 0x00000001U << CRF_APB_TOPSW_LSBUS_CTRL_CLKACT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_TOPSW_LSBUS_CTRL_OFFSET ,0x01003F07U ,0x01000502U);
- /*############################################################################################################################ */
-
- /*Register : DBG_TSTMP_CTRL @ 0XFD1A00F8</p>
-
- 6 bit divider
- PSU_CRF_APB_DBG_TSTMP_CTRL_DIVISOR0 0x2
-
- 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be toggled after 4 cycles of the old clock and 4 cycles of
- he new clock. This is not usually an issue, but designers must be aware.)
- PSU_CRF_APB_DBG_TSTMP_CTRL_SRCSEL 0x0
-
- This register controls this reference clock
- (OFFSET, MASK, VALUE) (0XFD1A00F8, 0x00003F07U ,0x00000200U)
- RegMask = (CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_MASK | CRF_APB_DBG_TSTMP_CTRL_SRCSEL_MASK | 0 );
-
- RegVal = ((0x00000002U << CRF_APB_DBG_TSTMP_CTRL_DIVISOR0_SHIFT
- | 0x00000000U << CRF_APB_DBG_TSTMP_CTRL_SRCSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_DBG_TSTMP_CTRL_OFFSET ,0x00003F07U ,0x00000200U);
- /*############################################################################################################################ */
-
- /*Register : IOU_TTC_APB_CLK @ 0XFF180380</p>
-
- 00" = Select the APB switch clock for the APB interface of TTC0'01" = Select the PLL ref clock for the APB interface of TTC0'
- 0" = Select the R5 clock for the APB interface of TTC0
- PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL 0
-
- 00" = Select the APB switch clock for the APB interface of TTC1'01" = Select the PLL ref clock for the APB interface of TTC1'
- 0" = Select the R5 clock for the APB interface of TTC1
- PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL 0
-
- 00" = Select the APB switch clock for the APB interface of TTC2'01" = Select the PLL ref clock for the APB interface of TTC2'
- 0" = Select the R5 clock for the APB interface of TTC2
- PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL 0
-
- 00" = Select the APB switch clock for the APB interface of TTC3'01" = Select the PLL ref clock for the APB interface of TTC3'
- 0" = Select the R5 clock for the APB interface of TTC3
- PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL 0
-
- TTC APB clock select
- (OFFSET, MASK, VALUE) (0XFF180380, 0x000000FFU ,0x00000000U)
- RegMask = (IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_MASK | IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_MASK | IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_MASK | IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_IOU_TTC_APB_CLK_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : WDT_CLK_SEL @ 0XFD610100</p>
-
- System watchdog timer clock source selection: 0: Internal APB clock 1: External (PL clock via EMIO or Pinout clock via MIO)
- PSU_FPD_SLCR_WDT_CLK_SEL_SELECT 0
-
- SWDT clock source select
- (OFFSET, MASK, VALUE) (0XFD610100, 0x00000001U ,0x00000000U)
- RegMask = (FPD_SLCR_WDT_CLK_SEL_SELECT_MASK | 0 );
-
- RegVal = ((0x00000000U << FPD_SLCR_WDT_CLK_SEL_SELECT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (FPD_SLCR_WDT_CLK_SEL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : WDT_CLK_SEL @ 0XFF180300</p>
-
- System watchdog timer clock source selection: 0: internal clock APB clock 1: external clock from PL via EMIO, or from pinout
- ia MIO
- PSU_IOU_SLCR_WDT_CLK_SEL_SELECT 0
-
- SWDT clock source select
- (OFFSET, MASK, VALUE) (0XFF180300, 0x00000001U ,0x00000000U)
- RegMask = (IOU_SLCR_WDT_CLK_SEL_SELECT_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_WDT_CLK_SEL_SELECT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_WDT_CLK_SEL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : CSUPMU_WDT_CLK_SEL @ 0XFF410050</p>
-
- System watchdog timer clock source selection: 0: internal clock APB clock 1: external clock pss_ref_clk
- PSU_LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT 0
-
- SWDT clock source select
- (OFFSET, MASK, VALUE) (0XFF410050, 0x00000001U ,0x00000000U)
- RegMask = (LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_MASK | 0 );
-
- RegVal = ((0x00000000U << LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (LPD_SLCR_CSUPMU_WDT_CLK_SEL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
-
- return 1;
-}
-unsigned long psu_ddr_init_data() {
- // : DDR INITIALIZATION
- // : DDR CONTROLLER RESET
- /*Register : RST_DDR_SS @ 0XFD1A0108</p>
-
- DDR block level reset inside of the DDR Sub System
- PSU_CRF_APB_RST_DDR_SS_DDR_RESET 0X1
-
- DDR sub system block level reset
- (OFFSET, MASK, VALUE) (0XFD1A0108, 0x00000008U ,0x00000008U)
- RegMask = (CRF_APB_RST_DDR_SS_DDR_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_DDR_SS_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MSTR @ 0XFD070000</p>
-
- Indicates the configuration of the device used in the system. - 00 - x4 device - 01 - x8 device - 10 - x16 device - 11 - x32
- evice
- PSU_DDRC_MSTR_DEVICE_CONFIG 0x1
-
- Choose which registers are used. - 0 - Original registers - 1 - Shadow registers
- PSU_DDRC_MSTR_FREQUENCY_MODE 0x0
-
- Only present for multi-rank configurations. Each bit represents one rank. For two-rank configurations, only bits[25:24] are p
- esent. - 1 - populated - 0 - unpopulated LSB is the lowest rank number. For 2 ranks following combinations are legal: - 01 -
- ne rank - 11 - Two ranks - Others - Reserved. For 4 ranks following combinations are legal: - 0001 - One rank - 0011 - Two ra
- ks - 1111 - Four ranks
- PSU_DDRC_MSTR_ACTIVE_RANKS 0x1
-
- SDRAM burst length used: - 0001 - Burst length of 2 (only supported for mDDR) - 0010 - Burst length of 4 - 0100 - Burst lengt
- of 8 - 1000 - Burst length of 16 (only supported for mDDR, LPDDR2, and LPDDR4) All other values are reserved. This controls
- he burst size used to access the SDRAM. This must match the burst length mode register setting in the SDRAM. (For BC4/8 on-th
- -fly mode of DDR3 and DDR4, set this field to 0x0100) Burst length of 2 is not supported with AXI ports when MEMC_BURST_LENGT
- is 8. Burst length of 2 is only supported with MEMC_FREQ_RATIO = 1
- PSU_DDRC_MSTR_BURST_RDWR 0x4
-
- Set to 1 when the uMCTL2 and DRAM has to be put in DLL-off mode for low frequency operation. Set to 0 to put uMCTL2 and DRAM
- n DLL-on mode for normal frequency operation. If DDR4 CRC/parity retry is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), d
- l_off_mode is not supported, and this bit must be set to '0'.
- PSU_DDRC_MSTR_DLL_OFF_MODE 0x0
-
- Selects proportion of DQ bus width that is used by the SDRAM - 00 - Full DQ bus width to SDRAM - 01 - Half DQ bus width to SD
- AM - 10 - Quarter DQ bus width to SDRAM - 11 - Reserved. Note that half bus width mode is only supported when the SDRAM bus w
- dth is a multiple of 16, and quarter bus width mode is only supported when the SDRAM bus width is a multiple of 32 and the co
- figuration parameter MEMC_QBUS_SUPPORT is set. Bus width refers to DQ bus width (excluding any ECC width).
- PSU_DDRC_MSTR_DATA_BUS_WIDTH 0x0
-
- 1 indicates put the DRAM in geardown mode (2N) and 0 indicates put the DRAM in normal mode (1N). This register can be changed
- only when the Controller is in self-refresh mode. This signal must be set the same value as MR3 bit A3. Note: Geardown mode
- s not supported if the configuration parameter MEMC_CMD_RTN2IDLE is set
- PSU_DDRC_MSTR_GEARDOWN_MODE 0x0
-
- If 1, then uMCTL2 uses 2T timing. Otherwise, uses 1T timing. In 2T timing, all command signals (except chip select) are held
- or 2 clocks on the SDRAM bus. Chip select is asserted on the second cycle of the command Note: 2T timing is not supported in
- PDDR2/LPDDR3/LPDDR4 mode Note: 2T timing is not supported if the configuration parameter MEMC_CMD_RTN2IDLE is set Note: 2T ti
- ing is not supported in DDR4 geardown mode.
- PSU_DDRC_MSTR_EN_2T_TIMING_MODE 0x0
-
- When set, enable burst-chop in DDR3/DDR4. Burst Chop for Reads is exercised only in HIF configurations (UMCTL2_INCL_ARB not s
- t) and if in full bus width mode (MSTR.data_bus_width = 00). Burst Chop for Writes is exercised only if Partial Writes enable
- (UMCTL2_PARTIAL_WR=1) and if CRC is disabled (CRCPARCTL1.crc_enable = 0). If DDR4 CRC/parity retry is enabled (CRCPARCTL1.cr
- _parity_retry_enable = 1), burst chop is not supported, and this bit must be set to '0'
- PSU_DDRC_MSTR_BURSTCHOP 0x0
-
- Select LPDDR4 SDRAM - 1 - LPDDR4 SDRAM device in use. - 0 - non-LPDDR4 device in use Present only in designs configured to su
- port LPDDR4.
- PSU_DDRC_MSTR_LPDDR4 0x0
-
- Select DDR4 SDRAM - 1 - DDR4 SDRAM device in use. - 0 - non-DDR4 device in use Present only in designs configured to support
- DR4.
- PSU_DDRC_MSTR_DDR4 0x1
-
- Select LPDDR3 SDRAM - 1 - LPDDR3 SDRAM device in use. - 0 - non-LPDDR3 device in use Present only in designs configured to su
- port LPDDR3.
- PSU_DDRC_MSTR_LPDDR3 0x0
-
- Select LPDDR2 SDRAM - 1 - LPDDR2 SDRAM device in use. - 0 - non-LPDDR2 device in use Present only in designs configured to su
- port LPDDR2.
- PSU_DDRC_MSTR_LPDDR2 0x0
-
- Select DDR3 SDRAM - 1 - DDR3 SDRAM device in use - 0 - non-DDR3 SDRAM device in use Only present in designs that support DDR3
-
- PSU_DDRC_MSTR_DDR3 0x0
-
- Master Register
- (OFFSET, MASK, VALUE) (0XFD070000, 0xE30FBE3DU ,0x41040010U)
- RegMask = (DDRC_MSTR_DEVICE_CONFIG_MASK | DDRC_MSTR_FREQUENCY_MODE_MASK | DDRC_MSTR_ACTIVE_RANKS_MASK | DDRC_MSTR_BURST_RDWR_MASK | DDRC_MSTR_DLL_OFF_MODE_MASK | DDRC_MSTR_DATA_BUS_WIDTH_MASK | DDRC_MSTR_GEARDOWN_MODE_MASK | DDRC_MSTR_EN_2T_TIMING_MODE_MASK | DDRC_MSTR_BURSTCHOP_MASK | DDRC_MSTR_LPDDR4_MASK | DDRC_MSTR_DDR4_MASK | DDRC_MSTR_LPDDR3_MASK | DDRC_MSTR_LPDDR2_MASK | DDRC_MSTR_DDR3_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_MSTR_DEVICE_CONFIG_SHIFT
- | 0x00000000U << DDRC_MSTR_FREQUENCY_MODE_SHIFT
- | 0x00000001U << DDRC_MSTR_ACTIVE_RANKS_SHIFT
- | 0x00000004U << DDRC_MSTR_BURST_RDWR_SHIFT
- | 0x00000000U << DDRC_MSTR_DLL_OFF_MODE_SHIFT
- | 0x00000000U << DDRC_MSTR_DATA_BUS_WIDTH_SHIFT
- | 0x00000000U << DDRC_MSTR_GEARDOWN_MODE_SHIFT
- | 0x00000000U << DDRC_MSTR_EN_2T_TIMING_MODE_SHIFT
- | 0x00000000U << DDRC_MSTR_BURSTCHOP_SHIFT
- | 0x00000000U << DDRC_MSTR_LPDDR4_SHIFT
- | 0x00000001U << DDRC_MSTR_DDR4_SHIFT
- | 0x00000000U << DDRC_MSTR_LPDDR3_SHIFT
- | 0x00000000U << DDRC_MSTR_LPDDR2_SHIFT
- | 0x00000000U << DDRC_MSTR_DDR3_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_MSTR_OFFSET ,0xE30FBE3DU ,0x41040010U);
- /*############################################################################################################################ */
-
- /*Register : MRCTRL0 @ 0XFD070010</p>
-
- Setting this register bit to 1 triggers a mode register read or write operation. When the MR operation is complete, the uMCTL
- automatically clears this bit. The other register fields of this register must be written in a separate APB transaction, bef
- re setting this mr_wr bit. It is recommended NOT to set this signal if in Init, Deep power-down or MPSM operating modes.
- PSU_DDRC_MRCTRL0_MR_WR 0x0
-
- Address of the mode register that is to be written to. - 0000 - MR0 - 0001 - MR1 - 0010 - MR2 - 0011 - MR3 - 0100 - MR4 - 010
- - MR5 - 0110 - MR6 - 0111 - MR7 Don't Care for LPDDR2/LPDDR3/LPDDR4 (see MRCTRL1.mr_data for mode register addressing in LPD
- R2/LPDDR3/LPDDR4) This signal is also used for writing to control words of RDIMMs. In that case, it corresponds to the bank a
- dress bits sent to the RDIMM In case of DDR4, the bit[3:2] corresponds to the bank group bits. Therefore, the bit[3] as well
- s the bit[2:0] must be set to an appropriate value which is considered both the Address Mirroring of UDIMMs/RDIMMs and the Ou
- put Inversion of RDIMMs.
- PSU_DDRC_MRCTRL0_MR_ADDR 0x0
-
- Controls which rank is accessed by MRCTRL0.mr_wr. Normally, it is desired to access all ranks, so all bits should be set to 1
- However, for multi-rank UDIMMs/RDIMMs which implement address mirroring, it may be necessary to access ranks individually. E
- amples (assume uMCTL2 is configured for 4 ranks): - 0x1 - select rank 0 only - 0x2 - select rank 1 only - 0x5 - select ranks
- and 2 - 0xA - select ranks 1 and 3 - 0xF - select ranks 0, 1, 2 and 3
- PSU_DDRC_MRCTRL0_MR_RANK 0x3
-
- Indicates whether Software intervention is allowed via MRCTRL0/MRCTRL1 before automatic SDRAM initialization routine or not.
- or DDR4, this bit can be used to initialize the DDR4 RCD (MR7) before automatic SDRAM initialization. For LPDDR4, this bit ca
- be used to program additional mode registers before automatic SDRAM initialization if necessary. Note: This must be cleared
- o 0 after completing Software operation. Otherwise, SDRAM initialization routine will not re-start. - 0 - Software interventi
- n is not allowed - 1 - Software intervention is allowed
- PSU_DDRC_MRCTRL0_SW_INIT_INT 0x0
-
- Indicates whether the mode register operation is MRS in PDA mode or not - 0 - MRS - 1 - MRS in Per DRAM Addressability mode
- PSU_DDRC_MRCTRL0_PDA_EN 0x0
-
- Indicates whether the mode register operation is MRS or WR/RD for MPR (only supported for DDR4) - 0 - MRS - 1 - WR/RD for MPR
- PSU_DDRC_MRCTRL0_MPR_EN 0x0
-
- Indicates whether the mode register operation is read or write. Only used for LPDDR2/LPDDR3/LPDDR4/DDR4. - 0 - Write - 1 - Re
- d
- PSU_DDRC_MRCTRL0_MR_TYPE 0x0
-
- Mode Register Read/Write Control Register 0. Note: Do not enable more than one of the following fields simultaneously: - sw_i
- it_int - pda_en - mpr_en
- (OFFSET, MASK, VALUE) (0XFD070010, 0x8000F03FU ,0x00000030U)
- RegMask = (DDRC_MRCTRL0_MR_WR_MASK | DDRC_MRCTRL0_MR_ADDR_MASK | DDRC_MRCTRL0_MR_RANK_MASK | DDRC_MRCTRL0_SW_INIT_INT_MASK | DDRC_MRCTRL0_PDA_EN_MASK | DDRC_MRCTRL0_MPR_EN_MASK | DDRC_MRCTRL0_MR_TYPE_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_MRCTRL0_MR_WR_SHIFT
- | 0x00000000U << DDRC_MRCTRL0_MR_ADDR_SHIFT
- | 0x00000003U << DDRC_MRCTRL0_MR_RANK_SHIFT
- | 0x00000000U << DDRC_MRCTRL0_SW_INIT_INT_SHIFT
- | 0x00000000U << DDRC_MRCTRL0_PDA_EN_SHIFT
- | 0x00000000U << DDRC_MRCTRL0_MPR_EN_SHIFT
- | 0x00000000U << DDRC_MRCTRL0_MR_TYPE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_MRCTRL0_OFFSET ,0x8000F03FU ,0x00000030U);
- /*############################################################################################################################ */
-
- /*Register : DERATEEN @ 0XFD070020</p>
-
- Derate value of tRC for LPDDR4 - 0 - Derating uses +1. - 1 - Derating uses +2. - 2 - Derating uses +3. - 3 - Derating uses +4
- Present only in designs configured to support LPDDR4. The required number of cycles for derating can be determined by dividi
- g 3.75ns by the core_ddrc_core_clk period, and rounding up the next integer.
- PSU_DDRC_DERATEEN_RC_DERATE_VALUE 0x3
-
- Derate byte Present only in designs configured to support LPDDR2/LPDDR3/LPDDR4 Indicates which byte of the MRR data is used f
- r derating. The maximum valid value depends on MEMC_DRAM_TOTAL_DATA_WIDTH.
- PSU_DDRC_DERATEEN_DERATE_BYTE 0x0
-
- Derate value - 0 - Derating uses +1. - 1 - Derating uses +2. Present only in designs configured to support LPDDR2/LPDDR3/LPDD
- 4 Set to 0 for all LPDDR2 speed grades as derating value of +1.875 ns is less than a core_ddrc_core_clk period. Can be 0 or 1
- for LPDDR3/LPDDR4, depending if +1.875 ns is less than a core_ddrc_core_clk period or not.
- PSU_DDRC_DERATEEN_DERATE_VALUE 0x0
-
- Enables derating - 0 - Timing parameter derating is disabled - 1 - Timing parameter derating is enabled using MR4 read value.
- Present only in designs configured to support LPDDR2/LPDDR3/LPDDR4 This field must be set to '0' for non-LPDDR2/LPDDR3/LPDDR4
- mode.
- PSU_DDRC_DERATEEN_DERATE_ENABLE 0x0
-
- Temperature Derate Enable Register
- (OFFSET, MASK, VALUE) (0XFD070020, 0x000003F3U ,0x00000300U)
- RegMask = (DDRC_DERATEEN_RC_DERATE_VALUE_MASK | DDRC_DERATEEN_DERATE_BYTE_MASK | DDRC_DERATEEN_DERATE_VALUE_MASK | DDRC_DERATEEN_DERATE_ENABLE_MASK | 0 );
-
- RegVal = ((0x00000003U << DDRC_DERATEEN_RC_DERATE_VALUE_SHIFT
- | 0x00000000U << DDRC_DERATEEN_DERATE_BYTE_SHIFT
- | 0x00000000U << DDRC_DERATEEN_DERATE_VALUE_SHIFT
- | 0x00000000U << DDRC_DERATEEN_DERATE_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DERATEEN_OFFSET ,0x000003F3U ,0x00000300U);
- /*############################################################################################################################ */
-
- /*Register : DERATEINT @ 0XFD070024</p>
-
- Interval between two MR4 reads, used to derate the timing parameters. Present only in designs configured to support LPDDR2/LP
- DR3/LPDDR4. This register must not be set to zero
- PSU_DDRC_DERATEINT_MR4_READ_INTERVAL 0x800000
-
- Temperature Derate Interval Register
- (OFFSET, MASK, VALUE) (0XFD070024, 0xFFFFFFFFU ,0x00800000U)
- RegMask = (DDRC_DERATEINT_MR4_READ_INTERVAL_MASK | 0 );
-
- RegVal = ((0x00800000U << DDRC_DERATEINT_MR4_READ_INTERVAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DERATEINT_OFFSET ,0xFFFFFFFFU ,0x00800000U);
- /*############################################################################################################################ */
-
- /*Register : PWRCTL @ 0XFD070030</p>
-
- Self refresh state is an intermediate state to enter to Self refresh power down state or exit Self refresh power down state f
- r LPDDR4. This register controls transition from the Self refresh state. - 1 - Prohibit transition from Self refresh state -
- - Allow transition from Self refresh state
- PSU_DDRC_PWRCTL_STAY_IN_SELFREF 0x0
-
- A value of 1 to this register causes system to move to Self Refresh state immediately, as long as it is not in INIT or DPD/MP
- M operating_mode. This is referred to as Software Entry/Exit to Self Refresh. - 1 - Software Entry to Self Refresh - 0 - Soft
- are Exit from Self Refresh
- PSU_DDRC_PWRCTL_SELFREF_SW 0x0
-
- When this is 1, the uMCTL2 puts the SDRAM into maximum power saving mode when the transaction store is empty. This register m
- st be reset to '0' to bring uMCTL2 out of maximum power saving mode. Present only in designs configured to support DDR4. For
- on-DDR4, this register should not be set to 1. Note that MPSM is not supported when using a DWC DDR PHY, if the PHY parameter
- DWC_AC_CS_USE is disabled, as the MPSM exit sequence requires the chip-select signal to toggle. FOR PERFORMANCE ONLY.
- PSU_DDRC_PWRCTL_MPSM_EN 0x0
-
- Enable the assertion of dfi_dram_clk_disable whenever a clock is not required by the SDRAM. If set to 0, dfi_dram_clk_disable
- is never asserted. Assertion of dfi_dram_clk_disable is as follows: In DDR2/DDR3, can only be asserted in Self Refresh. In DD
- 4, can be asserted in following: - in Self Refresh. - in Maximum Power Saving Mode In mDDR/LPDDR2/LPDDR3, can be asserted in
- ollowing: - in Self Refresh - in Power Down - in Deep Power Down - during Normal operation (Clock Stop) In LPDDR4, can be ass
- rted in following: - in Self Refresh Power Down - in Power Down - during Normal operation (Clock Stop)
- PSU_DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE 0x0
-
- When this is 1, uMCTL2 puts the SDRAM into deep power-down mode when the transaction store is empty. This register must be re
- et to '0' to bring uMCTL2 out of deep power-down mode. Controller performs automatic SDRAM initialization on deep power-down
- xit. Present only in designs configured to support mDDR or LPDDR2 or LPDDR3. For non-mDDR/non-LPDDR2/non-LPDDR3, this registe
- should not be set to 1. FOR PERFORMANCE ONLY.
- PSU_DDRC_PWRCTL_DEEPPOWERDOWN_EN 0x0
-
- If true then the uMCTL2 goes into power-down after a programmable number of cycles 'maximum idle clocks before power down' (P
- RTMG.powerdown_to_x32). This register bit may be re-programmed during the course of normal operation.
- PSU_DDRC_PWRCTL_POWERDOWN_EN 0x0
-
- If true then the uMCTL2 puts the SDRAM into Self Refresh after a programmable number of cycles 'maximum idle clocks before Se
- f Refresh (PWRTMG.selfref_to_x32)'. This register bit may be re-programmed during the course of normal operation.
- PSU_DDRC_PWRCTL_SELFREF_EN 0x0
-
- Low Power Control Register
- (OFFSET, MASK, VALUE) (0XFD070030, 0x0000007FU ,0x00000000U)
- RegMask = (DDRC_PWRCTL_STAY_IN_SELFREF_MASK | DDRC_PWRCTL_SELFREF_SW_MASK | DDRC_PWRCTL_MPSM_EN_MASK | DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_MASK | DDRC_PWRCTL_DEEPPOWERDOWN_EN_MASK | DDRC_PWRCTL_POWERDOWN_EN_MASK | DDRC_PWRCTL_SELFREF_EN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PWRCTL_STAY_IN_SELFREF_SHIFT
- | 0x00000000U << DDRC_PWRCTL_SELFREF_SW_SHIFT
- | 0x00000000U << DDRC_PWRCTL_MPSM_EN_SHIFT
- | 0x00000000U << DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE_SHIFT
- | 0x00000000U << DDRC_PWRCTL_DEEPPOWERDOWN_EN_SHIFT
- | 0x00000000U << DDRC_PWRCTL_POWERDOWN_EN_SHIFT
- | 0x00000000U << DDRC_PWRCTL_SELFREF_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PWRCTL_OFFSET ,0x0000007FU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : PWRTMG @ 0XFD070034</p>
-
- After this many clocks of NOP or deselect the uMCTL2 automatically puts the SDRAM into Self Refresh. This must be enabled in
- he PWRCTL.selfref_en. Unit: Multiples of 32 clocks. FOR PERFORMANCE ONLY.
- PSU_DDRC_PWRTMG_SELFREF_TO_X32 0x40
-
- Minimum deep power-down time. For mDDR, value from the JEDEC specification is 0 as mDDR exits from deep power-down mode immed
- ately after PWRCTL.deeppowerdown_en is de-asserted. For LPDDR2/LPDDR3, value from the JEDEC specification is 500us. Unit: Mul
- iples of 4096 clocks. Present only in designs configured to support mDDR, LPDDR2 or LPDDR3. FOR PERFORMANCE ONLY.
- PSU_DDRC_PWRTMG_T_DPD_X4096 0x84
-
- After this many clocks of NOP or deselect the uMCTL2 automatically puts the SDRAM into power-down. This must be enabled in th
- PWRCTL.powerdown_en. Unit: Multiples of 32 clocks FOR PERFORMANCE ONLY.
- PSU_DDRC_PWRTMG_POWERDOWN_TO_X32 0x10
-
- Low Power Timing Register
- (OFFSET, MASK, VALUE) (0XFD070034, 0x00FFFF1FU ,0x00408410U)
- RegMask = (DDRC_PWRTMG_SELFREF_TO_X32_MASK | DDRC_PWRTMG_T_DPD_X4096_MASK | DDRC_PWRTMG_POWERDOWN_TO_X32_MASK | 0 );
-
- RegVal = ((0x00000040U << DDRC_PWRTMG_SELFREF_TO_X32_SHIFT
- | 0x00000084U << DDRC_PWRTMG_T_DPD_X4096_SHIFT
- | 0x00000010U << DDRC_PWRTMG_POWERDOWN_TO_X32_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PWRTMG_OFFSET ,0x00FFFF1FU ,0x00408410U);
- /*############################################################################################################################ */
-
- /*Register : RFSHCTL0 @ 0XFD070050</p>
-
- Threshold value in number of clock cycles before the critical refresh or page timer expires. A critical refresh is to be issu
- d before this threshold is reached. It is recommended that this not be changed from the default value, currently shown as 0x2
- It must always be less than internally used t_rfc_nom_x32. Note that, in LPDDR2/LPDDR3/LPDDR4, internally used t_rfc_nom_x32
- may be equal to RFSHTMG.t_rfc_nom_x32>>2 if derating is enabled (DERATEEN.derate_enable=1). Otherwise, internally used t_rfc_
- om_x32 will be equal to RFSHTMG.t_rfc_nom_x32. Unit: Multiples of 32 clocks.
- PSU_DDRC_RFSHCTL0_REFRESH_MARGIN 0x2
-
- If the refresh timer (tRFCnom, also known as tREFI) has expired at least once, but it has not expired (RFSHCTL0.refresh_burst
- 1) times yet, then a speculative refresh may be performed. A speculative refresh is a refresh performed at a time when refres
- would be useful, but before it is absolutely required. When the SDRAM bus is idle for a period of time determined by this RF
- HCTL0.refresh_to_x32 and the refresh timer has expired at least once since the last refresh, then a speculative refresh is pe
- formed. Speculative refreshes continues successively until there are no refreshes pending or until new reads or writes are is
- ued to the uMCTL2. FOR PERFORMANCE ONLY.
- PSU_DDRC_RFSHCTL0_REFRESH_TO_X32 0x10
-
- The programmed value + 1 is the number of refresh timeouts that is allowed to accumulate before traffic is blocked and the re
- reshes are forced to execute. Closing pages to perform a refresh is a one-time penalty that must be paid for each group of re
- reshes. Therefore, performing refreshes in a burst reduces the per-refresh penalty of these page closings. Higher numbers for
- RFSHCTL.refresh_burst slightly increases utilization; lower numbers decreases the worst-case latency associated with refreshe
- . - 0 - single refresh - 1 - burst-of-2 refresh - 7 - burst-of-8 refresh For information on burst refresh feature refer to se
- tion 3.9 of DDR2 JEDEC specification - JESD79-2F.pdf. For DDR2/3, the refresh is always per-rank and not per-bank. The rank r
- fresh can be accumulated over 8*tREFI cycles using the burst refresh feature. In DDR4 mode, according to Fine Granularity fea
- ure, 8 refreshes can be postponed in 1X mode, 16 refreshes in 2X mode and 32 refreshes in 4X mode. If using PHY-initiated upd
- tes, care must be taken in the setting of RFSHCTL0.refresh_burst, to ensure that tRFCmax is not violated due to a PHY-initiat
- d update occurring shortly before a refresh burst was due. In this situation, the refresh burst will be delayed until the PHY
- initiated update is complete.
- PSU_DDRC_RFSHCTL0_REFRESH_BURST 0x0
-
- - 1 - Per bank refresh; - 0 - All bank refresh. Per bank refresh allows traffic to flow to other banks. Per bank refresh is n
- t supported by all LPDDR2 devices but should be supported by all LPDDR3/LPDDR4 devices. Present only in designs configured to
- support LPDDR2/LPDDR3/LPDDR4
- PSU_DDRC_RFSHCTL0_PER_BANK_REFRESH 0x0
-
- Refresh Control Register 0
- (OFFSET, MASK, VALUE) (0XFD070050, 0x00F1F1F4U ,0x00210000U)
- RegMask = (DDRC_RFSHCTL0_REFRESH_MARGIN_MASK | DDRC_RFSHCTL0_REFRESH_TO_X32_MASK | DDRC_RFSHCTL0_REFRESH_BURST_MASK | DDRC_RFSHCTL0_PER_BANK_REFRESH_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_RFSHCTL0_REFRESH_MARGIN_SHIFT
- | 0x00000010U << DDRC_RFSHCTL0_REFRESH_TO_X32_SHIFT
- | 0x00000000U << DDRC_RFSHCTL0_REFRESH_BURST_SHIFT
- | 0x00000000U << DDRC_RFSHCTL0_PER_BANK_REFRESH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_RFSHCTL0_OFFSET ,0x00F1F1F4U ,0x00210000U);
- /*############################################################################################################################ */
-
- /*Register : RFSHCTL3 @ 0XFD070060</p>
-
- Fine Granularity Refresh Mode - 000 - Fixed 1x (Normal mode) - 001 - Fixed 2x - 010 - Fixed 4x - 101 - Enable on the fly 2x (
- ot supported) - 110 - Enable on the fly 4x (not supported) - Everything else - reserved Note: The on-the-fly modes is not sup
- orted in this version of the uMCTL2. Note: This must be set up while the Controller is in reset or while the Controller is in
- self-refresh mode. Changing this during normal operation is not allowed. Making this a dynamic register will be supported in
- uture version of the uMCTL2.
- PSU_DDRC_RFSHCTL3_REFRESH_MODE 0x0
-
- Toggle this signal (either from 0 to 1 or from 1 to 0) to indicate that the refresh register(s) have been updated. The value
- s automatically updated when exiting reset, so it does not need to be toggled initially.
- PSU_DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL 0x0
-
- When '1', disable auto-refresh generated by the uMCTL2. When auto-refresh is disabled, the SoC core must generate refreshes u
- ing the registers reg_ddrc_rank0_refresh, reg_ddrc_rank1_refresh, reg_ddrc_rank2_refresh and reg_ddrc_rank3_refresh. When dis
- auto_refresh transitions from 0 to 1, any pending refreshes are immediately scheduled by the uMCTL2. If DDR4 CRC/parity retry
- is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), disable auto-refresh is not supported, and this bit must be set to '0'.
- his register field is changeable on the fly.
- PSU_DDRC_RFSHCTL3_DIS_AUTO_REFRESH 0x1
-
- Refresh Control Register 3
- (OFFSET, MASK, VALUE) (0XFD070060, 0x00000073U ,0x00000001U)
- RegMask = (DDRC_RFSHCTL3_REFRESH_MODE_MASK | DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_MASK | DDRC_RFSHCTL3_DIS_AUTO_REFRESH_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_RFSHCTL3_REFRESH_MODE_SHIFT
- | 0x00000000U << DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL_SHIFT
- | 0x00000001U << DDRC_RFSHCTL3_DIS_AUTO_REFRESH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_RFSHCTL3_OFFSET ,0x00000073U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : RFSHTMG @ 0XFD070064</p>
-
- tREFI: Average time interval between refreshes per rank (Specification: 7.8us for DDR2, DDR3 and DDR4. See JEDEC specificatio
- for mDDR, LPDDR2, LPDDR3 and LPDDR4). For LPDDR2/LPDDR3/LPDDR4: - if using all-bank refreshes (RFSHCTL0.per_bank_refresh = 0
- , this register should be set to tREFIab - if using per-bank refreshes (RFSHCTL0.per_bank_refresh = 1), this register should
- e set to tREFIpb For configurations with MEMC_FREQ_RATIO=2, program this to (tREFI/2), no rounding up. In DDR4 mode, tREFI va
- ue is different depending on the refresh mode. The user should program the appropriate value from the spec based on the value
- programmed in the refresh mode register. Note that RFSHTMG.t_rfc_nom_x32 * 32 must be greater than RFSHTMG.t_rfc_min, and RFS
- TMG.t_rfc_nom_x32 must be greater than 0x1. Unit: Multiples of 32 clocks.
- PSU_DDRC_RFSHTMG_T_RFC_NOM_X32 0x82
-
- Used only when LPDDR3 memory type is connected. Should only be changed when uMCTL2 is in reset. Specifies whether to use the
- REFBW parameter (required by some LPDDR3 devices which comply with earlier versions of the LPDDR3 JEDEC specification) or not
- - 0 - tREFBW parameter not used - 1 - tREFBW parameter used
- PSU_DDRC_RFSHTMG_LPDDR3_TREFBW_EN 0x1
-
- tRFC (min): Minimum time from refresh to refresh or activate. For MEMC_FREQ_RATIO=1 configurations, t_rfc_min should be set t
- RoundUp(tRFCmin/tCK). For MEMC_FREQ_RATIO=2 configurations, t_rfc_min should be set to RoundUp(RoundUp(tRFCmin/tCK)/2). In L
- DDR2/LPDDR3/LPDDR4 mode: - if using all-bank refreshes, the tRFCmin value in the above equations is equal to tRFCab - if usin
- per-bank refreshes, the tRFCmin value in the above equations is equal to tRFCpb In DDR4 mode, the tRFCmin value in the above
- equations is different depending on the refresh mode (fixed 1X,2X,4X) and the device density. The user should program the app
- opriate value from the spec based on the 'refresh_mode' and the device density that is used. Unit: Clocks.
- PSU_DDRC_RFSHTMG_T_RFC_MIN 0x8b
-
- Refresh Timing Register
- (OFFSET, MASK, VALUE) (0XFD070064, 0x0FFF83FFU ,0x0082808BU)
- RegMask = (DDRC_RFSHTMG_T_RFC_NOM_X32_MASK | DDRC_RFSHTMG_LPDDR3_TREFBW_EN_MASK | DDRC_RFSHTMG_T_RFC_MIN_MASK | 0 );
-
- RegVal = ((0x00000082U << DDRC_RFSHTMG_T_RFC_NOM_X32_SHIFT
- | 0x00000001U << DDRC_RFSHTMG_LPDDR3_TREFBW_EN_SHIFT
- | 0x0000008BU << DDRC_RFSHTMG_T_RFC_MIN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_RFSHTMG_OFFSET ,0x0FFF83FFU ,0x0082808BU);
- /*############################################################################################################################ */
-
- /*Register : ECCCFG0 @ 0XFD070070</p>
-
- Disable ECC scrubs. Valid only when ECCCFG0.ecc_mode = 3'b100 and MEMC_USE_RMW is defined
- PSU_DDRC_ECCCFG0_DIS_SCRUB 0x1
-
- ECC mode indicator - 000 - ECC disabled - 100 - ECC enabled - SEC/DED over 1 beat - all other settings are reserved for futur
- use
- PSU_DDRC_ECCCFG0_ECC_MODE 0x0
-
- ECC Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD070070, 0x00000017U ,0x00000010U)
- RegMask = (DDRC_ECCCFG0_DIS_SCRUB_MASK | DDRC_ECCCFG0_ECC_MODE_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_ECCCFG0_DIS_SCRUB_SHIFT
- | 0x00000000U << DDRC_ECCCFG0_ECC_MODE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ECCCFG0_OFFSET ,0x00000017U ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : ECCCFG1 @ 0XFD070074</p>
-
- Selects whether to poison 1 or 2 bits - if 0 -> 2-bit (uncorrectable) data poisoning, if 1 -> 1-bit (correctable) data poison
- ng, if ECCCFG1.data_poison_en=1
- PSU_DDRC_ECCCFG1_DATA_POISON_BIT 0x0
-
- Enable ECC data poisoning - introduces ECC errors on writes to address specified by the ECCPOISONADDR0/1 registers
- PSU_DDRC_ECCCFG1_DATA_POISON_EN 0x0
-
- ECC Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070074, 0x00000003U ,0x00000000U)
- RegMask = (DDRC_ECCCFG1_DATA_POISON_BIT_MASK | DDRC_ECCCFG1_DATA_POISON_EN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_ECCCFG1_DATA_POISON_BIT_SHIFT
- | 0x00000000U << DDRC_ECCCFG1_DATA_POISON_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ECCCFG1_OFFSET ,0x00000003U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : CRCPARCTL1 @ 0XFD0700C4</p>
-
- The maximum number of DFI PHY clock cycles allowed from the assertion of the dfi_rddata_en signal to the assertion of each of
- the corresponding bits of the dfi_rddata_valid signal. This corresponds to the DFI timing parameter tphy_rdlat. Refer to PHY
- pecification for correct value. This value it only used for detecting read data timeout when DDR4 retry is enabled by CRCPARC
- L1.crc_parity_retry_enable=1. Maximum supported value: - 1:1 Frequency mode : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_
- dlat < 'd114 - 1:2 Frequency mode ANDAND DFITMG0.dfi_rddata_use_sdr == 1 : CRCPARCTL1.dfi_t_phy_rdlat < 64 - 1:2 Frequency mo
- e ANDAND DFITMG0.dfi_rddata_use_sdr == 0 : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_rdlat < 'd114 Unit: DFI Clocks
- PSU_DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT 0x10
-
- After a Parity or CRC error is flagged on dfi_alert_n signal, the software has an option to read the mode registers in the DR
- M before the hardware begins the retry process - 1: Wait for software to read/write the mode registers before hardware begins
- the retry. After software is done with its operations, it will clear the alert interrupt register bit - 0: Hardware can begin
- the retry right away after the dfi_alert_n pulse goes away. The value on this register is valid only when retry is enabled (P
- RCTRL.crc_parity_retry_enable = 1) If this register is set to 1 and if the software doesn't clear the interrupt register afte
- handling the parity/CRC error, then the hardware will not begin the retry process and the system will hang. In the case of P
- rity/CRC error, there are two possibilities when the software doesn't reset MR5[4] to 0. - (i) If 'Persistent parity' mode re
- ister bit is NOT set: the commands sent during retry and normal operation are executed without parity checking. The value in
- he Parity error log register MPR Page 1 is valid. - (ii) If 'Persistent parity' mode register bit is SET: Parity checking is
- one for commands sent during retry and normal operation. If multiple errors occur before MR5[4] is cleared, the error log in
- PR Page 1 should be treated as 'Don't care'.
- PSU_DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW 0x1
-
- - 1: Enable command retry mechanism in case of C/A Parity or CRC error - 0: Disable command retry mechanism when C/A Parity o
- CRC features are enabled. Note that retry functionality is not supported if burst chop is enabled (MSTR.burstchop = 1) and/o
- disable auto-refresh is enabled (RFSHCTL3.dis_auto_refresh = 1)
- PSU_DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE 0x0
-
- CRC Calculation setting register - 1: CRC includes DM signal - 0: CRC not includes DM signal Present only in designs configur
- d to support DDR4.
- PSU_DDRC_CRCPARCTL1_CRC_INC_DM 0x0
-
- CRC enable Register - 1: Enable generation of CRC - 0: Disable generation of CRC The setting of this register should match th
- CRC mode register setting in the DRAM.
- PSU_DDRC_CRCPARCTL1_CRC_ENABLE 0x0
-
- C/A Parity enable register - 1: Enable generation of C/A parity and detection of C/A parity error - 0: Disable generation of
- /A parity and disable detection of C/A parity error If RCD's parity error detection or SDRAM's parity detection is enabled, t
- is register should be 1.
- PSU_DDRC_CRCPARCTL1_PARITY_ENABLE 0x0
-
- CRC Parity Control Register1
- (OFFSET, MASK, VALUE) (0XFD0700C4, 0x3F000391U ,0x10000200U)
- RegMask = (DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_MASK | DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_MASK | DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_MASK | DDRC_CRCPARCTL1_CRC_INC_DM_MASK | DDRC_CRCPARCTL1_CRC_ENABLE_MASK | DDRC_CRCPARCTL1_PARITY_ENABLE_MASK | 0 );
-
- RegVal = ((0x00000010U << DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT_SHIFT
- | 0x00000001U << DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW_SHIFT
- | 0x00000000U << DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE_SHIFT
- | 0x00000000U << DDRC_CRCPARCTL1_CRC_INC_DM_SHIFT
- | 0x00000000U << DDRC_CRCPARCTL1_CRC_ENABLE_SHIFT
- | 0x00000000U << DDRC_CRCPARCTL1_PARITY_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_CRCPARCTL1_OFFSET ,0x3F000391U ,0x10000200U);
- /*############################################################################################################################ */
-
- /*Register : CRCPARCTL2 @ 0XFD0700C8</p>
-
- Value from the DRAM spec indicating the maximum width of the dfi_alert_n pulse when a parity error occurs. Recommended values
- - tPAR_ALERT_PW.MAX For configurations with MEMC_FREQ_RATIO=2, program this to tPAR_ALERT_PW.MAX/2 and round up to next inte
- er value. Values of 0, 1 and 2 are illegal. This value must be greater than CRCPARCTL2.t_crc_alert_pw_max.
- PSU_DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX 0x40
-
- Value from the DRAM spec indicating the maximum width of the dfi_alert_n pulse when a CRC error occurs. Recommended values: -
- tCRC_ALERT_PW.MAX For configurations with MEMC_FREQ_RATIO=2, program this to tCRC_ALERT_PW.MAX/2 and round up to next integer
- value. Values of 0, 1 and 2 are illegal. This value must be less than CRCPARCTL2.t_par_alert_pw_max.
- PSU_DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX 0x5
-
- Indicates the maximum duration in number of DRAM clock cycles for which a command should be held in the Command Retry FIFO be
- ore it is popped out. Every location in the Command Retry FIFO has an associated down counting timer that will use this regis
- er as the start value. The down counting starts when a command is loaded into the FIFO. The timer counts down every 4 DRAM cy
- les. When the counter reaches zero, the entry is popped from the FIFO. All the counters are frozen, if a C/A Parity or CRC er
- or occurs before the counter reaches zero. The counter is reset to 0, after all the commands in the FIFO are retried. Recomme
- ded(minimum) values: - Only C/A Parity is enabled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + RDIMM delay + tPAR_ALERT_ON
- max + tPAR_UNKNOWN + PHY Alert Latency(DRAM CLK) + board delay) / 4) + 2 - Both C/A Parity and CRC is enabled/ Only CRC is en
- bled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + RDIMM delay + WL + 5(BL10)+ tCRC_ALERT.max + PHY Alert Latency(DRAM CLK)
- + board delay) / 4) + 2 Note 1: All value (e.g. tPAR_ALERT_ON) should be in terms of DRAM Clock and round up Note 2: Board de
- ay(Command/Alert_n) should be considered. Note 3: Use the worst case(longer) value for PHY Latencies/Board delay Note 4: The
- ecommended values are minimum value to be set. For mode detail, See 'Calculation of FIFO Depth' section. Max value can be set
- to this register is defined below: - MEMC_BURST_LENGTH == 16 Full bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-
- Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Half bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_D
- PTH-4 Half bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-6 Quarter bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CM
- _FIFO_DEPTH-8 Quarter bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-12 - MEMC_BURST_LENGTH != 16 Full bus Mode (C
- C=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-1 Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mo
- e (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Quarte
- bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-4 Quarter bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEP
- H-6 Values of 0, 1 and 2 are illegal.
- PSU_DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4 0x1f
-
- CRC Parity Control Register2
- (OFFSET, MASK, VALUE) (0XFD0700C8, 0x01FF1F3FU ,0x0040051FU)
- RegMask = (DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_MASK | DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_MASK | DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_MASK | 0 );
-
- RegVal = ((0x00000040U << DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX_SHIFT
- | 0x00000005U << DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX_SHIFT
- | 0x0000001FU << DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_CRCPARCTL2_OFFSET ,0x01FF1F3FU ,0x0040051FU);
- /*############################################################################################################################ */
-
- /*Register : INIT0 @ 0XFD0700D0</p>
-
- If lower bit is enabled the SDRAM initialization routine is skipped. The upper bit decides what state the controller starts u
- in when reset is removed - 00 - SDRAM Intialization routine is run after power-up - 01 - SDRAM Intialization routine is skip
- ed after power-up. Controller starts up in Normal Mode - 11 - SDRAM Intialization routine is skipped after power-up. Controll
- r starts up in Self-refresh Mode - 10 - SDRAM Intialization routine is run after power-up. Note: The only 2'b00 is supported
- or LPDDR4 in this version of the uMCTL2.
- PSU_DDRC_INIT0_SKIP_DRAM_INIT 0x0
-
- Cycles to wait after driving CKE high to start the SDRAM initialization sequence. Unit: 1024 clocks. DDR2 typically requires
- 400 ns delay, requiring this value to be programmed to 2 at all clock speeds. LPDDR2/LPDDR3 typically requires this to be pr
- grammed for a delay of 200 us. LPDDR4 typically requires this to be programmed for a delay of 2 us. For configurations with M
- MC_FREQ_RATIO=2, program this to JEDEC spec value divided by 2, and round it up to next integer value.
- PSU_DDRC_INIT0_POST_CKE_X1024 0x2
-
- Cycles to wait after reset before driving CKE high to start the SDRAM initialization sequence. Unit: 1024 clock cycles. DDR2
- pecifications typically require this to be programmed for a delay of >= 200 us. LPDDR2/LPDDR3: tINIT1 of 100 ns (min) LPDDR4:
- tINIT3 of 2 ms (min) For configurations with MEMC_FREQ_RATIO=2, program this to JEDEC spec value divided by 2, and round it u
- to next integer value.
- PSU_DDRC_INIT0_PRE_CKE_X1024 0x106
-
- SDRAM Initialization Register 0
- (OFFSET, MASK, VALUE) (0XFD0700D0, 0xC3FF0FFFU ,0x00020106U)
- RegMask = (DDRC_INIT0_SKIP_DRAM_INIT_MASK | DDRC_INIT0_POST_CKE_X1024_MASK | DDRC_INIT0_PRE_CKE_X1024_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_INIT0_SKIP_DRAM_INIT_SHIFT
- | 0x00000002U << DDRC_INIT0_POST_CKE_X1024_SHIFT
- | 0x00000106U << DDRC_INIT0_PRE_CKE_X1024_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT0_OFFSET ,0xC3FF0FFFU ,0x00020106U);
- /*############################################################################################################################ */
-
- /*Register : INIT1 @ 0XFD0700D4</p>
-
- Number of cycles to assert SDRAM reset signal during init sequence. This is only present for designs supporting DDR3, DDR4 or
- LPDDR4 devices. For use with a DDR PHY, this should be set to a minimum of 1
- PSU_DDRC_INIT1_DRAM_RSTN_X1024 0x2
-
- Cycles to wait after completing the SDRAM initialization sequence before starting the dynamic scheduler. Unit: Counts of a gl
- bal timer that pulses every 32 clock cycles. There is no known specific requirement for this; it may be set to zero.
- PSU_DDRC_INIT1_FINAL_WAIT_X32 0x0
-
- Wait period before driving the OCD complete command to SDRAM. Unit: Counts of a global timer that pulses every 32 clock cycle
- . There is no known specific requirement for this; it may be set to zero.
- PSU_DDRC_INIT1_PRE_OCD_X32 0x0
-
- SDRAM Initialization Register 1
- (OFFSET, MASK, VALUE) (0XFD0700D4, 0x01FF7F0FU ,0x00020000U)
- RegMask = (DDRC_INIT1_DRAM_RSTN_X1024_MASK | DDRC_INIT1_FINAL_WAIT_X32_MASK | DDRC_INIT1_PRE_OCD_X32_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_INIT1_DRAM_RSTN_X1024_SHIFT
- | 0x00000000U << DDRC_INIT1_FINAL_WAIT_X32_SHIFT
- | 0x00000000U << DDRC_INIT1_PRE_OCD_X32_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT1_OFFSET ,0x01FF7F0FU ,0x00020000U);
- /*############################################################################################################################ */
-
- /*Register : INIT2 @ 0XFD0700D8</p>
-
- Idle time after the reset command, tINIT4. Present only in designs configured to support LPDDR2. Unit: 32 clock cycles.
- PSU_DDRC_INIT2_IDLE_AFTER_RESET_X32 0x23
-
- Time to wait after the first CKE high, tINIT2. Present only in designs configured to support LPDDR2/LPDDR3. Unit: 1 clock cyc
- e. LPDDR2/LPDDR3 typically requires 5 x tCK delay.
- PSU_DDRC_INIT2_MIN_STABLE_CLOCK_X1 0x5
-
- SDRAM Initialization Register 2
- (OFFSET, MASK, VALUE) (0XFD0700D8, 0x0000FF0FU ,0x00002305U)
- RegMask = (DDRC_INIT2_IDLE_AFTER_RESET_X32_MASK | DDRC_INIT2_MIN_STABLE_CLOCK_X1_MASK | 0 );
-
- RegVal = ((0x00000023U << DDRC_INIT2_IDLE_AFTER_RESET_X32_SHIFT
- | 0x00000005U << DDRC_INIT2_MIN_STABLE_CLOCK_X1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT2_OFFSET ,0x0000FF0FU ,0x00002305U);
- /*############################################################################################################################ */
-
- /*Register : INIT3 @ 0XFD0700DC</p>
-
- DDR2: Value to write to MR register. Bit 8 is for DLL and the setting here is ignored. The uMCTL2 sets this bit appropriately
- DDR3/DDR4: Value loaded into MR0 register. mDDR: Value to write to MR register. LPDDR2/LPDDR3/LPDDR4 - Value to write to MR1
- register
- PSU_DDRC_INIT3_MR 0x930
-
- DDR2: Value to write to EMR register. Bits 9:7 are for OCD and the setting in this register is ignored. The uMCTL2 sets those
- bits appropriately. DDR3/DDR4: Value to write to MR1 register Set bit 7 to 0. If PHY-evaluation mode training is enabled, thi
- bit is set appropriately by the uMCTL2 during write leveling. mDDR: Value to write to EMR register. LPDDR2/LPDDR3/LPDDR4 - V
- lue to write to MR2 register
- PSU_DDRC_INIT3_EMR 0x301
-
- SDRAM Initialization Register 3
- (OFFSET, MASK, VALUE) (0XFD0700DC, 0xFFFFFFFFU ,0x09300301U)
- RegMask = (DDRC_INIT3_MR_MASK | DDRC_INIT3_EMR_MASK | 0 );
-
- RegVal = ((0x00000930U << DDRC_INIT3_MR_SHIFT
- | 0x00000301U << DDRC_INIT3_EMR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT3_OFFSET ,0xFFFFFFFFU ,0x09300301U);
- /*############################################################################################################################ */
-
- /*Register : INIT4 @ 0XFD0700E0</p>
-
- DDR2: Value to write to EMR2 register. DDR3/DDR4: Value to write to MR2 register LPDDR2/LPDDR3/LPDDR4: Value to write to MR3
- egister mDDR: Unused
- PSU_DDRC_INIT4_EMR2 0x20
-
- DDR2: Value to write to EMR3 register. DDR3/DDR4: Value to write to MR3 register mDDR/LPDDR2/LPDDR3: Unused LPDDR4: Value to
- rite to MR13 register
- PSU_DDRC_INIT4_EMR3 0x200
-
- SDRAM Initialization Register 4
- (OFFSET, MASK, VALUE) (0XFD0700E0, 0xFFFFFFFFU ,0x00200200U)
- RegMask = (DDRC_INIT4_EMR2_MASK | DDRC_INIT4_EMR3_MASK | 0 );
-
- RegVal = ((0x00000020U << DDRC_INIT4_EMR2_SHIFT
- | 0x00000200U << DDRC_INIT4_EMR3_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT4_OFFSET ,0xFFFFFFFFU ,0x00200200U);
- /*############################################################################################################################ */
-
- /*Register : INIT5 @ 0XFD0700E4</p>
-
- ZQ initial calibration, tZQINIT. Present only in designs configured to support DDR3 or DDR4 or LPDDR2/LPDDR3. Unit: 32 clock
- ycles. DDR3 typically requires 512 clocks. DDR4 requires 1024 clocks. LPDDR2/LPDDR3 requires 1 us.
- PSU_DDRC_INIT5_DEV_ZQINIT_X32 0x21
-
- Maximum duration of the auto initialization, tINIT5. Present only in designs configured to support LPDDR2/LPDDR3. LPDDR2/LPDD
- 3 typically requires 10 us.
- PSU_DDRC_INIT5_MAX_AUTO_INIT_X1024 0x4
-
- SDRAM Initialization Register 5
- (OFFSET, MASK, VALUE) (0XFD0700E4, 0x00FF03FFU ,0x00210004U)
- RegMask = (DDRC_INIT5_DEV_ZQINIT_X32_MASK | DDRC_INIT5_MAX_AUTO_INIT_X1024_MASK | 0 );
-
- RegVal = ((0x00000021U << DDRC_INIT5_DEV_ZQINIT_X32_SHIFT
- | 0x00000004U << DDRC_INIT5_MAX_AUTO_INIT_X1024_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT5_OFFSET ,0x00FF03FFU ,0x00210004U);
- /*############################################################################################################################ */
-
- /*Register : INIT6 @ 0XFD0700E8</p>
-
- DDR4- Value to be loaded into SDRAM MR4 registers. Used in DDR4 designs only.
- PSU_DDRC_INIT6_MR4 0x0
-
- DDR4- Value to be loaded into SDRAM MR5 registers. Used in DDR4 designs only.
- PSU_DDRC_INIT6_MR5 0x6c0
-
- SDRAM Initialization Register 6
- (OFFSET, MASK, VALUE) (0XFD0700E8, 0xFFFFFFFFU ,0x000006C0U)
- RegMask = (DDRC_INIT6_MR4_MASK | DDRC_INIT6_MR5_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_INIT6_MR4_SHIFT
- | 0x000006C0U << DDRC_INIT6_MR5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT6_OFFSET ,0xFFFFFFFFU ,0x000006C0U);
- /*############################################################################################################################ */
-
- /*Register : INIT7 @ 0XFD0700EC</p>
-
- DDR4- Value to be loaded into SDRAM MR6 registers. Used in DDR4 designs only.
- PSU_DDRC_INIT7_MR6 0x819
-
- SDRAM Initialization Register 7
- (OFFSET, MASK, VALUE) (0XFD0700EC, 0xFFFF0000U ,0x08190000U)
- RegMask = (DDRC_INIT7_MR6_MASK | 0 );
-
- RegVal = ((0x00000819U << DDRC_INIT7_MR6_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_INIT7_OFFSET ,0xFFFF0000U ,0x08190000U);
- /*############################################################################################################################ */
-
- /*Register : DIMMCTL @ 0XFD0700F0</p>
-
- Disabling Address Mirroring for BG bits. When this is set to 1, BG0 and BG1 are NOT swapped even if Address Mirroring is enab
- ed. This will be required for DDR4 DIMMs with x16 devices. - 1 - BG0 and BG1 are NOT swapped. - 0 - BG0 and BG1 are swapped i
- address mirroring is enabled.
- PSU_DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING 0x0
-
- Enable for BG1 bit of MRS command. BG1 bit of the mode register address is specified as RFU (Reserved for Future Use) and mus
- be programmed to 0 during MRS. In case where DRAMs which do not have BG1 are attached and both the CA parity and the Output
- nversion are enabled, this must be set to 0, so that the calculation of CA parity will not include BG1 bit. Note: This has no
- effect on the address of any other memory accesses, or of software-driven mode register accesses. If address mirroring is ena
- led, this is applied to BG1 of even ranks and BG0 of odd ranks. - 1 - Enabled - 0 - Disabled
- PSU_DDRC_DIMMCTL_MRS_BG1_EN 0x1
-
- Enable for A17 bit of MRS command. A17 bit of the mode register address is specified as RFU (Reserved for Future Use) and mus
- be programmed to 0 during MRS. In case where DRAMs which do not have A17 are attached and the Output Inversion are enabled,
- his must be set to 0, so that the calculation of CA parity will not include A17 bit. Note: This has no effect on the address
- f any other memory accesses, or of software-driven mode register accesses. - 1 - Enabled - 0 - Disabled
- PSU_DDRC_DIMMCTL_MRS_A17_EN 0x0
-
- Output Inversion Enable (for DDR4 RDIMM implementations only). DDR4 RDIMM implements the Output Inversion feature by default,
- which means that the following address, bank address and bank group bits of B-side DRAMs are inverted: A3-A9, A11, A13, A17,
- A0-BA1, BG0-BG1. Setting this bit ensures that, for mode register accesses generated by the uMCTL2 during the automatic initi
- lization routine and enabling of a particular DDR4 feature, separate A-side and B-side mode register accesses are generated.
- or B-side mode register accesses, these bits are inverted within the uMCTL2 to compensate for this RDIMM inversion. Note: Thi
- has no effect on the address of any other memory accesses, or of software-driven mode register accesses. - 1 - Implement out
- ut inversion for B-side DRAMs. - 0 - Do not implement output inversion for B-side DRAMs.
- PSU_DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN 0x0
-
- Address Mirroring Enable (for multi-rank UDIMM implementations and multi-rank DDR4 RDIMM implementations). Some UDIMMs and DD
- 4 RDIMMs implement address mirroring for odd ranks, which means that the following address, bank address and bank group bits
- re swapped: (A3, A4), (A5, A6), (A7, A8), (BA0, BA1) and also (A11, A13), (BG0, BG1) for the DDR4. Setting this bit ensures t
- at, for mode register accesses during the automatic initialization routine, these bits are swapped within the uMCTL2 to compe
- sate for this UDIMM/RDIMM swapping. In addition to the automatic initialization routine, in case of DDR4 UDIMM/RDIMM, they ar
- swapped during the automatic MRS access to enable/disable of a particular DDR4 feature. Note: This has no effect on the addr
- ss of any other memory accesses, or of software-driven mode register accesses. This is not supported for mDDR, LPDDR2, LPDDR3
- or LPDDR4 SDRAMs. Note: In case of x16 DDR4 DIMMs, BG1 output of MRS for the odd ranks is same as BG0 because BG1 is invalid,
- hence dimm_dis_bg_mirroring register must be set to 1. - 1 - For odd ranks, implement address mirroring for MRS commands to d
- ring initialization and for any automatic DDR4 MRS commands (to be used if UDIMM/RDIMM implements address mirroring) - 0 - Do
- not implement address mirroring
- PSU_DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN 0x0
-
- Staggering enable for multi-rank accesses (for multi-rank UDIMM and RDIMM implementations only). This is not supported for mD
- R, LPDDR2, LPDDR3 or LPDDR4 SDRAMs. Note: Even if this bit is set it does not take care of software driven MR commands (via M
- CTRL0/MRCTRL1), where software is responsible to send them to seperate ranks as appropriate. - 1 - (DDR4) Send MRS commands t
- each ranks seperately - 1 - (non-DDR4) Send all commands to even and odd ranks seperately - 0 - Do not stagger accesses
- PSU_DDRC_DIMMCTL_DIMM_STAGGER_CS_EN 0x0
-
- DIMM Control Register
- (OFFSET, MASK, VALUE) (0XFD0700F0, 0x0000003FU ,0x00000010U)
- RegMask = (DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_MASK | DDRC_DIMMCTL_MRS_BG1_EN_MASK | DDRC_DIMMCTL_MRS_A17_EN_MASK | DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_MASK | DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_MASK | DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING_SHIFT
- | 0x00000001U << DDRC_DIMMCTL_MRS_BG1_EN_SHIFT
- | 0x00000000U << DDRC_DIMMCTL_MRS_A17_EN_SHIFT
- | 0x00000000U << DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN_SHIFT
- | 0x00000000U << DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN_SHIFT
- | 0x00000000U << DDRC_DIMMCTL_DIMM_STAGGER_CS_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DIMMCTL_OFFSET ,0x0000003FU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : RANKCTL @ 0XFD0700F4</p>
-
- Only present for multi-rank configurations. Indicates the number of clocks of gap in data responses when performing consecuti
- e writes to different ranks. This is used to switch the delays in the PHY to match the rank requirements. This value should c
- nsider both PHY requirement and ODT requirement. - PHY requirement: tphy_wrcsgap + 1 (see PHY databook for value of tphy_wrcs
- ap) If CRC feature is enabled, should be increased by 1. If write preamble is set to 2tCK(DDR4/LPDDR4 only), should be increa
- ed by 1. If write postamble is set to 1.5tCK(LPDDR4 only), should be increased by 1. - ODT requirement: The value programmed
- n this register takes care of the ODT switch off timing requirement when switching ranks during writes. For LPDDR4, the requi
- ement is ODTLoff - ODTLon - BL/2 + 1 For configurations with MEMC_FREQ_RATIO=1, program this to the larger of PHY requirement
- or ODT requirement. For configurations with MEMC_FREQ_RATIO=2, program this to the larger value divided by two and round it u
- to the next integer.
- PSU_DDRC_RANKCTL_DIFF_RANK_WR_GAP 0x6
-
- Only present for multi-rank configurations. Indicates the number of clocks of gap in data responses when performing consecuti
- e reads to different ranks. This is used to switch the delays in the PHY to match the rank requirements. This value should co
- sider both PHY requirement and ODT requirement. - PHY requirement: tphy_rdcsgap + 1 (see PHY databook for value of tphy_rdcsg
- p) If read preamble is set to 2tCK(DDR4/LPDDR4 only), should be increased by 1. If read postamble is set to 1.5tCK(LPDDR4 onl
- ), should be increased by 1. - ODT requirement: The value programmed in this register takes care of the ODT switch off timing
- requirement when switching ranks during reads. For configurations with MEMC_FREQ_RATIO=1, program this to the larger of PHY r
- quirement or ODT requirement. For configurations with MEMC_FREQ_RATIO=2, program this to the larger value divided by two and
- ound it up to the next integer.
- PSU_DDRC_RANKCTL_DIFF_RANK_RD_GAP 0x6
-
- Only present for multi-rank configurations. Background: Reads to the same rank can be performed back-to-back. Reads to differ
- nt ranks require additional gap dictated by the register RANKCTL.diff_rank_rd_gap. This is to avoid possible data bus content
- on as well as to give PHY enough time to switch the delay when changing ranks. The uMCTL2 arbitrates for bus access on a cycl
- -by-cycle basis; therefore after a read is scheduled, there are few clock cycles (determined by the value on RANKCTL.diff_ran
- _rd_gap register) in which only reads from the same rank are eligible to be scheduled. This prevents reads from other ranks f
- om having fair access to the data bus. This parameter represents the maximum number of reads that can be scheduled consecutiv
- ly to the same rank. After this number is reached, a delay equal to RANKCTL.diff_rank_rd_gap is inserted by the scheduler to
- llow all ranks a fair opportunity to be scheduled. Higher numbers increase bandwidth utilization, lower numbers increase fair
- ess. This feature can be DISABLED by setting this register to 0. When set to 0, the Controller will stay on the same rank as
- ong as commands are available for it. Minimum programmable value is 0 (feature disabled) and maximum programmable value is 0x
- . FOR PERFORMANCE ONLY.
- PSU_DDRC_RANKCTL_MAX_RANK_RD 0xf
-
- Rank Control Register
- (OFFSET, MASK, VALUE) (0XFD0700F4, 0x00000FFFU ,0x0000066FU)
- RegMask = (DDRC_RANKCTL_DIFF_RANK_WR_GAP_MASK | DDRC_RANKCTL_DIFF_RANK_RD_GAP_MASK | DDRC_RANKCTL_MAX_RANK_RD_MASK | 0 );
-
- RegVal = ((0x00000006U << DDRC_RANKCTL_DIFF_RANK_WR_GAP_SHIFT
- | 0x00000006U << DDRC_RANKCTL_DIFF_RANK_RD_GAP_SHIFT
- | 0x0000000FU << DDRC_RANKCTL_MAX_RANK_RD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_RANKCTL_OFFSET ,0x00000FFFU ,0x0000066FU);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG0 @ 0XFD070100</p>
-
- Minimum time between write and precharge to same bank. Unit: Clocks Specifications: WL + BL/2 + tWR = approximately 8 cycles
- 15 ns = 14 clocks @400MHz and less for lower frequencies where: - WL = write latency - BL = burst length. This must match th
- value programmed in the BL bit of the mode register to the SDRAM. BST (burst terminate) is not supported at present. - tWR =
- Write recovery time. This comes directly from the SDRAM specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 for this
- arameter. For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the above value by 2. No rounding up. For configurations
- with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it up to the next integer value.
- PSU_DDRC_DRAMTMG0_WR2PRE 0x11
-
- tFAW Valid only when 8 or more banks(or banks x bank groups) are present. In 8-bank design, at most 4 banks must be activated
- in a rolling window of tFAW cycles. For configurations with MEMC_FREQ_RATIO=2, program this to (tFAW/2) and round up to next
- nteger value. In a 4-bank design, set this register to 0x1 independent of the MEMC_FREQ_RATIO configuration. Unit: Clocks
- PSU_DDRC_DRAMTMG0_T_FAW 0xc
-
- tRAS(max): Maximum time between activate and precharge to same bank. This is the maximum time that a page can be kept open Mi
- imum value of this register is 1. Zero is invalid. For configurations with MEMC_FREQ_RATIO=2, program this to (tRAS(max)-1)/2
- No rounding up. Unit: Multiples of 1024 clocks.
- PSU_DDRC_DRAMTMG0_T_RAS_MAX 0x24
-
- tRAS(min): Minimum time between activate and precharge to the same bank. For configurations with MEMC_FREQ_RATIO=2, 1T mode,
- rogram this to tRAS(min)/2. No rounding up. For configurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, program this t
- (tRAS(min)/2) and round it up to the next integer value. Unit: Clocks
- PSU_DDRC_DRAMTMG0_T_RAS_MIN 0x12
-
- SDRAM Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD070100, 0x7F3F7F3FU ,0x110C2412U)
- RegMask = (DDRC_DRAMTMG0_WR2PRE_MASK | DDRC_DRAMTMG0_T_FAW_MASK | DDRC_DRAMTMG0_T_RAS_MAX_MASK | DDRC_DRAMTMG0_T_RAS_MIN_MASK | 0 );
-
- RegVal = ((0x00000011U << DDRC_DRAMTMG0_WR2PRE_SHIFT
- | 0x0000000CU << DDRC_DRAMTMG0_T_FAW_SHIFT
- | 0x00000024U << DDRC_DRAMTMG0_T_RAS_MAX_SHIFT
- | 0x00000012U << DDRC_DRAMTMG0_T_RAS_MIN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG0_OFFSET ,0x7F3F7F3FU ,0x110C2412U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG1 @ 0XFD070104</p>
-
- tXP: Minimum time after power-down exit to any operation. For DDR3, this should be programmed to tXPDLL if slow powerdown exi
- is selected in MR0[12]. If C/A parity for DDR4 is used, set to (tXP+PL) instead. For configurations with MEMC_FREQ_RATIO=2,
- rogram this to (tXP/2) and round it up to the next integer value. Units: Clocks
- PSU_DDRC_DRAMTMG1_T_XP 0x4
-
- tRTP: Minimum time from read to precharge of same bank. - DDR2: tAL + BL/2 + max(tRTP, 2) - 2 - DDR3: tAL + max (tRTP, 4) - D
- R4: Max of following two equations: tAL + max (tRTP, 4) or, RL + BL/2 - tRP. - mDDR: BL/2 - LPDDR2: Depends on if it's LPDDR2
- S2 or LPDDR2-S4: LPDDR2-S2: BL/2 + tRTP - 1. LPDDR2-S4: BL/2 + max(tRTP,2) - 2. - LPDDR3: BL/2 + max(tRTP,4) - 4 - LPDDR4: BL
- 2 + max(tRTP,8) - 8 For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the above value by 2. No rounding up. For conf
- gurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it up to the next integer val
- e. Unit: Clocks.
- PSU_DDRC_DRAMTMG1_RD2PRE 0x4
-
- tRC: Minimum time between activates to same bank. For configurations with MEMC_FREQ_RATIO=2, program this to (tRC/2) and roun
- up to next integer value. Unit: Clocks.
- PSU_DDRC_DRAMTMG1_T_RC 0x19
-
- SDRAM Timing Register 1
- (OFFSET, MASK, VALUE) (0XFD070104, 0x001F1F7FU ,0x00040419U)
- RegMask = (DDRC_DRAMTMG1_T_XP_MASK | DDRC_DRAMTMG1_RD2PRE_MASK | DDRC_DRAMTMG1_T_RC_MASK | 0 );
-
- RegVal = ((0x00000004U << DDRC_DRAMTMG1_T_XP_SHIFT
- | 0x00000004U << DDRC_DRAMTMG1_RD2PRE_SHIFT
- | 0x00000019U << DDRC_DRAMTMG1_T_RC_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG1_OFFSET ,0x001F1F7FU ,0x00040419U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG2 @ 0XFD070108</p>
-
- Set to WL Time from write command to write data on SDRAM interface. This must be set to WL. For mDDR, it should normally be s
- t to 1. Note that, depending on the PHY, if using RDIMM, it may be necessary to use a value of WL + 1 to compensate for the e
- tra cycle of latency through the RDIMM For configurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above
- equation by 2, and round it up to next integer. This register field is not required for DDR2 and DDR3 (except if MEMC_TRAININ
- is set), as the DFI read and write latencies defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit: clocks
- PSU_DDRC_DRAMTMG2_WRITE_LATENCY 0x7
-
- Set to RL Time from read command to read data on SDRAM interface. This must be set to RL. Note that, depending on the PHY, if
- using RDIMM, it mat be necessary to use a value of RL + 1 to compensate for the extra cycle of latency through the RDIMM For
- onfigurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next inte
- er. This register field is not required for DDR2 and DDR3 (except if MEMC_TRAINING is set), as the DFI read and write latenci
- s defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit: clocks
- PSU_DDRC_DRAMTMG2_READ_LATENCY 0x8
-
- DDR2/3/mDDR: RL + BL/2 + 2 - WL DDR4: RL + BL/2 + 1 + WR_PREAMBLE - WL LPDDR2/LPDDR3: RL + BL/2 + RU(tDQSCKmax/tCK) + 1 - WL
- PDDR4(DQ ODT is Disabled): RL + BL/2 + RU(tDQSCKmax/tCK) + WR_PREAMBLE + RD_POSTAMBLE - WL LPDDR4(DQ ODT is Enabled) : RL + B
- /2 + RU(tDQSCKmax/tCK) + RD_POSTAMBLE - ODTLon - RU(tODTon(min)/tCK) Minimum time from read command to write command. Include
- time for bus turnaround and all per-bank, per-rank, and global constraints. Unit: Clocks. Where: - WL = write latency - BL =
- urst length. This must match the value programmed in the BL bit of the mode register to the SDRAM - RL = read latency = CAS l
- tency - WR_PREAMBLE = write preamble. This is unique to DDR4 and LPDDR4. - RD_POSTAMBLE = read postamble. This is unique to L
- DDR4. For LPDDR2/LPDDR3/LPDDR4, if derating is enabled (DERATEEN.derate_enable=1), derated tDQSCKmax should be used. For conf
- gurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next integer.
- PSU_DDRC_DRAMTMG2_RD2WR 0x6
-
- DDR4: CWL + PL + BL/2 + tWTR_L Others: CWL + BL/2 + tWTR In DDR4, minimum time from write command to read command for same ba
- k group. In others, minimum time from write command to read command. Includes time for bus turnaround, recovery times, and al
- per-bank, per-rank, and global constraints. Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity latency - BL = burs
- length. This must match the value programmed in the BL bit of the mode register to the SDRAM - tWTR_L = internal write to re
- d command delay for same bank group. This comes directly from the SDRAM specification. - tWTR = internal write to read comman
- delay. This comes directly from the SDRAM specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 operation. For configu
- ations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next integer.
- PSU_DDRC_DRAMTMG2_WR2RD 0xe
-
- SDRAM Timing Register 2
- (OFFSET, MASK, VALUE) (0XFD070108, 0x3F3F3F3FU ,0x0708060EU)
- RegMask = (DDRC_DRAMTMG2_WRITE_LATENCY_MASK | DDRC_DRAMTMG2_READ_LATENCY_MASK | DDRC_DRAMTMG2_RD2WR_MASK | DDRC_DRAMTMG2_WR2RD_MASK | 0 );
-
- RegVal = ((0x00000007U << DDRC_DRAMTMG2_WRITE_LATENCY_SHIFT
- | 0x00000008U << DDRC_DRAMTMG2_READ_LATENCY_SHIFT
- | 0x00000006U << DDRC_DRAMTMG2_RD2WR_SHIFT
- | 0x0000000EU << DDRC_DRAMTMG2_WR2RD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG2_OFFSET ,0x3F3F3F3FU ,0x0708060EU);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG3 @ 0XFD07010C</p>
-
- Time to wait after a mode register write or read (MRW or MRR). Present only in designs configured to support LPDDR2, LPDDR3 o
- LPDDR4. LPDDR2 typically requires value of 5. LPDDR3 typically requires value of 10. LPDDR4: Set this to the larger of tMRW
- nd tMRWCKEL. For LPDDR2, this register is used for the time from a MRW/MRR to all other commands. For LDPDR3, this register i
- used for the time from a MRW/MRR to a MRW/MRR.
- PSU_DDRC_DRAMTMG3_T_MRW 0x5
-
- tMRD: Cycles to wait after a mode register write or read. Depending on the connected SDRAM, tMRD represents: DDR2/mDDR: Time
- rom MRS to any command DDR3/4: Time from MRS to MRS command LPDDR2: not used LPDDR3/4: Time from MRS to non-MRS command For c
- nfigurations with MEMC_FREQ_RATIO=2, program this to (tMRD/2) and round it up to the next integer value. If C/A parity for DD
- 4 is used, set to tMRD_PAR(tMOD+PL) instead.
- PSU_DDRC_DRAMTMG3_T_MRD 0x4
-
- tMOD: Parameter used only in DDR3 and DDR4. Cycles between load mode command and following non-load mode command. If C/A pari
- y for DDR4 is used, set to tMOD_PAR(tMOD+PL) instead. Set to tMOD if MEMC_FREQ_RATIO=1, or tMOD/2 (rounded up to next integer
- if MEMC_FREQ_RATIO=2. Note that if using RDIMM, depending on the PHY, it may be necessary to use a value of tMOD + 1 or (tMO
- + 1)/2 to compensate for the extra cycle of latency applied to mode register writes by the RDIMM chip.
- PSU_DDRC_DRAMTMG3_T_MOD 0xc
-
- SDRAM Timing Register 3
- (OFFSET, MASK, VALUE) (0XFD07010C, 0x3FF3F3FFU ,0x0050400CU)
- RegMask = (DDRC_DRAMTMG3_T_MRW_MASK | DDRC_DRAMTMG3_T_MRD_MASK | DDRC_DRAMTMG3_T_MOD_MASK | 0 );
-
- RegVal = ((0x00000005U << DDRC_DRAMTMG3_T_MRW_SHIFT
- | 0x00000004U << DDRC_DRAMTMG3_T_MRD_SHIFT
- | 0x0000000CU << DDRC_DRAMTMG3_T_MOD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG3_OFFSET ,0x3FF3F3FFU ,0x0050400CU);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG4 @ 0XFD070110</p>
-
- tRCD - tAL: Minimum time from activate to read or write command to same bank. For configurations with MEMC_FREQ_RATIO=2, prog
- am this to ((tRCD - tAL)/2) and round it up to the next integer value. Minimum value allowed for this register is 1, which im
- lies minimum (tRCD - tAL) value to be 2 in configurations with MEMC_FREQ_RATIO=2. Unit: Clocks.
- PSU_DDRC_DRAMTMG4_T_RCD 0x8
-
- DDR4: tCCD_L: This is the minimum time between two reads or two writes for same bank group. Others: tCCD: This is the minimum
- time between two reads or two writes. For configurations with MEMC_FREQ_RATIO=2, program this to (tCCD_L/2 or tCCD/2) and rou
- d it up to the next integer value. Unit: clocks.
- PSU_DDRC_DRAMTMG4_T_CCD 0x3
-
- DDR4: tRRD_L: Minimum time between activates from bank 'a' to bank 'b' for same bank group. Others: tRRD: Minimum time betwee
- activates from bank 'a' to bank 'b'For configurations with MEMC_FREQ_RATIO=2, program this to (tRRD_L/2 or tRRD/2) and round
- it up to the next integer value. Unit: Clocks.
- PSU_DDRC_DRAMTMG4_T_RRD 0x3
-
- tRP: Minimum time from precharge to activate of same bank. For MEMC_FREQ_RATIO=1 configurations, t_rp should be set to RoundU
- (tRP/tCK). For MEMC_FREQ_RATIO=2 configurations, t_rp should be set to RoundDown(RoundUp(tRP/tCK)/2) + 1. For MEMC_FREQ_RATIO
- 2 configurations in LPDDR4, t_rp should be set to RoundUp(RoundUp(tRP/tCK)/2). Unit: Clocks.
- PSU_DDRC_DRAMTMG4_T_RP 0x9
-
- SDRAM Timing Register 4
- (OFFSET, MASK, VALUE) (0XFD070110, 0x1F0F0F1FU ,0x08030309U)
- RegMask = (DDRC_DRAMTMG4_T_RCD_MASK | DDRC_DRAMTMG4_T_CCD_MASK | DDRC_DRAMTMG4_T_RRD_MASK | DDRC_DRAMTMG4_T_RP_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_DRAMTMG4_T_RCD_SHIFT
- | 0x00000003U << DDRC_DRAMTMG4_T_CCD_SHIFT
- | 0x00000003U << DDRC_DRAMTMG4_T_RRD_SHIFT
- | 0x00000009U << DDRC_DRAMTMG4_T_RP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG4_OFFSET ,0x1F0F0F1FU ,0x08030309U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG5 @ 0XFD070114</p>
-
- This is the time before Self Refresh Exit that CK is maintained as a valid clock before issuing SRX. Specifies the clock stab
- e time before SRX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEH - DDR2: 1 - DDR3: tCKSRX - DDR4:
- tCKSRX For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up to next in
- eger.
- PSU_DDRC_DRAMTMG5_T_CKSRX 0x6
-
- This is the time after Self Refresh Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay afte
- SRE. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL - DDR2: 1 - DDR3: max (10 ns, 5 tCK) - DDR4:
- ax (10 ns, 5 tCK) For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up
- to next integer.
- PSU_DDRC_DRAMTMG5_T_CKSRE 0x6
-
- Minimum CKE low width for Self refresh or Self refresh power down entry to exit timing in memory clock cycles. Recommended se
- tings: - mDDR: tRFC - LPDDR2: tCKESR - LPDDR3: tCKESR - LPDDR4: max(tCKELPD, tSR) - DDR2: tCKE - DDR3: tCKE + 1 - DDR4: tCKE
- 1 For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it up to next intege
- .
- PSU_DDRC_DRAMTMG5_T_CKESR 0x4
-
- Minimum number of cycles of CKE HIGH/LOW during power-down and self refresh. - LPDDR2/LPDDR3 mode: Set this to the larger of
- CKE or tCKESR - LPDDR4 mode: Set this to the larger of tCKE, tCKELPD or tSR. - Non-LPDDR2/non-LPDDR3/non-LPDDR4 designs: Set
- his to tCKE value. For configurations with MEMC_FREQ_RATIO=2, program this to (value described above)/2 and round it up to th
- next integer value. Unit: Clocks.
- PSU_DDRC_DRAMTMG5_T_CKE 0x3
-
- SDRAM Timing Register 5
- (OFFSET, MASK, VALUE) (0XFD070114, 0x0F0F3F1FU ,0x06060403U)
- RegMask = (DDRC_DRAMTMG5_T_CKSRX_MASK | DDRC_DRAMTMG5_T_CKSRE_MASK | DDRC_DRAMTMG5_T_CKESR_MASK | DDRC_DRAMTMG5_T_CKE_MASK | 0 );
-
- RegVal = ((0x00000006U << DDRC_DRAMTMG5_T_CKSRX_SHIFT
- | 0x00000006U << DDRC_DRAMTMG5_T_CKSRE_SHIFT
- | 0x00000004U << DDRC_DRAMTMG5_T_CKESR_SHIFT
- | 0x00000003U << DDRC_DRAMTMG5_T_CKE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG5_OFFSET ,0x0F0F3F1FU ,0x06060403U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG6 @ 0XFD070118</p>
-
- This is the time after Deep Power Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay after
- PDE. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_FREQ_RATIO=2, program this to recom
- ended value divided by two and round it up to next integer. This is only present for designs supporting mDDR or LPDDR2/LPDDR3
- devices.
- PSU_DDRC_DRAMTMG6_T_CKDPDE 0x1
-
- This is the time before Deep Power Down Exit that CK is maintained as a valid clock before issuing DPDX. Specifies the clock
- table time before DPDX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_FREQ_RATIO=2, pr
- gram this to recommended value divided by two and round it up to next integer. This is only present for designs supporting mD
- R or LPDDR2 devices.
- PSU_DDRC_DRAMTMG6_T_CKDPDX 0x1
-
- This is the time before Clock Stop Exit that CK is maintained as a valid clock before issuing Clock Stop Exit. Specifies the
- lock stable time before next command after Clock Stop Exit. Recommended settings: - mDDR: 1 - LPDDR2: tXP + 2 - LPDDR3: tXP +
- 2 - LPDDR4: tXP + 2 For configurations with MEMC_FREQ_RATIO=2, program this to recommended value divided by two and round it
- p to next integer. This is only present for designs supporting mDDR or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_DRAMTMG6_T_CKCSX 0x4
-
- SDRAM Timing Register 6
- (OFFSET, MASK, VALUE) (0XFD070118, 0x0F0F000FU ,0x01010004U)
- RegMask = (DDRC_DRAMTMG6_T_CKDPDE_MASK | DDRC_DRAMTMG6_T_CKDPDX_MASK | DDRC_DRAMTMG6_T_CKCSX_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_DRAMTMG6_T_CKDPDE_SHIFT
- | 0x00000001U << DDRC_DRAMTMG6_T_CKDPDX_SHIFT
- | 0x00000004U << DDRC_DRAMTMG6_T_CKCSX_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG6_OFFSET ,0x0F0F000FU ,0x01010004U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG7 @ 0XFD07011C</p>
-
- This is the time after Power Down Entry that CK is maintained as a valid clock. Specifies the clock disable delay after PDE.
- ecommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL For configurations with MEMC_FREQ_RATIO=2, program t
- is to recommended value divided by two and round it up to next integer. This is only present for designs supporting mDDR or L
- DDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_DRAMTMG7_T_CKPDE 0x6
-
- This is the time before Power Down Exit that CK is maintained as a valid clock before issuing PDX. Specifies the clock stable
- time before PDX. Recommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: 2 For configurations with MEMC_FREQ_RATIO=
- , program this to recommended value divided by two and round it up to next integer. This is only present for designs supporti
- g mDDR or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_DRAMTMG7_T_CKPDX 0x6
-
- SDRAM Timing Register 7
- (OFFSET, MASK, VALUE) (0XFD07011C, 0x00000F0FU ,0x00000606U)
- RegMask = (DDRC_DRAMTMG7_T_CKPDE_MASK | DDRC_DRAMTMG7_T_CKPDX_MASK | 0 );
-
- RegVal = ((0x00000006U << DDRC_DRAMTMG7_T_CKPDE_SHIFT
- | 0x00000006U << DDRC_DRAMTMG7_T_CKPDX_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG7_OFFSET ,0x00000F0FU ,0x00000606U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG8 @ 0XFD070120</p>
-
- tXS_FAST: Exit Self Refresh to ZQCL, ZQCS and MRS (only CL, WR, RTP and Geardown mode). For configurations with MEMC_FREQ_RAT
- O=2, program this to the above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Thi
- is applicable to only ZQCL/ZQCS commands. Note: Ensure this is less than or equal to t_xs_x32.
- PSU_DDRC_DRAMTMG8_T_XS_FAST_X32 0x4
-
- tXS_ABORT: Exit Self Refresh to commands not requiring a locked DLL in Self Refresh Abort. For configurations with MEMC_FREQ_
- ATIO=2, program this to the above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note:
- nsure this is less than or equal to t_xs_x32.
- PSU_DDRC_DRAMTMG8_T_XS_ABORT_X32 0x4
-
- tXSDLL: Exit Self Refresh to commands requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program this to the
- bove value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Used only for DDR2, DDR3 and
- DR4 SDRAMs.
- PSU_DDRC_DRAMTMG8_T_XS_DLL_X32 0xd
-
- tXS: Exit Self Refresh to commands not requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program this to the
- above value divided by 2 and round up to next integer value. Unit: Multiples of 32 clocks. Note: Used only for DDR2, DDR3 and
- DDR4 SDRAMs.
- PSU_DDRC_DRAMTMG8_T_XS_X32 0x6
-
- SDRAM Timing Register 8
- (OFFSET, MASK, VALUE) (0XFD070120, 0x7F7F7F7FU ,0x04040D06U)
- RegMask = (DDRC_DRAMTMG8_T_XS_FAST_X32_MASK | DDRC_DRAMTMG8_T_XS_ABORT_X32_MASK | DDRC_DRAMTMG8_T_XS_DLL_X32_MASK | DDRC_DRAMTMG8_T_XS_X32_MASK | 0 );
-
- RegVal = ((0x00000004U << DDRC_DRAMTMG8_T_XS_FAST_X32_SHIFT
- | 0x00000004U << DDRC_DRAMTMG8_T_XS_ABORT_X32_SHIFT
- | 0x0000000DU << DDRC_DRAMTMG8_T_XS_DLL_X32_SHIFT
- | 0x00000006U << DDRC_DRAMTMG8_T_XS_X32_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG8_OFFSET ,0x7F7F7F7FU ,0x04040D06U);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG9 @ 0XFD070124</p>
-
- DDR4 Write preamble mode - 0: 1tCK preamble - 1: 2tCK preamble Present only with MEMC_FREQ_RATIO=2
- PSU_DDRC_DRAMTMG9_DDR4_WR_PREAMBLE 0x0
-
- tCCD_S: This is the minimum time between two reads or two writes for different bank group. For bank switching (from bank 'a'
- o bank 'b'), the minimum time is this value + 1. For configurations with MEMC_FREQ_RATIO=2, program this to (tCCD_S/2) and ro
- nd it up to the next integer value. Present only in designs configured to support DDR4. Unit: clocks.
- PSU_DDRC_DRAMTMG9_T_CCD_S 0x2
-
- tRRD_S: Minimum time between activates from bank 'a' to bank 'b' for different bank group. For configurations with MEMC_FREQ_
- ATIO=2, program this to (tRRD_S/2) and round it up to the next integer value. Present only in designs configured to support D
- R4. Unit: Clocks.
- PSU_DDRC_DRAMTMG9_T_RRD_S 0x2
-
- CWL + PL + BL/2 + tWTR_S Minimum time from write command to read command for different bank group. Includes time for bus turn
- round, recovery times, and all per-bank, per-rank, and global constraints. Present only in designs configured to support DDR4
- Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity latency - BL = burst length. This must match the value programm
- d in the BL bit of the mode register to the SDRAM - tWTR_S = internal write to read command delay for different bank group. T
- is comes directly from the SDRAM specification. For configurations with MEMC_FREQ_RATIO=2, divide the value calculated using
- he above equation by 2, and round it up to next integer.
- PSU_DDRC_DRAMTMG9_WR2RD_S 0xb
-
- SDRAM Timing Register 9
- (OFFSET, MASK, VALUE) (0XFD070124, 0x40070F3FU ,0x0002020BU)
- RegMask = (DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_MASK | DDRC_DRAMTMG9_T_CCD_S_MASK | DDRC_DRAMTMG9_T_RRD_S_MASK | DDRC_DRAMTMG9_WR2RD_S_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DRAMTMG9_DDR4_WR_PREAMBLE_SHIFT
- | 0x00000002U << DDRC_DRAMTMG9_T_CCD_S_SHIFT
- | 0x00000002U << DDRC_DRAMTMG9_T_RRD_S_SHIFT
- | 0x0000000BU << DDRC_DRAMTMG9_WR2RD_S_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG9_OFFSET ,0x40070F3FU ,0x0002020BU);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG11 @ 0XFD07012C</p>
-
- tXMPDLL: This is the minimum Exit MPSM to commands requiring a locked DLL. For configurations with MEMC_FREQ_RATIO=2, program
- this to (tXMPDLL/2) and round it up to the next integer value. Present only in designs configured to support DDR4. Unit: Mult
- ples of 32 clocks.
- PSU_DDRC_DRAMTMG11_POST_MPSM_GAP_X32 0x6f
-
- tMPX_LH: This is the minimum CS_n Low hold time to CKE rising edge. For configurations with MEMC_FREQ_RATIO=2, program this t
- RoundUp(tMPX_LH/2)+1. Present only in designs configured to support DDR4. Unit: clocks.
- PSU_DDRC_DRAMTMG11_T_MPX_LH 0x7
-
- tMPX_S: Minimum time CS setup time to CKE. For configurations with MEMC_FREQ_RATIO=2, program this to (tMPX_S/2) and round it
- up to the next integer value. Present only in designs configured to support DDR4. Unit: Clocks.
- PSU_DDRC_DRAMTMG11_T_MPX_S 0x1
-
- tCKMPE: Minimum valid clock requirement after MPSM entry. Present only in designs configured to support DDR4. Unit: Clocks. F
- r configurations with MEMC_FREQ_RATIO=2, divide the value calculated using the above equation by 2, and round it up to next i
- teger.
- PSU_DDRC_DRAMTMG11_T_CKMPE 0xe
-
- SDRAM Timing Register 11
- (OFFSET, MASK, VALUE) (0XFD07012C, 0x7F1F031FU ,0x6F07010EU)
- RegMask = (DDRC_DRAMTMG11_POST_MPSM_GAP_X32_MASK | DDRC_DRAMTMG11_T_MPX_LH_MASK | DDRC_DRAMTMG11_T_MPX_S_MASK | DDRC_DRAMTMG11_T_CKMPE_MASK | 0 );
-
- RegVal = ((0x0000006FU << DDRC_DRAMTMG11_POST_MPSM_GAP_X32_SHIFT
- | 0x00000007U << DDRC_DRAMTMG11_T_MPX_LH_SHIFT
- | 0x00000001U << DDRC_DRAMTMG11_T_MPX_S_SHIFT
- | 0x0000000EU << DDRC_DRAMTMG11_T_CKMPE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG11_OFFSET ,0x7F1F031FU ,0x6F07010EU);
- /*############################################################################################################################ */
-
- /*Register : DRAMTMG12 @ 0XFD070130</p>
-
- tCMDCKE: Delay from valid command to CKE input LOW. Set this to the larger of tESCKE or tCMDCKE For configurations with MEMC_
- REQ_RATIO=2, program this to (max(tESCKE, tCMDCKE)/2) and round it up to next integer value.
- PSU_DDRC_DRAMTMG12_T_CMDCKE 0x2
-
- tCKEHCMD: Valid command requirement after CKE input HIGH. For configurations with MEMC_FREQ_RATIO=2, program this to (tCKEHCM
- /2) and round it up to next integer value.
- PSU_DDRC_DRAMTMG12_T_CKEHCMD 0x6
-
- tMRD_PDA: This is the Mode Register Set command cycle time in PDA mode. For configurations with MEMC_FREQ_RATIO=2, program th
- s to (tMRD_PDA/2) and round it up to next integer value.
- PSU_DDRC_DRAMTMG12_T_MRD_PDA 0x8
-
- SDRAM Timing Register 12
- (OFFSET, MASK, VALUE) (0XFD070130, 0x00030F1FU ,0x00020608U)
- RegMask = (DDRC_DRAMTMG12_T_CMDCKE_MASK | DDRC_DRAMTMG12_T_CKEHCMD_MASK | DDRC_DRAMTMG12_T_MRD_PDA_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_DRAMTMG12_T_CMDCKE_SHIFT
- | 0x00000006U << DDRC_DRAMTMG12_T_CKEHCMD_SHIFT
- | 0x00000008U << DDRC_DRAMTMG12_T_MRD_PDA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DRAMTMG12_OFFSET ,0x00030F1FU ,0x00020608U);
- /*############################################################################################################################ */
-
- /*Register : ZQCTL0 @ 0XFD070180</p>
-
- - 1 - Disable uMCTL2 generation of ZQCS/MPC(ZQ calibration) command. Register DBGCMD.zq_calib_short can be used instead to is
- ue ZQ calibration request from APB module. - 0 - Internally generate ZQCS/MPC(ZQ calibration) commands based on ZQCTL1.t_zq_s
- ort_interval_x1024. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_ZQCTL0_DIS_AUTO_ZQ 0x1
-
- - 1 - Disable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refresh/SR-Powerdown exit. Only applicable when run in DDR3
- or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. - 0 - Enable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refresh/SR-Power
- own exit. Only applicable when run in DDR3 or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. This is only present for designs suppo
- ting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_ZQCTL0_DIS_SRX_ZQCL 0x0
-
- - 1 - Denotes that ZQ resistor is shared between ranks. Means ZQinit/ZQCL/ZQCS/MPC(ZQ calibration) commands are sent to one r
- nk at a time with tZQinit/tZQCL/tZQCS/tZQCAL/tZQLAT timing met between commands so that commands to different ranks do not ov
- rlap. - 0 - ZQ resistor is not shared. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_ZQCTL0_ZQ_RESISTOR_SHARED 0x0
-
- - 1 - Disable issuing of ZQCL command at Maximum Power Saving Mode exit. Only applicable when run in DDR4 mode. - 0 - Enable
- ssuing of ZQCL command at Maximum Power Saving Mode exit. Only applicable when run in DDR4 mode. This is only present for des
- gns supporting DDR4 devices.
- PSU_DDRC_ZQCTL0_DIS_MPSMX_ZQCL 0x0
-
- tZQoper for DDR3/DDR4, tZQCL for LPDDR2/LPDDR3, tZQCAL for LPDDR4: Number of cycles of NOP required after a ZQCL (ZQ calibrat
- on long)/MPC(ZQ Start) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2: DDR3/DDR4: program this to tZQo
- er/2 and round it up to the next integer value. LPDDR2/LPDDR3: program this to tZQCL/2 and round it up to the next integer va
- ue. LPDDR4: program this to tZQCAL/2 and round it up to the next integer value. Unit: Clock cycles. This is only present for
- esigns supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_ZQCTL0_T_ZQ_LONG_NOP 0x100
-
- tZQCS for DDR3/DD4/LPDDR2/LPDDR3, tZQLAT for LPDDR4: Number of cycles of NOP required after a ZQCS (ZQ calibration short)/MPC
- ZQ Latch) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2, program this to tZQCS/2 and round it up to t
- e next integer value. Unit: Clock cycles. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devic
- s.
- PSU_DDRC_ZQCTL0_T_ZQ_SHORT_NOP 0x40
-
- ZQ Control Register 0
- (OFFSET, MASK, VALUE) (0XFD070180, 0xF7FF03FFU ,0x81000040U)
- RegMask = (DDRC_ZQCTL0_DIS_AUTO_ZQ_MASK | DDRC_ZQCTL0_DIS_SRX_ZQCL_MASK | DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_MASK | DDRC_ZQCTL0_DIS_MPSMX_ZQCL_MASK | DDRC_ZQCTL0_T_ZQ_LONG_NOP_MASK | DDRC_ZQCTL0_T_ZQ_SHORT_NOP_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_ZQCTL0_DIS_AUTO_ZQ_SHIFT
- | 0x00000000U << DDRC_ZQCTL0_DIS_SRX_ZQCL_SHIFT
- | 0x00000000U << DDRC_ZQCTL0_ZQ_RESISTOR_SHARED_SHIFT
- | 0x00000000U << DDRC_ZQCTL0_DIS_MPSMX_ZQCL_SHIFT
- | 0x00000100U << DDRC_ZQCTL0_T_ZQ_LONG_NOP_SHIFT
- | 0x00000040U << DDRC_ZQCTL0_T_ZQ_SHORT_NOP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ZQCTL0_OFFSET ,0xF7FF03FFU ,0x81000040U);
- /*############################################################################################################################ */
-
- /*Register : ZQCTL1 @ 0XFD070184</p>
-
- tZQReset: Number of cycles of NOP required after a ZQReset (ZQ calibration Reset) command is issued to SDRAM. For configurati
- ns with MEMC_FREQ_RATIO=2, program this to tZQReset/2 and round it up to the next integer value. Unit: Clock cycles. This is
- nly present for designs supporting LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_ZQCTL1_T_ZQ_RESET_NOP 0x20
-
- Average interval to wait between automatically issuing ZQCS (ZQ calibration short)/MPC(ZQ calibration) commands to DDR3/DDR4/
- PDDR2/LPDDR3/LPDDR4 devices. Meaningless, if ZQCTL0.dis_auto_zq=1. Unit: 1024 clock cycles. This is only present for designs
- upporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
- PSU_DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024 0x19707
-
- ZQ Control Register 1
- (OFFSET, MASK, VALUE) (0XFD070184, 0x3FFFFFFFU ,0x02019707U)
- RegMask = (DDRC_ZQCTL1_T_ZQ_RESET_NOP_MASK | DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_MASK | 0 );
-
- RegVal = ((0x00000020U << DDRC_ZQCTL1_T_ZQ_RESET_NOP_SHIFT
- | 0x00019707U << DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ZQCTL1_OFFSET ,0x3FFFFFFFU ,0x02019707U);
- /*############################################################################################################################ */
-
- /*Register : DFITMG0 @ 0XFD070190</p>
-
- Specifies the number of DFI clock cycles after an assertion or de-assertion of the DFI control signals that the control signa
- s at the PHY-DRAM interface reflect the assertion or de-assertion. If the DFI clock and the memory clock are not phase-aligne
- , this timing parameter should be rounded up to the next integer value. Note that if using RDIMM, it is necessary to incremen
- this parameter by RDIMM's extra cycle of latency in terms of DFI clock.
- PSU_DDRC_DFITMG0_DFI_T_CTRL_DELAY 0x4
-
- Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated using HDR or SDR values Selects whether value in DFITM
- 0.dfi_t_rddata_en is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles R
- fer to PHY specification for correct value.
- PSU_DDRC_DFITMG0_DFI_RDDATA_USE_SDR 0x1
-
- Time from the assertion of a read command on the DFI interface to the assertion of the dfi_rddata_en signal. Refer to PHY spe
- ification for correct value. This corresponds to the DFI parameter trddata_en. Note that, depending on the PHY, if using RDIM
- , it may be necessary to use the value (CL + 1) in the calculation of trddata_en. This is to compensate for the extra cycle o
- latency through the RDIMM. Unit: Clocks
- PSU_DDRC_DFITMG0_DFI_T_RDDATA_EN 0xb
-
- Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated using HDR or SDR values Selects whether value in DFITMG
- .dfi_tphy_wrlat is in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.dfi_tphy_wrdata is in terms of SDR or
- HDR clock cycles - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles Refer to PHY specification for correct val
- e.
- PSU_DDRC_DFITMG0_DFI_WRDATA_USE_SDR 0x1
-
- Specifies the number of clock cycles between when dfi_wrdata_en is asserted to when the associated write data is driven on th
- dfi_wrdata signal. This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY specification for correct value. N
- te, max supported value is 8. Unit: Clocks
- PSU_DDRC_DFITMG0_DFI_TPHY_WRDATA 0x2
-
- Write latency Number of clocks from the write command to write data enable (dfi_wrdata_en). This corresponds to the DFI timin
- parameter tphy_wrlat. Refer to PHY specification for correct value.Note that, depending on the PHY, if using RDIMM, it may b
- necessary to use the value (CL + 1) in the calculation of tphy_wrlat. This is to compensate for the extra cycle of latency t
- rough the RDIMM.
- PSU_DDRC_DFITMG0_DFI_TPHY_WRLAT 0xb
-
- DFI Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD070190, 0x1FBFBF3FU ,0x048B820BU)
- RegMask = (DDRC_DFITMG0_DFI_T_CTRL_DELAY_MASK | DDRC_DFITMG0_DFI_RDDATA_USE_SDR_MASK | DDRC_DFITMG0_DFI_T_RDDATA_EN_MASK | DDRC_DFITMG0_DFI_WRDATA_USE_SDR_MASK | DDRC_DFITMG0_DFI_TPHY_WRDATA_MASK | DDRC_DFITMG0_DFI_TPHY_WRLAT_MASK | 0 );
-
- RegVal = ((0x00000004U << DDRC_DFITMG0_DFI_T_CTRL_DELAY_SHIFT
- | 0x00000001U << DDRC_DFITMG0_DFI_RDDATA_USE_SDR_SHIFT
- | 0x0000000BU << DDRC_DFITMG0_DFI_T_RDDATA_EN_SHIFT
- | 0x00000001U << DDRC_DFITMG0_DFI_WRDATA_USE_SDR_SHIFT
- | 0x00000002U << DDRC_DFITMG0_DFI_TPHY_WRDATA_SHIFT
- | 0x0000000BU << DDRC_DFITMG0_DFI_TPHY_WRLAT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFITMG0_OFFSET ,0x1FBFBF3FU ,0x048B820BU);
- /*############################################################################################################################ */
-
- /*Register : DFITMG1 @ 0XFD070194</p>
-
- Specifies the number of DFI PHY clocks between when the dfi_cs signal is asserted and when the associated command is driven.
- his field is used for CAL mode, should be set to '0' or the value which matches the CAL mode register setting in the DRAM. If
- the PHY can add the latency for CAL mode, this should be set to '0'. Valid Range: 0, 3, 4, 5, 6, and 8
- PSU_DDRC_DFITMG1_DFI_T_CMD_LAT 0x0
-
- Specifies the number of DFI PHY clocks between when the dfi_cs signal is asserted and when the associated dfi_parity_in signa
- is driven.
- PSU_DDRC_DFITMG1_DFI_T_PARIN_LAT 0x0
-
- Specifies the number of DFI clocks between when the dfi_wrdata_en signal is asserted and when the corresponding write data tr
- nsfer is completed on the DRAM bus. This corresponds to the DFI timing parameter twrdata_delay. Refer to PHY specification fo
- correct value. For DFI 3.0 PHY, set to twrdata_delay, a new timing parameter introduced in DFI 3.0. For DFI 2.1 PHY, set to
- phy_wrdata + (delay of DFI write data to the DRAM). Value to be programmed is in terms of DFI clocks, not PHY clocks. In FREQ
- RATIO=2, divide PHY's value by 2 and round up to next integer. If using DFITMG0.dfi_wrdata_use_sdr=1, add 1 to the value. Uni
- : Clocks
- PSU_DDRC_DFITMG1_DFI_T_WRDATA_DELAY 0x3
-
- Specifies the number of DFI clock cycles from the assertion of the dfi_dram_clk_disable signal on the DFI until the clock to
- he DRAM memory devices, at the PHY-DRAM boundary, maintains a low value. If the DFI clock and the memory clock are not phase
- ligned, this timing parameter should be rounded up to the next integer value.
- PSU_DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE 0x3
-
- Specifies the number of DFI clock cycles from the de-assertion of the dfi_dram_clk_disable signal on the DFI until the first
- alid rising edge of the clock to the DRAM memory devices, at the PHY-DRAM boundary. If the DFI clock and the memory clock are
- not phase aligned, this timing parameter should be rounded up to the next integer value.
- PSU_DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE 0x4
-
- DFI Timing Register 1
- (OFFSET, MASK, VALUE) (0XFD070194, 0xF31F0F0FU ,0x00030304U)
- RegMask = (DDRC_DFITMG1_DFI_T_CMD_LAT_MASK | DDRC_DFITMG1_DFI_T_PARIN_LAT_MASK | DDRC_DFITMG1_DFI_T_WRDATA_DELAY_MASK | DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_MASK | DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DFITMG1_DFI_T_CMD_LAT_SHIFT
- | 0x00000000U << DDRC_DFITMG1_DFI_T_PARIN_LAT_SHIFT
- | 0x00000003U << DDRC_DFITMG1_DFI_T_WRDATA_DELAY_SHIFT
- | 0x00000003U << DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE_SHIFT
- | 0x00000004U << DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFITMG1_OFFSET ,0xF31F0F0FU ,0x00030304U);
- /*############################################################################################################################ */
-
- /*Register : DFILPCFG0 @ 0XFD070198</p>
-
- Setting for DFI's tlp_resp time. Same value is used for both Power Down, Self Refresh, Deep Power Down and Maximum Power Savi
- g modes. DFI 2.1 specification onwards, recommends using a fixed value of 7 always.
- PSU_DDRC_DFILPCFG0_DFI_TLP_RESP 0x7
-
- Value to drive on dfi_lp_wakeup signal when Deep Power Down mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16
- cycles - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7
- - 2048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD -
- 31072 cycles - 0xE - 262144 cycles - 0xF - Unlimited This is only present for designs supporting mDDR or LPDDR2/LPDDR3 device
- .
- PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD 0x0
-
- Enables DFI Low Power interface handshaking during Deep Power Down Entry/Exit. - 0 - Disabled - 1 - Enabled This is only pres
- nt for designs supporting mDDR or LPDDR2/LPDDR3 devices.
- PSU_DDRC_DFILPCFG0_DFI_LP_EN_DPD 0x0
-
- Value to drive on dfi_lp_wakeup signal when Self Refresh mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cy
- les - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 -
- 048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - 131
- 72 cycles - 0xE - 262144 cycles - 0xF - Unlimited
- PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR 0x0
-
- Enables DFI Low Power interface handshaking during Self Refresh Entry/Exit. - 0 - Disabled - 1 - Enabled
- PSU_DDRC_DFILPCFG0_DFI_LP_EN_SR 0x1
-
- Value to drive on dfi_lp_wakeup signal when Power Down mode is entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycl
- s - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles - 0x7 - 20
- 8 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0xD - 13107
- cycles - 0xE - 262144 cycles - 0xF - Unlimited
- PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD 0x0
-
- Enables DFI Low Power interface handshaking during Power Down Entry/Exit. - 0 - Disabled - 1 - Enabled
- PSU_DDRC_DFILPCFG0_DFI_LP_EN_PD 0x1
-
- DFI Low Power Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD070198, 0x0FF1F1F1U ,0x07000101U)
- RegMask = (DDRC_DFILPCFG0_DFI_TLP_RESP_MASK | DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_MASK | DDRC_DFILPCFG0_DFI_LP_EN_DPD_MASK | DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_MASK | DDRC_DFILPCFG0_DFI_LP_EN_SR_MASK | DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_MASK | DDRC_DFILPCFG0_DFI_LP_EN_PD_MASK | 0 );
-
- RegVal = ((0x00000007U << DDRC_DFILPCFG0_DFI_TLP_RESP_SHIFT
- | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD_SHIFT
- | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_EN_DPD_SHIFT
- | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR_SHIFT
- | 0x00000001U << DDRC_DFILPCFG0_DFI_LP_EN_SR_SHIFT
- | 0x00000000U << DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD_SHIFT
- | 0x00000001U << DDRC_DFILPCFG0_DFI_LP_EN_PD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFILPCFG0_OFFSET ,0x0FF1F1F1U ,0x07000101U);
- /*############################################################################################################################ */
-
- /*Register : DFILPCFG1 @ 0XFD07019C</p>
-
- Value to drive on dfi_lp_wakeup signal when Maximum Power Saving Mode is entered. Determines the DFI's tlp_wakeup time: - 0x0
- - 16 cycles - 0x1 - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cycles - 0x6 - 1024 cycles
- 0x7 - 2048 cycles - 0x8 - 4096 cycles - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cycles - 0
- D - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimited This is only present for designs supporting DDR4 devices.
- PSU_DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM 0x2
-
- Enables DFI Low Power interface handshaking during Maximum Power Saving Mode Entry/Exit. - 0 - Disabled - 1 - Enabled This is
- only present for designs supporting DDR4 devices.
- PSU_DDRC_DFILPCFG1_DFI_LP_EN_MPSM 0x1
-
- DFI Low Power Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD07019C, 0x000000F1U ,0x00000021U)
- RegMask = (DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_MASK | DDRC_DFILPCFG1_DFI_LP_EN_MPSM_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM_SHIFT
- | 0x00000001U << DDRC_DFILPCFG1_DFI_LP_EN_MPSM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFILPCFG1_OFFSET ,0x000000F1U ,0x00000021U);
- /*############################################################################################################################ */
-
- /*Register : DFIUPD1 @ 0XFD0701A4</p>
-
- This is the minimum amount of time between uMCTL2 initiated DFI update requests (which is executed whenever the uMCTL2 is idl
- ). Set this number higher to reduce the frequency of update requests, which can have a small impact on the latency of the fir
- t read request when the uMCTL2 is idle. Unit: 1024 clocks
- PSU_DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024 0x41
-
- This is the maximum amount of time between uMCTL2 initiated DFI update requests. This timer resets with each update request;
- hen the timer expires dfi_ctrlupd_req is sent and traffic is blocked until the dfi_ctrlupd_ackx is received. PHY can use this
- idle time to recalibrate the delay lines to the DLLs. The DFI controller update is also used to reset PHY FIFO pointers in ca
- e of data capture errors. Updates are required to maintain calibration over PVT, but frequent updates may impact performance.
- Note: Value programmed for DFIUPD1.dfi_t_ctrlupd_interval_max_x1024 must be greater than DFIUPD1.dfi_t_ctrlupd_interval_min_x
- 024. Unit: 1024 clocks
- PSU_DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024 0xe2
-
- DFI Update Register 1
- (OFFSET, MASK, VALUE) (0XFD0701A4, 0x00FF00FFU ,0x004100E2U)
- RegMask = (DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_MASK | DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_MASK | 0 );
-
- RegVal = ((0x00000041U << DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024_SHIFT
- | 0x000000E2U << DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFIUPD1_OFFSET ,0x00FF00FFU ,0x004100E2U);
- /*############################################################################################################################ */
-
- /*Register : DFIMISC @ 0XFD0701B0</p>
-
- Defines polarity of dfi_wrdata_cs and dfi_rddata_cs signals. - 0: Signals are active low - 1: Signals are active high
- PSU_DDRC_DFIMISC_DFI_DATA_CS_POLARITY 0x0
-
- DBI implemented in DDRC or PHY. - 0 - DDRC implements DBI functionality. - 1 - PHY implements DBI functionality. Present only
- in designs configured to support DDR4 and LPDDR4.
- PSU_DDRC_DFIMISC_PHY_DBI_MODE 0x0
-
- PHY initialization complete enable signal. When asserted the dfi_init_complete signal can be used to trigger SDRAM initialisa
- ion
- PSU_DDRC_DFIMISC_DFI_INIT_COMPLETE_EN 0x0
-
- DFI Miscellaneous Control Register
- (OFFSET, MASK, VALUE) (0XFD0701B0, 0x00000007U ,0x00000000U)
- RegMask = (DDRC_DFIMISC_DFI_DATA_CS_POLARITY_MASK | DDRC_DFIMISC_PHY_DBI_MODE_MASK | DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DFIMISC_DFI_DATA_CS_POLARITY_SHIFT
- | 0x00000000U << DDRC_DFIMISC_PHY_DBI_MODE_SHIFT
- | 0x00000000U << DDRC_DFIMISC_DFI_INIT_COMPLETE_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFIMISC_OFFSET ,0x00000007U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : DFITMG2 @ 0XFD0701B4</p>
-
- >Number of clocks between when a read command is sent on the DFI control interface and when the associated dfi_rddata_cs sign
- l is asserted. This corresponds to the DFI timing parameter tphy_rdcslat. Refer to PHY specification for correct value.
- PSU_DDRC_DFITMG2_DFI_TPHY_RDCSLAT 0x9
-
- Number of clocks between when a write command is sent on the DFI control interface and when the associated dfi_wrdata_cs sign
- l is asserted. This corresponds to the DFI timing parameter tphy_wrcslat. Refer to PHY specification for correct value.
- PSU_DDRC_DFITMG2_DFI_TPHY_WRCSLAT 0x6
-
- DFI Timing Register 2
- (OFFSET, MASK, VALUE) (0XFD0701B4, 0x00003F3FU ,0x00000906U)
- RegMask = (DDRC_DFITMG2_DFI_TPHY_RDCSLAT_MASK | DDRC_DFITMG2_DFI_TPHY_WRCSLAT_MASK | 0 );
-
- RegVal = ((0x00000009U << DDRC_DFITMG2_DFI_TPHY_RDCSLAT_SHIFT
- | 0x00000006U << DDRC_DFITMG2_DFI_TPHY_WRCSLAT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFITMG2_OFFSET ,0x00003F3FU ,0x00000906U);
- /*############################################################################################################################ */
-
- /*Register : DBICTL @ 0XFD0701C0</p>
-
- Read DBI enable signal in DDRC. - 0 - Read DBI is disabled. - 1 - Read DBI is enabled. This signal must be set the same value
- as DRAM's mode register. - DDR4: MR5 bit A12. When x4 devices are used, this signal must be set to 0. - LPDDR4: MR3[6]
- PSU_DDRC_DBICTL_RD_DBI_EN 0x0
-
- Write DBI enable signal in DDRC. - 0 - Write DBI is disabled. - 1 - Write DBI is enabled. This signal must be set the same va
- ue as DRAM's mode register. - DDR4: MR5 bit A11. When x4 devices are used, this signal must be set to 0. - LPDDR4: MR3[7]
- PSU_DDRC_DBICTL_WR_DBI_EN 0x0
-
- DM enable signal in DDRC. - 0 - DM is disabled. - 1 - DM is enabled. This signal must be set the same logical value as DRAM's
- mode register. - DDR4: Set this to same value as MR5 bit A10. When x4 devices are used, this signal must be set to 0. - LPDDR
- : Set this to inverted value of MR13[5] which is opposite polarity from this signal
- PSU_DDRC_DBICTL_DM_EN 0x1
-
- DM/DBI Control Register
- (OFFSET, MASK, VALUE) (0XFD0701C0, 0x00000007U ,0x00000001U)
- RegMask = (DDRC_DBICTL_RD_DBI_EN_MASK | DDRC_DBICTL_WR_DBI_EN_MASK | DDRC_DBICTL_DM_EN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DBICTL_RD_DBI_EN_SHIFT
- | 0x00000000U << DDRC_DBICTL_WR_DBI_EN_SHIFT
- | 0x00000001U << DDRC_DBICTL_DM_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DBICTL_OFFSET ,0x00000007U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP0 @ 0XFD070200</p>
-
- Selects the HIF address bit used as rank address bit 0. Valid Range: 0 to 27, and 31 Internal Base: 6 The selected HIF addres
- bit is determined by adding the internal base to the value of this field. If set to 31, rank address bit 0 is set to 0.
- PSU_DDRC_ADDRMAP0_ADDRMAP_CS_BIT0 0x1f
-
- Address Map Register 0
- (OFFSET, MASK, VALUE) (0XFD070200, 0x0000001FU ,0x0000001FU)
- RegMask = (DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_MASK | 0 );
-
- RegVal = ((0x0000001FU << DDRC_ADDRMAP0_ADDRMAP_CS_BIT0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP0_OFFSET ,0x0000001FU ,0x0000001FU);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP1 @ 0XFD070204</p>
-
- Selects the HIF address bit used as bank address bit 2. Valid Range: 0 to 29 and 31 Internal Base: 4 The selected HIF address
- bit is determined by adding the internal base to the value of this field. If set to 31, bank address bit 2 is set to 0.
- PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B2 0x1f
-
- Selects the HIF address bits used as bank address bit 1. Valid Range: 0 to 30 Internal Base: 3 The selected HIF address bit f
- r each of the bank address bits is determined by adding the internal base to the value of this field.
- PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B1 0xa
-
- Selects the HIF address bits used as bank address bit 0. Valid Range: 0 to 30 Internal Base: 2 The selected HIF address bit f
- r each of the bank address bits is determined by adding the internal base to the value of this field.
- PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B0 0xa
-
- Address Map Register 1
- (OFFSET, MASK, VALUE) (0XFD070204, 0x001F1F1FU ,0x001F0A0AU)
- RegMask = (DDRC_ADDRMAP1_ADDRMAP_BANK_B2_MASK | DDRC_ADDRMAP1_ADDRMAP_BANK_B1_MASK | DDRC_ADDRMAP1_ADDRMAP_BANK_B0_MASK | 0 );
-
- RegVal = ((0x0000001FU << DDRC_ADDRMAP1_ADDRMAP_BANK_B2_SHIFT
- | 0x0000000AU << DDRC_ADDRMAP1_ADDRMAP_BANK_B1_SHIFT
- | 0x0000000AU << DDRC_ADDRMAP1_ADDRMAP_BANK_B0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP1_OFFSET ,0x001F1F1FU ,0x001F0A0AU);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP2 @ 0XFD070208</p>
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 5. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 6. - Quarter bus width mode: Selects the HIF address bit used as column address bit 7 . Vali
- Range: 0 to 7, and 15 Internal Base: 5 The selected HIF address bit is determined by adding the internal base to the value o
- this field. If set to 15, this column address bit is set to 0.
- PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B5 0x0
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 4. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 5. - Quarter bus width mode: Selects the HIF address bit used as column address bit 6. Valid
- Range: 0 to 7, and 15 Internal Base: 4 The selected HIF address bit is determined by adding the internal base to the value of
- this field. If set to 15, this column address bit is set to 0.
- PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B4 0x0
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 3. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 4. - Quarter bus width mode: Selects the HIF address bit used as column address bit 5. Valid
- Range: 0 to 7 Internal Base: 3 The selected HIF address bit is determined by adding the internal base to the value of this fi
- ld. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=16, it is required to program this to 0, hence register does not exist i
- this case.
- PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B3 0x0
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 2. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 3. - Quarter bus width mode: Selects the HIF address bit used as column address bit 4. Valid
- Range: 0 to 7 Internal Base: 2 The selected HIF address bit is determined by adding the internal base to the value of this fi
- ld. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=8 or 16, it is required to program this to 0.
- PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B2 0x0
-
- Address Map Register 2
- (OFFSET, MASK, VALUE) (0XFD070208, 0x0F0F0F0FU ,0x00000000U)
- RegMask = (DDRC_ADDRMAP2_ADDRMAP_COL_B5_MASK | DDRC_ADDRMAP2_ADDRMAP_COL_B4_MASK | DDRC_ADDRMAP2_ADDRMAP_COL_B3_MASK | DDRC_ADDRMAP2_ADDRMAP_COL_B2_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B5_SHIFT
- | 0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B4_SHIFT
- | 0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B3_SHIFT
- | 0x00000000U << DDRC_ADDRMAP2_ADDRMAP_COL_B2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP2_OFFSET ,0x0F0F0F0FU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP3 @ 0XFD07020C</p>
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 9. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). - Quarter bus width mode: Selects the HIF address bit used as
- column address bit 13 (11 in LPDDR2/LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 9 The selected HIF address bit i
- determined by adding the internal base to the value of this field. If set to 15, this column address bit is set to 0. Note:
- er JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for indicating auto-precharge, and hence no source addr
- ss bit can be mapped to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus an
- hence column bit 10 is used.
- PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B9 0x0
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 8. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 9. - Quarter bus width mode: Selects the HIF address bit used as column address bit 11 (10 i
- LPDDR2/LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 8 The selected HIF address bit is determined by adding the i
- ternal base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specif
- cation, column address bit 10 is reserved for indicating auto-precharge, and hence no source address bit can be mapped to col
- mn address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and hence column bit 10 is use
- .
- PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B8 0x0
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 7. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 8. - Quarter bus width mode: Selects the HIF address bit used as column address bit 9. Valid
- Range: 0 to 7, and 15 Internal Base: 7 The selected HIF address bit is determined by adding the internal base to the value of
- this field. If set to 15, this column address bit is set to 0.
- PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B7 0x0
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 6. - Half bus width mode: Selects the HIF addre
- s bit used as column address bit 7. - Quarter bus width mode: Selects the HIF address bit used as column address bit 8. Valid
- Range: 0 to 7, and 15 Internal Base: 6 The selected HIF address bit is determined by adding the internal base to the value of
- this field. If set to 15, this column address bit is set to 0.
- PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B6 0x0
-
- Address Map Register 3
- (OFFSET, MASK, VALUE) (0XFD07020C, 0x0F0F0F0FU ,0x00000000U)
- RegMask = (DDRC_ADDRMAP3_ADDRMAP_COL_B9_MASK | DDRC_ADDRMAP3_ADDRMAP_COL_B8_MASK | DDRC_ADDRMAP3_ADDRMAP_COL_B7_MASK | DDRC_ADDRMAP3_ADDRMAP_COL_B6_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B9_SHIFT
- | 0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B8_SHIFT
- | 0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B7_SHIFT
- | 0x00000000U << DDRC_ADDRMAP3_ADDRMAP_COL_B6_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP3_OFFSET ,0x0F0F0F0FU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP4 @ 0XFD070210</p>
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode). - Half bus width
- mode: Unused. To make it unused, this should be tied to 4'hF. - Quarter bus width mode: Unused. To make it unused, this must
- e tied to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 11 The selected HIF address bit is determined by adding the intern
- l base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specificati
- n, column address bit 10 is reserved for indicating auto-precharge, and hence no source address bit can be mapped to column a
- dress bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and hence column bit 10 is used.
- PSU_DDRC_ADDRMAP4_ADDRMAP_COL_B11 0xf
-
- - Full bus width mode: Selects the HIF address bit used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). - Half bus width
- mode: Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode). - Quarter bus width mode: UNUSED.
- To make it unused, this must be tied to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 10 The selected HIF address bit is d
- termined by adding the internal base to the value of this field. If set to 15, this column address bit is set to 0. Note: Per
- JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for indicating auto-precharge, and hence no source address
- bit can be mapped to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus and h
- nce column bit 10 is used.
- PSU_DDRC_ADDRMAP4_ADDRMAP_COL_B10 0xf
-
- Address Map Register 4
- (OFFSET, MASK, VALUE) (0XFD070210, 0x00000F0FU ,0x00000F0FU)
- RegMask = (DDRC_ADDRMAP4_ADDRMAP_COL_B11_MASK | DDRC_ADDRMAP4_ADDRMAP_COL_B10_MASK | 0 );
-
- RegVal = ((0x0000000FU << DDRC_ADDRMAP4_ADDRMAP_COL_B11_SHIFT
- | 0x0000000FU << DDRC_ADDRMAP4_ADDRMAP_COL_B10_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP4_OFFSET ,0x00000F0FU ,0x00000F0FU);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP5 @ 0XFD070214</p>
-
- Selects the HIF address bit used as row address bit 11. Valid Range: 0 to 11, and 15 Internal Base: 17 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 11 is set to 0.
- PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B11 0x8
-
- Selects the HIF address bits used as row address bits 2 to 10. Valid Range: 0 to 11, and 15 Internal Base: 8 (for row address
- bit 2), 9 (for row address bit 3), 10 (for row address bit 4) etc increasing to 16 (for row address bit 10) The selected HIF
- ddress bit for each of the row address bits is determined by adding the internal base to the value of this field. When value
- 5 is used the values of row address bits 2 to 10 are defined by registers ADDRMAP9, ADDRMAP10, ADDRMAP11.
- PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10 0xf
-
- Selects the HIF address bits used as row address bit 1. Valid Range: 0 to 11 Internal Base: 7 The selected HIF address bit fo
- each of the row address bits is determined by adding the internal base to the value of this field.
- PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B1 0x8
-
- Selects the HIF address bits used as row address bit 0. Valid Range: 0 to 11 Internal Base: 6 The selected HIF address bit fo
- each of the row address bits is determined by adding the internal base to the value of this field.
- PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B0 0x8
-
- Address Map Register 5
- (OFFSET, MASK, VALUE) (0XFD070214, 0x0F0F0F0FU ,0x080F0808U)
- RegMask = (DDRC_ADDRMAP5_ADDRMAP_ROW_B11_MASK | DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_MASK | DDRC_ADDRMAP5_ADDRMAP_ROW_B1_MASK | DDRC_ADDRMAP5_ADDRMAP_ROW_B0_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_ADDRMAP5_ADDRMAP_ROW_B11_SHIFT
- | 0x0000000FU << DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10_SHIFT
- | 0x00000008U << DDRC_ADDRMAP5_ADDRMAP_ROW_B1_SHIFT
- | 0x00000008U << DDRC_ADDRMAP5_ADDRMAP_ROW_B0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP5_OFFSET ,0x0F0F0F0FU ,0x080F0808U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP6 @ 0XFD070218</p>
-
- Set this to 1 if there is an LPDDR3 SDRAM 6Gb or 12Gb device in use. - 1 - LPDDR3 SDRAM 6Gb/12Gb device in use. Every address
- having row[14:13]==2'b11 is considered as invalid - 0 - non-LPDDR3 6Gb/12Gb device in use. All addresses are valid Present on
- y in designs configured to support LPDDR3.
- PSU_DDRC_ADDRMAP6_LPDDR3_6GB_12GB 0x0
-
- Selects the HIF address bit used as row address bit 15. Valid Range: 0 to 11, and 15 Internal Base: 21 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 15 is set to 0.
- PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B15 0xf
-
- Selects the HIF address bit used as row address bit 14. Valid Range: 0 to 11, and 15 Internal Base: 20 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 14 is set to 0.
- PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B14 0x8
-
- Selects the HIF address bit used as row address bit 13. Valid Range: 0 to 11, and 15 Internal Base: 19 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 13 is set to 0.
- PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B13 0x8
-
- Selects the HIF address bit used as row address bit 12. Valid Range: 0 to 11, and 15 Internal Base: 18 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 12 is set to 0.
- PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B12 0x8
-
- Address Map Register 6
- (OFFSET, MASK, VALUE) (0XFD070218, 0x8F0F0F0FU ,0x0F080808U)
- RegMask = (DDRC_ADDRMAP6_LPDDR3_6GB_12GB_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B15_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B14_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B13_MASK | DDRC_ADDRMAP6_ADDRMAP_ROW_B12_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_ADDRMAP6_LPDDR3_6GB_12GB_SHIFT
- | 0x0000000FU << DDRC_ADDRMAP6_ADDRMAP_ROW_B15_SHIFT
- | 0x00000008U << DDRC_ADDRMAP6_ADDRMAP_ROW_B14_SHIFT
- | 0x00000008U << DDRC_ADDRMAP6_ADDRMAP_ROW_B13_SHIFT
- | 0x00000008U << DDRC_ADDRMAP6_ADDRMAP_ROW_B12_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP6_OFFSET ,0x8F0F0F0FU ,0x0F080808U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP7 @ 0XFD07021C</p>
-
- Selects the HIF address bit used as row address bit 17. Valid Range: 0 to 10, and 15 Internal Base: 23 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 17 is set to 0.
- PSU_DDRC_ADDRMAP7_ADDRMAP_ROW_B17 0xf
-
- Selects the HIF address bit used as row address bit 16. Valid Range: 0 to 11, and 15 Internal Base: 22 The selected HIF addre
- s bit is determined by adding the internal base to the value of this field. If set to 15, row address bit 16 is set to 0.
- PSU_DDRC_ADDRMAP7_ADDRMAP_ROW_B16 0xf
-
- Address Map Register 7
- (OFFSET, MASK, VALUE) (0XFD07021C, 0x00000F0FU ,0x00000F0FU)
- RegMask = (DDRC_ADDRMAP7_ADDRMAP_ROW_B17_MASK | DDRC_ADDRMAP7_ADDRMAP_ROW_B16_MASK | 0 );
-
- RegVal = ((0x0000000FU << DDRC_ADDRMAP7_ADDRMAP_ROW_B17_SHIFT
- | 0x0000000FU << DDRC_ADDRMAP7_ADDRMAP_ROW_B16_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP7_OFFSET ,0x00000F0FU ,0x00000F0FU);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP8 @ 0XFD070220</p>
-
- Selects the HIF address bits used as bank group address bit 1. Valid Range: 0 to 30, and 31 Internal Base: 3 The selected HIF
- address bit for each of the bank group address bits is determined by adding the internal base to the value of this field. If
- et to 31, bank group address bit 1 is set to 0.
- PSU_DDRC_ADDRMAP8_ADDRMAP_BG_B1 0x8
-
- Selects the HIF address bits used as bank group address bit 0. Valid Range: 0 to 30 Internal Base: 2 The selected HIF address
- bit for each of the bank group address bits is determined by adding the internal base to the value of this field.
- PSU_DDRC_ADDRMAP8_ADDRMAP_BG_B0 0x8
-
- Address Map Register 8
- (OFFSET, MASK, VALUE) (0XFD070220, 0x00001F1FU ,0x00000808U)
- RegMask = (DDRC_ADDRMAP8_ADDRMAP_BG_B1_MASK | DDRC_ADDRMAP8_ADDRMAP_BG_B0_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_ADDRMAP8_ADDRMAP_BG_B1_SHIFT
- | 0x00000008U << DDRC_ADDRMAP8_ADDRMAP_BG_B0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP8_OFFSET ,0x00001F1FU ,0x00000808U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP9 @ 0XFD070224</p>
-
- Selects the HIF address bits used as row address bit 5. Valid Range: 0 to 11 Internal Base: 11 The selected HIF address bit f
- r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u
- ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B5 0x8
-
- Selects the HIF address bits used as row address bit 4. Valid Range: 0 to 11 Internal Base: 10 The selected HIF address bit f
- r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u
- ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B4 0x8
-
- Selects the HIF address bits used as row address bit 3. Valid Range: 0 to 11 Internal Base: 9 The selected HIF address bit fo
- each of the row address bits is determined by adding the internal base to the value of this field. This register field is us
- d only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B3 0x8
-
- Selects the HIF address bits used as row address bit 2. Valid Range: 0 to 11 Internal Base: 8 The selected HIF address bit fo
- each of the row address bits is determined by adding the internal base to the value of this field. This register field is us
- d only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B2 0x8
-
- Address Map Register 9
- (OFFSET, MASK, VALUE) (0XFD070224, 0x0F0F0F0FU ,0x08080808U)
- RegMask = (DDRC_ADDRMAP9_ADDRMAP_ROW_B5_MASK | DDRC_ADDRMAP9_ADDRMAP_ROW_B4_MASK | DDRC_ADDRMAP9_ADDRMAP_ROW_B3_MASK | DDRC_ADDRMAP9_ADDRMAP_ROW_B2_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B5_SHIFT
- | 0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B4_SHIFT
- | 0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B3_SHIFT
- | 0x00000008U << DDRC_ADDRMAP9_ADDRMAP_ROW_B2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP9_OFFSET ,0x0F0F0F0FU ,0x08080808U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP10 @ 0XFD070228</p>
-
- Selects the HIF address bits used as row address bit 9. Valid Range: 0 to 11 Internal Base: 15 The selected HIF address bit f
- r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u
- ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B9 0x8
-
- Selects the HIF address bits used as row address bit 8. Valid Range: 0 to 11 Internal Base: 14 The selected HIF address bit f
- r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u
- ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B8 0x8
-
- Selects the HIF address bits used as row address bit 7. Valid Range: 0 to 11 Internal Base: 13 The selected HIF address bit f
- r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u
- ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B7 0x8
-
- Selects the HIF address bits used as row address bit 6. Valid Range: 0 to 11 Internal Base: 12 The selected HIF address bit f
- r each of the row address bits is determined by adding the internal base to the value of this field. This register field is u
- ed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B6 0x8
-
- Address Map Register 10
- (OFFSET, MASK, VALUE) (0XFD070228, 0x0F0F0F0FU ,0x08080808U)
- RegMask = (DDRC_ADDRMAP10_ADDRMAP_ROW_B9_MASK | DDRC_ADDRMAP10_ADDRMAP_ROW_B8_MASK | DDRC_ADDRMAP10_ADDRMAP_ROW_B7_MASK | DDRC_ADDRMAP10_ADDRMAP_ROW_B6_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B9_SHIFT
- | 0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B8_SHIFT
- | 0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B7_SHIFT
- | 0x00000008U << DDRC_ADDRMAP10_ADDRMAP_ROW_B6_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP10_OFFSET ,0x0F0F0F0FU ,0x08080808U);
- /*############################################################################################################################ */
-
- /*Register : ADDRMAP11 @ 0XFD07022C</p>
-
- Selects the HIF address bits used as row address bit 10. Valid Range: 0 to 11 Internal Base: 16 The selected HIF address bit
- or each of the row address bits is determined by adding the internal base to the value of this field. This register field is
- sed only when ADDRMAP5.addrmap_row_b2_10 is set to value 15.
- PSU_DDRC_ADDRMAP11_ADDRMAP_ROW_B10 0x8
-
- Address Map Register 11
- (OFFSET, MASK, VALUE) (0XFD07022C, 0x0000000FU ,0x00000008U)
- RegMask = (DDRC_ADDRMAP11_ADDRMAP_ROW_B10_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_ADDRMAP11_ADDRMAP_ROW_B10_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ADDRMAP11_OFFSET ,0x0000000FU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : ODTCFG @ 0XFD070240</p>
-
- Cycles to hold ODT for a write command. The minimum supported value is 2. Recommended values: DDR2: - BL8: 0x5 (DDR2-400/533/
- 67), 0x6 (DDR2-800), 0x7 (DDR2-1066) - BL4: 0x3 (DDR2-400/533/667), 0x4 (DDR2-800), 0x5 (DDR2-1066) DDR3: - BL8: 0x6 DDR4: -
- L8: 5 + WR_PREAMBLE + CRC_MODE WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) CRC_MODE = 0 (not CRC mode), 1
- CRC mode) LPDDR3: - BL8: 7 + RU(tODTon(max)/tCK)
- PSU_DDRC_ODTCFG_WR_ODT_HOLD 0x6
-
- The delay, in clock cycles, from issuing a write command to setting ODT values associated with that command. ODT setting must
- remain constant for the entire time that DQS is driven by the uMCTL2. Recommended values: DDR2: - CWL + AL - 3 (DDR2-400/533/
- 67), CWL + AL - 4 (DDR2-800), CWL + AL - 5 (DDR2-1066) If (CWL + AL - 3 < 0), uMCTL2 does not support ODT for write operation
- DDR3: - 0x0 DDR4: - DFITMG1.dfi_t_cmd_lat (to adjust for CAL mode) LPDDR3: - WL - 1 - RU(tODTon(max)/tCK))
- PSU_DDRC_ODTCFG_WR_ODT_DELAY 0x0
-
- Cycles to hold ODT for a read command. The minimum supported value is 2. Recommended values: DDR2: - BL8: 0x6 (not DDR2-1066)
- 0x7 (DDR2-1066) - BL4: 0x4 (not DDR2-1066), 0x5 (DDR2-1066) DDR3: - BL8 - 0x6 DDR4: - BL8: 5 + RD_PREAMBLE RD_PREAMBLE = 1 (
- tCK write preamble), 2 (2tCK write preamble) LPDDR3: - BL8: 5 + RU(tDQSCK(max)/tCK) - RD(tDQSCK(min)/tCK) + RU(tODTon(max)/tC
- )
- PSU_DDRC_ODTCFG_RD_ODT_HOLD 0x6
-
- The delay, in clock cycles, from issuing a read command to setting ODT values associated with that command. ODT setting must
- emain constant for the entire time that DQS is driven by the uMCTL2. Recommended values: DDR2: - CL + AL - 4 (not DDR2-1066),
- CL + AL - 5 (DDR2-1066) If (CL + AL - 4 < 0), uMCTL2 does not support ODT for read operation. DDR3: - CL - CWL DDR4: - CL - C
- L - RD_PREAMBLE + WR_PREAMBLE + DFITMG1.dfi_t_cmd_lat (to adjust for CAL mode) WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK
- write preamble) RD_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) If (CL - CWL - RD_PREAMBLE + WR_PREAMBLE) < 0,
- uMCTL2 does not support ODT for read operation. LPDDR3: - RL + RD(tDQSCK(min)/tCK) - 1 - RU(tODTon(max)/tCK)
- PSU_DDRC_ODTCFG_RD_ODT_DELAY 0x0
-
- ODT Configuration Register
- (OFFSET, MASK, VALUE) (0XFD070240, 0x0F1F0F7CU ,0x06000600U)
- RegMask = (DDRC_ODTCFG_WR_ODT_HOLD_MASK | DDRC_ODTCFG_WR_ODT_DELAY_MASK | DDRC_ODTCFG_RD_ODT_HOLD_MASK | DDRC_ODTCFG_RD_ODT_DELAY_MASK | 0 );
-
- RegVal = ((0x00000006U << DDRC_ODTCFG_WR_ODT_HOLD_SHIFT
- | 0x00000000U << DDRC_ODTCFG_WR_ODT_DELAY_SHIFT
- | 0x00000006U << DDRC_ODTCFG_RD_ODT_HOLD_SHIFT
- | 0x00000000U << DDRC_ODTCFG_RD_ODT_DELAY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ODTCFG_OFFSET ,0x0F1F0F7CU ,0x06000600U);
- /*############################################################################################################################ */
-
- /*Register : ODTMAP @ 0XFD070244</p>
-
- Indicates which remote ODTs must be turned on during a read from rank 1. Each rank has a remote ODT (in the SDRAM) which can
- e turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB
- etc. For each rank, set its bit to 1 to enable its ODT. Present only in configurations that have 2 or more ranks
- PSU_DDRC_ODTMAP_RANK1_RD_ODT 0x0
-
- Indicates which remote ODTs must be turned on during a write to rank 1. Each rank has a remote ODT (in the SDRAM) which can b
- turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB,
- etc. For each rank, set its bit to 1 to enable its ODT. Present only in configurations that have 2 or more ranks
- PSU_DDRC_ODTMAP_RANK1_WR_ODT 0x0
-
- Indicates which remote ODTs must be turned on during a read from rank 0. Each rank has a remote ODT (in the SDRAM) which can
- e turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB
- etc. For each rank, set its bit to 1 to enable its ODT.
- PSU_DDRC_ODTMAP_RANK0_RD_ODT 0x0
-
- Indicates which remote ODTs must be turned on during a write to rank 0. Each rank has a remote ODT (in the SDRAM) which can b
- turned on by setting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is controlled by bit next to the LSB,
- etc. For each rank, set its bit to 1 to enable its ODT.
- PSU_DDRC_ODTMAP_RANK0_WR_ODT 0x1
-
- ODT/Rank Map Register
- (OFFSET, MASK, VALUE) (0XFD070244, 0x00003333U ,0x00000001U)
- RegMask = (DDRC_ODTMAP_RANK1_RD_ODT_MASK | DDRC_ODTMAP_RANK1_WR_ODT_MASK | DDRC_ODTMAP_RANK0_RD_ODT_MASK | DDRC_ODTMAP_RANK0_WR_ODT_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_ODTMAP_RANK1_RD_ODT_SHIFT
- | 0x00000000U << DDRC_ODTMAP_RANK1_WR_ODT_SHIFT
- | 0x00000000U << DDRC_ODTMAP_RANK0_RD_ODT_SHIFT
- | 0x00000001U << DDRC_ODTMAP_RANK0_WR_ODT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_ODTMAP_OFFSET ,0x00003333U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : SCHED @ 0XFD070250</p>
-
- When the preferred transaction store is empty for these many clock cycles, switch to the alternate transaction store if it is
- non-empty. The read transaction store (both high and low priority) is the default preferred transaction store and the write t
- ansaction store is the alternative store. When prefer write over read is set this is reversed. 0x0 is a legal value for this
- egister. When set to 0x0, the transaction store switching will happen immediately when the switching conditions become true.
- OR PERFORMANCE ONLY
- PSU_DDRC_SCHED_RDWR_IDLE_GAP 0x1
-
- UNUSED
- PSU_DDRC_SCHED_GO2CRITICAL_HYSTERESIS 0x0
-
- Number of entries in the low priority transaction store is this value + 1. (MEMC_NO_OF_ENTRY - (SCHED.lpr_num_entries + 1)) i
- the number of entries available for the high priority transaction store. Setting this to maximum value allocates all entries
- to low priority transaction store. Setting this to 0 allocates 1 entry to low priority transaction store and the rest to high
- priority transaction store. Note: In ECC configurations, the numbers of write and low priority read credits issued is one les
- than in the non-ECC case. One entry each is reserved in the write and low-priority read CAMs for storing the RMW requests ar
- sing out of single bit error correction RMW operation.
- PSU_DDRC_SCHED_LPR_NUM_ENTRIES 0x20
-
- If true, bank is kept open only while there are page hit transactions available in the CAM to that bank. The last read or wri
- e command in the CAM with a bank and page hit will be executed with auto-precharge if SCHED1.pageclose_timer=0. Even if this
- egister set to 1 and SCHED1.pageclose_timer is set to 0, explicit precharge (and not auto-precharge) may be issued in some ca
- es where there is a mode switch between Write and Read or between LPR and HPR. The Read and Write commands that are executed
- s part of the ECC scrub requests are also executed without auto-precharge. If false, the bank remains open until there is a n
- ed to close it (to open a different page, or for page timeout or refresh timeout) - also known as open page policy. The open
- age policy can be overridden by setting the per-command-autopre bit on the HIF interface (hif_cmd_autopre). The pageclose fea
- ure provids a midway between Open and Close page policies. FOR PERFORMANCE ONLY.
- PSU_DDRC_SCHED_PAGECLOSE 0x0
-
- If set then the bank selector prefers writes over reads. FOR DEBUG ONLY.
- PSU_DDRC_SCHED_PREFER_WRITE 0x0
-
- Active low signal. When asserted ('0'), all incoming transactions are forced to low priority. This implies that all High Prio
- ity Read (HPR) and Variable Priority Read commands (VPR) will be treated as Low Priority Read (LPR) commands. On the write si
- e, all Variable Priority Write (VPW) commands will be treated as Normal Priority Write (NPW) commands. Forcing the incoming t
- ansactions to low priority implicitly turns off Bypass path for read commands. FOR PERFORMANCE ONLY.
- PSU_DDRC_SCHED_FORCE_LOW_PRI_N 0x1
-
- Scheduler Control Register
- (OFFSET, MASK, VALUE) (0XFD070250, 0x7FFF3F07U ,0x01002001U)
- RegMask = (DDRC_SCHED_RDWR_IDLE_GAP_MASK | DDRC_SCHED_GO2CRITICAL_HYSTERESIS_MASK | DDRC_SCHED_LPR_NUM_ENTRIES_MASK | DDRC_SCHED_PAGECLOSE_MASK | DDRC_SCHED_PREFER_WRITE_MASK | DDRC_SCHED_FORCE_LOW_PRI_N_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_SCHED_RDWR_IDLE_GAP_SHIFT
- | 0x00000000U << DDRC_SCHED_GO2CRITICAL_HYSTERESIS_SHIFT
- | 0x00000020U << DDRC_SCHED_LPR_NUM_ENTRIES_SHIFT
- | 0x00000000U << DDRC_SCHED_PAGECLOSE_SHIFT
- | 0x00000000U << DDRC_SCHED_PREFER_WRITE_SHIFT
- | 0x00000001U << DDRC_SCHED_FORCE_LOW_PRI_N_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_SCHED_OFFSET ,0x7FFF3F07U ,0x01002001U);
- /*############################################################################################################################ */
-
- /*Register : PERFLPR1 @ 0XFD070264</p>
-
- Number of transactions that are serviced once the LPR queue goes critical is the smaller of: - (a) This number - (b) Number o
- transactions available. Unit: Transaction. FOR PERFORMANCE ONLY.
- PSU_DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH 0x8
-
- Number of clocks that the LPR queue can be starved before it goes critical. The minimum valid functional value for this regis
- er is 0x1. Programming it to 0x0 will disable the starvation functionality; during normal operation, this function should not
- be disabled as it will cause excessive latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY.
- PSU_DDRC_PERFLPR1_LPR_MAX_STARVE 0x40
-
- Low Priority Read CAM Register 1
- (OFFSET, MASK, VALUE) (0XFD070264, 0xFF00FFFFU ,0x08000040U)
- RegMask = (DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_MASK | DDRC_PERFLPR1_LPR_MAX_STARVE_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH_SHIFT
- | 0x00000040U << DDRC_PERFLPR1_LPR_MAX_STARVE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PERFLPR1_OFFSET ,0xFF00FFFFU ,0x08000040U);
- /*############################################################################################################################ */
-
- /*Register : PERFWR1 @ 0XFD07026C</p>
-
- Number of transactions that are serviced once the WR queue goes critical is the smaller of: - (a) This number - (b) Number of
- transactions available. Unit: Transaction. FOR PERFORMANCE ONLY.
- PSU_DDRC_PERFWR1_W_XACT_RUN_LENGTH 0x8
-
- Number of clocks that the WR queue can be starved before it goes critical. The minimum valid functional value for this regist
- r is 0x1. Programming it to 0x0 will disable the starvation functionality; during normal operation, this function should not
- e disabled as it will cause excessive latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY.
- PSU_DDRC_PERFWR1_W_MAX_STARVE 0x40
-
- Write CAM Register 1
- (OFFSET, MASK, VALUE) (0XFD07026C, 0xFF00FFFFU ,0x08000040U)
- RegMask = (DDRC_PERFWR1_W_XACT_RUN_LENGTH_MASK | DDRC_PERFWR1_W_MAX_STARVE_MASK | 0 );
-
- RegVal = ((0x00000008U << DDRC_PERFWR1_W_XACT_RUN_LENGTH_SHIFT
- | 0x00000040U << DDRC_PERFWR1_W_MAX_STARVE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PERFWR1_OFFSET ,0xFF00FFFFU ,0x08000040U);
- /*############################################################################################################################ */
-
- /*Register : DQMAP5 @ 0XFD070294</p>
-
- All even ranks have the same DQ mapping controled by DQMAP0-4 register as rank 0. This register provides DQ swap function for
- all odd ranks to support CRC feature. rank based DQ swapping is: swap bit 0 with 1, swap bit 2 with 3, swap bit 4 with 5 and
- wap bit 6 with 7. 1: Disable rank based DQ swapping 0: Enable rank based DQ swapping Present only in designs configured to su
- port DDR4.
- PSU_DDRC_DQMAP5_DIS_DQ_RANK_SWAP 0x1
-
- DQ Map Register 5
- (OFFSET, MASK, VALUE) (0XFD070294, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_DQMAP5_DIS_DQ_RANK_SWAP_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_DQMAP5_DIS_DQ_RANK_SWAP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DQMAP5_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : DBG0 @ 0XFD070300</p>
-
- When this is set to '0', auto-precharge is disabled for the flushed command in a collision case. Collision cases are write fo
- lowed by read to same address, read followed by write to same address, or write followed by write to same address with DBG0.d
- s_wc bit = 1 (where same address comparisons exclude the two address bits representing critical word). FOR DEBUG ONLY.
- PSU_DDRC_DBG0_DIS_COLLISION_PAGE_OPT 0x0
-
- When 1, disable write combine. FOR DEBUG ONLY
- PSU_DDRC_DBG0_DIS_WC 0x0
-
- Debug Register 0
- (OFFSET, MASK, VALUE) (0XFD070300, 0x00000011U ,0x00000000U)
- RegMask = (DDRC_DBG0_DIS_COLLISION_PAGE_OPT_MASK | DDRC_DBG0_DIS_WC_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DBG0_DIS_COLLISION_PAGE_OPT_SHIFT
- | 0x00000000U << DDRC_DBG0_DIS_WC_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DBG0_OFFSET ,0x00000011U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : DBGCMD @ 0XFD07030C</p>
-
- Setting this register bit to 1 allows refresh and ZQCS commands to be triggered from hardware via the IOs ext_*. If set to 1,
- the fields DBGCMD.zq_calib_short and DBGCMD.rank*_refresh have no function, and are ignored by the uMCTL2 logic. Setting this
- register bit to 0 allows refresh and ZQCS to be triggered from software, via the fields DBGCMD.zq_calib_short and DBGCMD.rank
- _refresh. If set to 0, the hardware pins ext_* have no function, and are ignored by the uMCTL2 logic. This register is static
- and may only be changed when the DDRC reset signal, core_ddrc_rstn, is asserted (0).
- PSU_DDRC_DBGCMD_HW_REF_ZQ_EN 0x0
-
- Setting this register bit to 1 indicates to the uMCTL2 to issue a dfi_ctrlupd_req to the PHY. When this request is stored in
- he uMCTL2, the bit is automatically cleared. This operation must only be performed when DFIUPD0.dis_auto_ctrlupd=1.
- PSU_DDRC_DBGCMD_CTRLUPD 0x0
-
- Setting this register bit to 1 indicates to the uMCTL2 to issue a ZQCS (ZQ calibration short)/MPC(ZQ calibration) command to
- he SDRAM. When this request is stored in the uMCTL2, the bit is automatically cleared. This operation can be performed only w
- en ZQCTL0.dis_auto_zq=1. It is recommended NOT to set this register bit if in Init operating mode. This register bit is ignor
- d when in Self-Refresh(except LPDDR4) and SR-Powerdown(LPDDR4) and Deep power-down operating modes and Maximum Power Saving M
- de.
- PSU_DDRC_DBGCMD_ZQ_CALIB_SHORT 0x0
-
- Setting this register bit to 1 indicates to the uMCTL2 to issue a refresh to rank 1. Writing to this bit causes DBGSTAT.rank1
- refresh_busy to be set. When DBGSTAT.rank1_refresh_busy is cleared, the command has been stored in uMCTL2. This operation can
- be performed only when RFSHCTL3.dis_auto_refresh=1. It is recommended NOT to set this register bit if in Init or Deep power-d
- wn operating modes or Maximum Power Saving Mode.
- PSU_DDRC_DBGCMD_RANK1_REFRESH 0x0
-
- Setting this register bit to 1 indicates to the uMCTL2 to issue a refresh to rank 0. Writing to this bit causes DBGSTAT.rank0
- refresh_busy to be set. When DBGSTAT.rank0_refresh_busy is cleared, the command has been stored in uMCTL2. This operation can
- be performed only when RFSHCTL3.dis_auto_refresh=1. It is recommended NOT to set this register bit if in Init or Deep power-d
- wn operating modes or Maximum Power Saving Mode.
- PSU_DDRC_DBGCMD_RANK0_REFRESH 0x0
-
- Command Debug Register
- (OFFSET, MASK, VALUE) (0XFD07030C, 0x80000033U ,0x00000000U)
- RegMask = (DDRC_DBGCMD_HW_REF_ZQ_EN_MASK | DDRC_DBGCMD_CTRLUPD_MASK | DDRC_DBGCMD_ZQ_CALIB_SHORT_MASK | DDRC_DBGCMD_RANK1_REFRESH_MASK | DDRC_DBGCMD_RANK0_REFRESH_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_DBGCMD_HW_REF_ZQ_EN_SHIFT
- | 0x00000000U << DDRC_DBGCMD_CTRLUPD_SHIFT
- | 0x00000000U << DDRC_DBGCMD_ZQ_CALIB_SHORT_SHIFT
- | 0x00000000U << DDRC_DBGCMD_RANK1_REFRESH_SHIFT
- | 0x00000000U << DDRC_DBGCMD_RANK0_REFRESH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DBGCMD_OFFSET ,0x80000033U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : SWCTL @ 0XFD070320</p>
-
- Enable quasi-dynamic register programming outside reset. Program register to 0 to enable quasi-dynamic programming. Set back
- egister to 1 once programming is done.
- PSU_DDRC_SWCTL_SW_DONE 0x0
-
- Software register programming control enable
- (OFFSET, MASK, VALUE) (0XFD070320, 0x00000001U ,0x00000000U)
- RegMask = (DDRC_SWCTL_SW_DONE_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_SWCTL_SW_DONE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_SWCTL_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : PCCFG @ 0XFD070400</p>
-
- Burst length expansion mode. By default (i.e. bl_exp_mode==0) XPI expands every AXI burst into multiple HIF commands, using t
- e memory burst length as a unit. If set to 1, then XPI will use half of the memory burst length as a unit. This applies to bo
- h reads and writes. When MSTR.data_bus_width==00, setting bl_exp_mode to 1 has no effect. This can be used in cases where Par
- ial Writes is enabled (UMCTL2_PARTIAL_WR=1) and DBG0.dis_wc=1, in order to avoid or minimize t_ccd_l penalty in DDR4 and t_cc
- _mw penalty in LPDDR4. Note that if DBICTL.reg_ddrc_dm_en=0, functionality is not supported in the following cases: - UMCTL2_
- ARTIAL_WR=0 - UMCTL2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=8 and MSTR.reg_ddrc_burst_rdwr=1000 (LP
- DR4 only) - UMCTL2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=4 and MSTR.reg_ddrc_burst_rdwr=0100 (DDR4
- only), with either MSTR.reg_ddrc_burstchop=0 or CRCPARCTL1.reg_ddrc_crc_enable=1 Functionality is also not supported if Share
- -AC is enabled
- PSU_DDRC_PCCFG_BL_EXP_MODE 0x0
-
- Page match four limit. If set to 1, limits the number of consecutive same page DDRC transactions that can be granted by the P
- rt Arbiter to four when Page Match feature is enabled. If set to 0, there is no limit imposed on number of consecutive same p
- ge DDRC transactions.
- PSU_DDRC_PCCFG_PAGEMATCH_LIMIT 0x0
-
- If set to 1 (enabled), sets co_gs_go2critical_wr and co_gs_go2critical_lpr/co_gs_go2critical_hpr signals going to DDRC based
- n urgent input (awurgent, arurgent) coming from AXI master. If set to 0 (disabled), co_gs_go2critical_wr and co_gs_go2critica
- _lpr/co_gs_go2critical_hpr signals at DDRC are driven to 1b'0.
- PSU_DDRC_PCCFG_GO2CRITICAL_EN 0x1
-
- Port Common Configuration Register
- (OFFSET, MASK, VALUE) (0XFD070400, 0x00000111U ,0x00000001U)
- RegMask = (DDRC_PCCFG_BL_EXP_MODE_MASK | DDRC_PCCFG_PAGEMATCH_LIMIT_MASK | DDRC_PCCFG_GO2CRITICAL_EN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCCFG_BL_EXP_MODE_SHIFT
- | 0x00000000U << DDRC_PCCFG_PAGEMATCH_LIMIT_SHIFT
- | 0x00000001U << DDRC_PCCFG_GO2CRITICAL_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCCFG_OFFSET ,0x00000111U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGR_0 @ 0XFD070404</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN 0x0
-
- If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG.
- o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add
- ess handshaking (it is not associated with any particular command).
- PSU_DDRC_PCFGR_0_RD_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the read channel of the port.
- PSU_DDRC_PCFGR_0_RD_PORT_AGING_EN 0x0
-
- Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g
- ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority
- will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre
- ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the
- aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st
- ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w
- ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D
- RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note:
- he two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGR_0_RD_PORT_PRIORITY 0xf
-
- Port n Configuration Read Register
- (OFFSET, MASK, VALUE) (0XFD070404, 0x000073FFU ,0x0000200FU)
- RegMask = (DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_0_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_0_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_0_RD_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGR_0_RD_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGR_0_RD_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGR_0_RD_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGR_0_OFFSET ,0x000073FFU ,0x0000200FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGW_0 @ 0XFD070408</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register
- Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is
- not associated with any particular command).
- PSU_DDRC_PCFGW_0_WR_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the write channel of the port.
- PSU_DDRC_PCFGW_0_WR_PORT_AGING_EN 0x0
-
- Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each
- rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port
- s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0
- the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno
- be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For
- ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch
- ng. Note: The two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGW_0_WR_PORT_PRIORITY 0xf
-
- Port n Configuration Write Register
- (OFFSET, MASK, VALUE) (0XFD070408, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_0_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_0_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_0_WR_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGW_0_WR_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGW_0_WR_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGW_0_WR_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGW_0_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCTRL_0 @ 0XFD070490</p>
-
- Enables port n.
- PSU_DDRC_PCTRL_0_PORT_EN 0x1
-
- Port n Control Register
- (OFFSET, MASK, VALUE) (0XFD070490, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_PCTRL_0_PORT_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCTRL_0_PORT_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCTRL_0_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS0_0 @ 0XFD070494</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf
- gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_0_RQOS_MAP_REGION1 0x2
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi
- urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_0_RQOS_MAP_REGION0 0x0
-
- Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d
- al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio
- ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc
- values.
- PSU_DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1 0xb
-
- Port n Read QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD070494, 0x0033000FU ,0x0020000BU)
- RegMask = (DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_PCFGQOS0_0_RQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_0_RQOS_MAP_REGION0_SHIFT
- | 0x0000000BU << DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS0_0_OFFSET ,0x0033000FU ,0x0020000BU);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS1_0 @ 0XFD070498</p>
-
- Specifies the timeout value for transactions mapped to the red address queue.
- PSU_DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR 0x0
-
- Specifies the timeout value for transactions mapped to the blue address queue.
- PSU_DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB 0x0
-
- Port n Read QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070498, 0x07FF07FFU ,0x00000000U)
- RegMask = (DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR_SHIFT
- | 0x00000000U << DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS1_0_OFFSET ,0x07FF07FFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : PCFGR_1 @ 0XFD0704B4</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN 0x0
-
- If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG.
- o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add
- ess handshaking (it is not associated with any particular command).
- PSU_DDRC_PCFGR_1_RD_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the read channel of the port.
- PSU_DDRC_PCFGR_1_RD_PORT_AGING_EN 0x0
-
- Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g
- ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority
- will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre
- ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the
- aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st
- ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w
- ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D
- RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note:
- he two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGR_1_RD_PORT_PRIORITY 0xf
-
- Port n Configuration Read Register
- (OFFSET, MASK, VALUE) (0XFD0704B4, 0x000073FFU ,0x0000200FU)
- RegMask = (DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_1_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_1_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_1_RD_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGR_1_RD_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGR_1_RD_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGR_1_RD_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGR_1_OFFSET ,0x000073FFU ,0x0000200FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGW_1 @ 0XFD0704B8</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register
- Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is
- not associated with any particular command).
- PSU_DDRC_PCFGW_1_WR_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the write channel of the port.
- PSU_DDRC_PCFGW_1_WR_PORT_AGING_EN 0x0
-
- Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each
- rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port
- s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0
- the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno
- be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For
- ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch
- ng. Note: The two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGW_1_WR_PORT_PRIORITY 0xf
-
- Port n Configuration Write Register
- (OFFSET, MASK, VALUE) (0XFD0704B8, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_1_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_1_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_1_WR_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGW_1_WR_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGW_1_WR_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGW_1_WR_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGW_1_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCTRL_1 @ 0XFD070540</p>
-
- Enables port n.
- PSU_DDRC_PCTRL_1_PORT_EN 0x1
-
- Port n Control Register
- (OFFSET, MASK, VALUE) (0XFD070540, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_PCTRL_1_PORT_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCTRL_1_PORT_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCTRL_1_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS0_1 @ 0XFD070544</p>
-
- This bitfield indicates the traffic class of region2. For dual address queue configurations, region2 maps to the red address
- ueue. Valid values are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and traffic class of region2
- s set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION2 0x2
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf
- gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION1 0x0
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi
- urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION0 0x0
-
- Separation level2 indicating the end of region1 mapping; start of region1 is (level1 + 1). Possible values for level2 are (le
- el1 + 1) to 14 which corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note that for PA, arqos values are used
- directly as port priorities, where the higher the value corresponds to higher port priority. All of the map_level* registers
- ust be set to distinct values.
- PSU_DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2 0xb
-
- Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d
- al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio
- ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc
- values.
- PSU_DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1 0x3
-
- Port n Read QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD070544, 0x03330F0FU ,0x02000B03U)
- RegMask = (DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_MASK | DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_PCFGQOS0_1_RQOS_MAP_REGION2_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_1_RQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_1_RQOS_MAP_REGION0_SHIFT
- | 0x0000000BU << DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2_SHIFT
- | 0x00000003U << DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS0_1_OFFSET ,0x03330F0FU ,0x02000B03U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS1_1 @ 0XFD070548</p>
-
- Specifies the timeout value for transactions mapped to the red address queue.
- PSU_DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR 0x0
-
- Specifies the timeout value for transactions mapped to the blue address queue.
- PSU_DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB 0x0
-
- Port n Read QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070548, 0x07FF07FFU ,0x00000000U)
- RegMask = (DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR_SHIFT
- | 0x00000000U << DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS1_1_OFFSET ,0x07FF07FFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : PCFGR_2 @ 0XFD070564</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN 0x0
-
- If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG.
- o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add
- ess handshaking (it is not associated with any particular command).
- PSU_DDRC_PCFGR_2_RD_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the read channel of the port.
- PSU_DDRC_PCFGR_2_RD_PORT_AGING_EN 0x0
-
- Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g
- ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority
- will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre
- ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the
- aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st
- ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w
- ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D
- RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note:
- he two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGR_2_RD_PORT_PRIORITY 0xf
-
- Port n Configuration Read Register
- (OFFSET, MASK, VALUE) (0XFD070564, 0x000073FFU ,0x0000200FU)
- RegMask = (DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_2_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_2_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_2_RD_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGR_2_RD_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGR_2_RD_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGR_2_RD_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGR_2_OFFSET ,0x000073FFU ,0x0000200FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGW_2 @ 0XFD070568</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register
- Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is
- not associated with any particular command).
- PSU_DDRC_PCFGW_2_WR_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the write channel of the port.
- PSU_DDRC_PCFGW_2_WR_PORT_AGING_EN 0x0
-
- Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each
- rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port
- s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0
- the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno
- be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For
- ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch
- ng. Note: The two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGW_2_WR_PORT_PRIORITY 0xf
-
- Port n Configuration Write Register
- (OFFSET, MASK, VALUE) (0XFD070568, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_2_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_2_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_2_WR_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGW_2_WR_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGW_2_WR_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGW_2_WR_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGW_2_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCTRL_2 @ 0XFD0705F0</p>
-
- Enables port n.
- PSU_DDRC_PCTRL_2_PORT_EN 0x1
-
- Port n Control Register
- (OFFSET, MASK, VALUE) (0XFD0705F0, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_PCTRL_2_PORT_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCTRL_2_PORT_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCTRL_2_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS0_2 @ 0XFD0705F4</p>
-
- This bitfield indicates the traffic class of region2. For dual address queue configurations, region2 maps to the red address
- ueue. Valid values are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and traffic class of region2
- s set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION2 0x2
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf
- gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION1 0x0
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi
- urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION0 0x0
-
- Separation level2 indicating the end of region1 mapping; start of region1 is (level1 + 1). Possible values for level2 are (le
- el1 + 1) to 14 which corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note that for PA, arqos values are used
- directly as port priorities, where the higher the value corresponds to higher port priority. All of the map_level* registers
- ust be set to distinct values.
- PSU_DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2 0xb
-
- Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d
- al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio
- ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc
- values.
- PSU_DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1 0x3
-
- Port n Read QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD0705F4, 0x03330F0FU ,0x02000B03U)
- RegMask = (DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_MASK | DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_MASK | 0 );
-
- RegVal = ((0x00000002U << DDRC_PCFGQOS0_2_RQOS_MAP_REGION2_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_2_RQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_2_RQOS_MAP_REGION0_SHIFT
- | 0x0000000BU << DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2_SHIFT
- | 0x00000003U << DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS0_2_OFFSET ,0x03330F0FU ,0x02000B03U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS1_2 @ 0XFD0705F8</p>
-
- Specifies the timeout value for transactions mapped to the red address queue.
- PSU_DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR 0x0
-
- Specifies the timeout value for transactions mapped to the blue address queue.
- PSU_DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB 0x0
-
- Port n Read QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD0705F8, 0x07FF07FFU ,0x00000000U)
- RegMask = (DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR_SHIFT
- | 0x00000000U << DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS1_2_OFFSET ,0x07FF07FFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : PCFGR_3 @ 0XFD070614</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN 0x0
-
- If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG.
- o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add
- ess handshaking (it is not associated with any particular command).
- PSU_DDRC_PCFGR_3_RD_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the read channel of the port.
- PSU_DDRC_PCFGR_3_RD_PORT_AGING_EN 0x0
-
- Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g
- ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority
- will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre
- ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the
- aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st
- ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w
- ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D
- RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note:
- he two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGR_3_RD_PORT_PRIORITY 0xf
-
- Port n Configuration Read Register
- (OFFSET, MASK, VALUE) (0XFD070614, 0x000073FFU ,0x0000200FU)
- RegMask = (DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_3_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_3_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_3_RD_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGR_3_RD_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGR_3_RD_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGR_3_RD_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGR_3_OFFSET ,0x000073FFU ,0x0000200FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGW_3 @ 0XFD070618</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register
- Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is
- not associated with any particular command).
- PSU_DDRC_PCFGW_3_WR_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the write channel of the port.
- PSU_DDRC_PCFGW_3_WR_PORT_AGING_EN 0x0
-
- Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each
- rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port
- s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0
- the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno
- be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For
- ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch
- ng. Note: The two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGW_3_WR_PORT_PRIORITY 0xf
-
- Port n Configuration Write Register
- (OFFSET, MASK, VALUE) (0XFD070618, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_3_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_3_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_3_WR_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGW_3_WR_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGW_3_WR_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGW_3_WR_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGW_3_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCTRL_3 @ 0XFD0706A0</p>
-
- Enables port n.
- PSU_DDRC_PCTRL_3_PORT_EN 0x1
-
- Port n Control Register
- (OFFSET, MASK, VALUE) (0XFD0706A0, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_PCTRL_3_PORT_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCTRL_3_PORT_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCTRL_3_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS0_3 @ 0XFD0706A4</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf
- gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_3_RQOS_MAP_REGION1 0x1
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi
- urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_3_RQOS_MAP_REGION0 0x0
-
- Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d
- al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio
- ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc
- values.
- PSU_DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1 0x3
-
- Port n Read QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD0706A4, 0x0033000FU ,0x00100003U)
- RegMask = (DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGQOS0_3_RQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_3_RQOS_MAP_REGION0_SHIFT
- | 0x00000003U << DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS0_3_OFFSET ,0x0033000FU ,0x00100003U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS1_3 @ 0XFD0706A8</p>
-
- Specifies the timeout value for transactions mapped to the red address queue.
- PSU_DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR 0x0
-
- Specifies the timeout value for transactions mapped to the blue address queue.
- PSU_DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB 0x4f
-
- Port n Read QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD0706A8, 0x07FF07FFU ,0x0000004FU)
- RegMask = (DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR_SHIFT
- | 0x0000004FU << DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS1_3_OFFSET ,0x07FF07FFU ,0x0000004FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGWQOS0_3 @ 0XFD0706AC</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2
- VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic.
- PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1 0x1
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2
- VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic.
- PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0 0x0
-
- Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c
- rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon
- s to higher port priority.
- PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL 0x3
-
- Port n Write QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD0706AC, 0x0033000FU ,0x00100003U)
- RegMask = (DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_MASK | DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_MASK | DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0_SHIFT
- | 0x00000003U << DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGWQOS0_3_OFFSET ,0x0033000FU ,0x00100003U);
- /*############################################################################################################################ */
-
- /*Register : PCFGWQOS1_3 @ 0XFD0706B0</p>
-
- Specifies the timeout value for write transactions.
- PSU_DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT 0x4f
-
- Port n Write QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD0706B0, 0x000007FFU ,0x0000004FU)
- RegMask = (DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_MASK | 0 );
-
- RegVal = ((0x0000004FU << DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGWQOS1_3_OFFSET ,0x000007FFU ,0x0000004FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGR_4 @ 0XFD0706C4</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG.
- o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add
- ess handshaking (it is not associated with any particular command).
- PSU_DDRC_PCFGR_4_RD_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the read channel of the port.
- PSU_DDRC_PCFGR_4_RD_PORT_AGING_EN 0x0
-
- Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g
- ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority
- will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre
- ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the
- aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st
- ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w
- ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D
- RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note:
- he two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGR_4_RD_PORT_PRIORITY 0xf
-
- Port n Configuration Read Register
- (OFFSET, MASK, VALUE) (0XFD0706C4, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_4_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_4_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_4_RD_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGR_4_RD_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGR_4_RD_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGR_4_RD_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGR_4_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGW_4 @ 0XFD0706C8</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register
- Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is
- not associated with any particular command).
- PSU_DDRC_PCFGW_4_WR_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the write channel of the port.
- PSU_DDRC_PCFGW_4_WR_PORT_AGING_EN 0x0
-
- Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each
- rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port
- s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0
- the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno
- be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For
- ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch
- ng. Note: The two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGW_4_WR_PORT_PRIORITY 0xf
-
- Port n Configuration Write Register
- (OFFSET, MASK, VALUE) (0XFD0706C8, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_4_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_4_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_4_WR_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGW_4_WR_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGW_4_WR_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGW_4_WR_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGW_4_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCTRL_4 @ 0XFD070750</p>
-
- Enables port n.
- PSU_DDRC_PCTRL_4_PORT_EN 0x1
-
- Port n Control Register
- (OFFSET, MASK, VALUE) (0XFD070750, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_PCTRL_4_PORT_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCTRL_4_PORT_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCTRL_4_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS0_4 @ 0XFD070754</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf
- gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_4_RQOS_MAP_REGION1 0x1
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi
- urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_4_RQOS_MAP_REGION0 0x0
-
- Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d
- al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio
- ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc
- values.
- PSU_DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1 0x3
-
- Port n Read QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD070754, 0x0033000FU ,0x00100003U)
- RegMask = (DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGQOS0_4_RQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_4_RQOS_MAP_REGION0_SHIFT
- | 0x00000003U << DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS0_4_OFFSET ,0x0033000FU ,0x00100003U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS1_4 @ 0XFD070758</p>
-
- Specifies the timeout value for transactions mapped to the red address queue.
- PSU_DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR 0x0
-
- Specifies the timeout value for transactions mapped to the blue address queue.
- PSU_DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB 0x4f
-
- Port n Read QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070758, 0x07FF07FFU ,0x0000004FU)
- RegMask = (DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR_SHIFT
- | 0x0000004FU << DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS1_4_OFFSET ,0x07FF07FFU ,0x0000004FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGWQOS0_4 @ 0XFD07075C</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2
- VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic.
- PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1 0x1
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2
- VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic.
- PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0 0x0
-
- Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c
- rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon
- s to higher port priority.
- PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL 0x3
-
- Port n Write QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD07075C, 0x0033000FU ,0x00100003U)
- RegMask = (DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_MASK | DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_MASK | DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0_SHIFT
- | 0x00000003U << DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGWQOS0_4_OFFSET ,0x0033000FU ,0x00100003U);
- /*############################################################################################################################ */
-
- /*Register : PCFGWQOS1_4 @ 0XFD070760</p>
-
- Specifies the timeout value for write transactions.
- PSU_DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT 0x4f
-
- Port n Write QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070760, 0x000007FFU ,0x0000004FU)
- RegMask = (DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_MASK | 0 );
-
- RegVal = ((0x0000004FU << DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGWQOS1_4_OFFSET ,0x000007FFU ,0x0000004FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGR_5 @ 0XFD070774</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN 0x0
-
- If set to 1, enables the AXI urgent sideband signal (arurgent). When enabled and arurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DDRC is asserted if enabled in PCCFG.
- o2critical_en register. Note that arurgent signal can be asserted anytime and as long as required which is independent of add
- ess handshaking (it is not associated with any particular command).
- PSU_DDRC_PCFGR_5_RD_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the read channel of the port.
- PSU_DDRC_PCFGR_5_RD_PORT_AGING_EN 0x0
-
- Determines the initial load value of read aging counters. These counters will be parallel loaded after reset, or after each g
- ant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- he higher significant 5-bits of the read aging counter sets the priority of the read channel of a given port. Port's priority
- will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0, the corre
- ponding port channel will have the highest priority level (timeout condition - Priority0). For multi-port configurations, the
- aging counters cannot be used to set port priorities when external dynamic priority inputs (arqos) are enabled (timeout is st
- ll applicable). For single port configurations, the aging counters are only used when they timeout (become 0) to force read-w
- ite direction switching. In this case, external dynamic priority input, arqos (for reads only) can still be used to set the D
- RC read priority (2 priority levels: low priority read - LPR, high priority read - HPR) on a command by command basis. Note:
- he two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGR_5_RD_PORT_PRIORITY 0xf
-
- Port n Configuration Read Register
- (OFFSET, MASK, VALUE) (0XFD070774, 0x000073FFU ,0x0000200FU)
- RegMask = (DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGR_5_RD_PORT_URGENT_EN_MASK | DDRC_PCFGR_5_RD_PORT_AGING_EN_MASK | DDRC_PCFGR_5_RD_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGR_5_RD_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGR_5_RD_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGR_5_RD_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGR_5_OFFSET ,0x000073FFU ,0x0000200FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGW_5 @ 0XFD070778</p>
-
- If set to 1, enables the Page Match feature. If enabled, once a requesting port is granted, the port is continued to be grant
- d if the following immediate commands are to the same memory page (same bank and same row). See also related PCCFG.pagematch_
- imit register.
- PSU_DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN 0x1
-
- If set to 1, enables the AXI urgent sideband signal (awurgent). When enabled and awurgent is asserted by the master, that por
- becomes the highest priority and co_gs_go2critical_wr signal to DDRC is asserted if enabled in PCCFG.go2critical_en register
- Note that awurgent signal can be asserted anytime and as long as required which is independent of address handshaking (it is
- not associated with any particular command).
- PSU_DDRC_PCFGW_5_WR_PORT_URGENT_EN 0x1
-
- If set to 1, enables aging function for the write channel of the port.
- PSU_DDRC_PCFGW_5_WR_PORT_AGING_EN 0x0
-
- Determines the initial load value of write aging counters. These counters will be parallel loaded after reset, or after each
- rant to the corresponding port. The aging counters down-count every clock cycle where the port is requesting but not granted.
- The higher significant 5-bits of the write aging counter sets the initial priority of the write channel of a given port. Port
- s priority will increase as the higher significant 5-bits of the counter starts to decrease. When the aging counter becomes 0
- the corresponding port channel will have the highest priority level. For multi-port configurations, the aging counters canno
- be used to set port priorities when external dynamic priority inputs (awqos) are enabled (timeout is still applicable). For
- ingle port configurations, the aging counters are only used when they timeout (become 0) to force read-write direction switch
- ng. Note: The two LSBs of this register field are tied internally to 2'b00.
- PSU_DDRC_PCFGW_5_WR_PORT_PRIORITY 0xf
-
- Port n Configuration Write Register
- (OFFSET, MASK, VALUE) (0XFD070778, 0x000073FFU ,0x0000600FU)
- RegMask = (DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_MASK | DDRC_PCFGW_5_WR_PORT_URGENT_EN_MASK | DDRC_PCFGW_5_WR_PORT_AGING_EN_MASK | DDRC_PCFGW_5_WR_PORT_PRIORITY_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN_SHIFT
- | 0x00000001U << DDRC_PCFGW_5_WR_PORT_URGENT_EN_SHIFT
- | 0x00000000U << DDRC_PCFGW_5_WR_PORT_AGING_EN_SHIFT
- | 0x0000000FU << DDRC_PCFGW_5_WR_PORT_PRIORITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGW_5_OFFSET ,0x000073FFU ,0x0000600FU);
- /*############################################################################################################################ */
-
- /*Register : PCTRL_5 @ 0XFD070800</p>
-
- Enables port n.
- PSU_DDRC_PCTRL_5_PORT_EN 0x1
-
- Port n Control Register
- (OFFSET, MASK, VALUE) (0XFD070800, 0x00000001U ,0x00000001U)
- RegMask = (DDRC_PCTRL_5_PORT_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCTRL_5_PORT_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCTRL_5_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS0_5 @ 0XFD070804</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0 : LPR, 1: VPR, 2: HPR. For dual address queue conf
- gurations, region1 maps to the blue address queue. In this case, valid values are 0: LPR and 1: VPR only. When VPR support is
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_5_RQOS_MAP_REGION1 0x1
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: LPR, 1: VPR, 2: HPR. For dual address queue confi
- urations, region 0 maps to the blue address queue. In this case, valid values are: 0: LPR and 1: VPR only. When VPR support i
- disabled (UMCTL2_VPR_EN = 0) and traffic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR traffic.
- PSU_DDRC_PCFGQOS0_5_RQOS_MAP_REGION0 0x0
-
- Separation level1 indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 13 (for d
- al RAQ) or 0 to 14 (for single RAQ) which corresponds to arqos. Note that for PA, arqos values are used directly as port prio
- ities, where the higher the value corresponds to higher port priority. All of the map_level* registers must be set to distinc
- values.
- PSU_DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1 0x3
-
- Port n Read QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD070804, 0x0033000FU ,0x00100003U)
- RegMask = (DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_MASK | DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_MASK | DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGQOS0_5_RQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGQOS0_5_RQOS_MAP_REGION0_SHIFT
- | 0x00000003U << DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS0_5_OFFSET ,0x0033000FU ,0x00100003U);
- /*############################################################################################################################ */
-
- /*Register : PCFGQOS1_5 @ 0XFD070808</p>
-
- Specifies the timeout value for transactions mapped to the red address queue.
- PSU_DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR 0x0
-
- Specifies the timeout value for transactions mapped to the blue address queue.
- PSU_DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB 0x4f
-
- Port n Read QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070808, 0x07FF07FFU ,0x0000004FU)
- RegMask = (DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_MASK | DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR_SHIFT
- | 0x0000004FU << DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGQOS1_5_OFFSET ,0x07FF07FFU ,0x0000004FU);
- /*############################################################################################################################ */
-
- /*Register : PCFGWQOS0_5 @ 0XFD07080C</p>
-
- This bitfield indicates the traffic class of region 1. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2
- VPW_EN = 0) and traffic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW traffic.
- PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1 0x1
-
- This bitfield indicates the traffic class of region 0. Valid values are: 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2
- VPW_EN = 0) and traffic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW traffic.
- PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0 0x0
-
- Separation level indicating the end of region0 mapping; start of region0 is 0. Possible values for level1 are 0 to 14 which c
- rresponds to awqos. Note that for PA, awqos values are used directly as port priorities, where the higher the value correspon
- s to higher port priority.
- PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL 0x3
-
- Port n Write QoS Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD07080C, 0x0033000FU ,0x00100003U)
- RegMask = (DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_MASK | DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_MASK | DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_MASK | 0 );
-
- RegVal = ((0x00000001U << DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1_SHIFT
- | 0x00000000U << DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0_SHIFT
- | 0x00000003U << DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGWQOS0_5_OFFSET ,0x0033000FU ,0x00100003U);
- /*############################################################################################################################ */
-
- /*Register : PCFGWQOS1_5 @ 0XFD070810</p>
-
- Specifies the timeout value for write transactions.
- PSU_DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT 0x4f
-
- Port n Write QoS Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD070810, 0x000007FFU ,0x0000004FU)
- RegMask = (DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_MASK | 0 );
-
- RegVal = ((0x0000004FU << DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_PCFGWQOS1_5_OFFSET ,0x000007FFU ,0x0000004FU);
- /*############################################################################################################################ */
-
- /*Register : SARBASE0 @ 0XFD070F04</p>
-
- Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x] and araddr[UMCTL2_A_ADDRW-1:x] where x is determine
- by the minimum block size parameter UMCTL2_SARMINSIZE: (x=log2(block size)).
- PSU_DDRC_SARBASE0_BASE_ADDR 0x0
-
- SAR Base Address Register n
- (OFFSET, MASK, VALUE) (0XFD070F04, 0x000001FFU ,0x00000000U)
- RegMask = (DDRC_SARBASE0_BASE_ADDR_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_SARBASE0_BASE_ADDR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_SARBASE0_OFFSET ,0x000001FFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : SARSIZE0 @ 0XFD070F08</p>
-
- Number of blocks for address region n. This register determines the total size of the region in multiples of minimum block si
- e as specified by the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded as number of blocks = nblocks + 1.
- or example, if register is programmed to 0, region will have 1 block.
- PSU_DDRC_SARSIZE0_NBLOCKS 0x0
-
- SAR Size Register n
- (OFFSET, MASK, VALUE) (0XFD070F08, 0x000000FFU ,0x00000000U)
- RegMask = (DDRC_SARSIZE0_NBLOCKS_MASK | 0 );
-
- RegVal = ((0x00000000U << DDRC_SARSIZE0_NBLOCKS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_SARSIZE0_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : SARBASE1 @ 0XFD070F0C</p>
-
- Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x] and araddr[UMCTL2_A_ADDRW-1:x] where x is determine
- by the minimum block size parameter UMCTL2_SARMINSIZE: (x=log2(block size)).
- PSU_DDRC_SARBASE1_BASE_ADDR 0x10
-
- SAR Base Address Register n
- (OFFSET, MASK, VALUE) (0XFD070F0C, 0x000001FFU ,0x00000010U)
- RegMask = (DDRC_SARBASE1_BASE_ADDR_MASK | 0 );
-
- RegVal = ((0x00000010U << DDRC_SARBASE1_BASE_ADDR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_SARBASE1_OFFSET ,0x000001FFU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : SARSIZE1 @ 0XFD070F10</p>
-
- Number of blocks for address region n. This register determines the total size of the region in multiples of minimum block si
- e as specified by the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded as number of blocks = nblocks + 1.
- or example, if register is programmed to 0, region will have 1 block.
- PSU_DDRC_SARSIZE1_NBLOCKS 0xf
-
- SAR Size Register n
- (OFFSET, MASK, VALUE) (0XFD070F10, 0x000000FFU ,0x0000000FU)
- RegMask = (DDRC_SARSIZE1_NBLOCKS_MASK | 0 );
-
- RegVal = ((0x0000000FU << DDRC_SARSIZE1_NBLOCKS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_SARSIZE1_OFFSET ,0x000000FFU ,0x0000000FU);
- /*############################################################################################################################ */
-
- /*Register : DFITMG0_SHADOW @ 0XFD072190</p>
-
- Specifies the number of DFI clock cycles after an assertion or de-assertion of the DFI control signals that the control signa
- s at the PHY-DRAM interface reflect the assertion or de-assertion. If the DFI clock and the memory clock are not phase-aligne
- , this timing parameter should be rounded up to the next integer value. Note that if using RDIMM, it is necessary to incremen
- this parameter by RDIMM's extra cycle of latency in terms of DFI clock.
- PSU_DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY 0x7
-
- Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated using HDR or SDR values Selects whether value in DFITM
- 0.dfi_t_rddata_en is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles R
- fer to PHY specification for correct value.
- PSU_DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR 0x1
-
- Time from the assertion of a read command on the DFI interface to the assertion of the dfi_rddata_en signal. Refer to PHY spe
- ification for correct value. This corresponds to the DFI parameter trddata_en. Note that, depending on the PHY, if using RDIM
- , it may be necessary to use the value (CL + 1) in the calculation of trddata_en. This is to compensate for the extra cycle o
- latency through the RDIMM. Unit: Clocks
- PSU_DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN 0x2
-
- Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated using HDR or SDR values Selects whether value in DFITMG
- .dfi_tphy_wrlat is in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.dfi_tphy_wrdata is in terms of SDR or
- HDR clock cycles - 0 in terms of HDR clock cycles - 1 in terms of SDR clock cycles Refer to PHY specification for correct val
- e.
- PSU_DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR 0x1
-
- Specifies the number of clock cycles between when dfi_wrdata_en is asserted to when the associated write data is driven on th
- dfi_wrdata signal. This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY specification for correct value. N
- te, max supported value is 8. Unit: Clocks
- PSU_DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA 0x0
-
- Write latency Number of clocks from the write command to write data enable (dfi_wrdata_en). This corresponds to the DFI timin
- parameter tphy_wrlat. Refer to PHY specification for correct value.Note that, depending on the PHY, if using RDIMM, it may b
- necessary to use the value (CL + 1) in the calculation of tphy_wrlat. This is to compensate for the extra cycle of latency t
- rough the RDIMM.
- PSU_DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT 0x2
-
- DFI Timing Shadow Register 0
- (OFFSET, MASK, VALUE) (0XFD072190, 0x1FBFBF3FU ,0x07828002U)
- RegMask = (DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_MASK | DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_MASK | DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_MASK | DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_MASK | DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_MASK | DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_MASK | 0 );
-
- RegVal = ((0x00000007U << DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY_SHIFT
- | 0x00000001U << DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR_SHIFT
- | 0x00000002U << DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN_SHIFT
- | 0x00000001U << DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR_SHIFT
- | 0x00000000U << DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA_SHIFT
- | 0x00000002U << DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDRC_DFITMG0_SHADOW_OFFSET ,0x1FBFBF3FU ,0x07828002U);
- /*############################################################################################################################ */
-
- // : DDR CONTROLLER RESET
- /*Register : RST_DDR_SS @ 0XFD1A0108</p>
-
- DDR block level reset inside of the DDR Sub System
- PSU_CRF_APB_RST_DDR_SS_DDR_RESET 0X0
-
- DDR sub system block level reset
- (OFFSET, MASK, VALUE) (0XFD1A0108, 0x00000008U ,0x00000000U)
- RegMask = (CRF_APB_RST_DDR_SS_DDR_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_RST_DDR_SS_DDR_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_DDR_SS_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : DDR PHY
- /*Register : PGCR0 @ 0XFD080010</p>
-
- Address Copy
- PSU_DDR_PHY_PGCR0_ADCP 0x0
-
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_PGCR0_RESERVED_30_27 0x0
-
- PHY FIFO Reset
- PSU_DDR_PHY_PGCR0_PHYFRST 0x1
-
- Oscillator Mode Address/Command Delay Line Select
- PSU_DDR_PHY_PGCR0_OSCACDL 0x3
-
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_PGCR0_RESERVED_23_19 0x0
-
- Digital Test Output Select
- PSU_DDR_PHY_PGCR0_DTOSEL 0x0
-
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_PGCR0_RESERVED_13 0x0
-
- Oscillator Mode Division
- PSU_DDR_PHY_PGCR0_OSCDIV 0xf
-
- Oscillator Enable
- PSU_DDR_PHY_PGCR0_OSCEN 0x0
-
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_PGCR0_RESERVED_7_0 0x0
-
- PHY General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080010, 0xFFFFFFFFU ,0x07001E00U)
- RegMask = (DDR_PHY_PGCR0_ADCP_MASK | DDR_PHY_PGCR0_RESERVED_30_27_MASK | DDR_PHY_PGCR0_PHYFRST_MASK | DDR_PHY_PGCR0_OSCACDL_MASK | DDR_PHY_PGCR0_RESERVED_23_19_MASK | DDR_PHY_PGCR0_DTOSEL_MASK | DDR_PHY_PGCR0_RESERVED_13_MASK | DDR_PHY_PGCR0_OSCDIV_MASK | DDR_PHY_PGCR0_OSCEN_MASK | DDR_PHY_PGCR0_RESERVED_7_0_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_PGCR0_ADCP_SHIFT
- | 0x00000000U << DDR_PHY_PGCR0_RESERVED_30_27_SHIFT
- | 0x00000001U << DDR_PHY_PGCR0_PHYFRST_SHIFT
- | 0x00000003U << DDR_PHY_PGCR0_OSCACDL_SHIFT
- | 0x00000000U << DDR_PHY_PGCR0_RESERVED_23_19_SHIFT
- | 0x00000000U << DDR_PHY_PGCR0_DTOSEL_SHIFT
- | 0x00000000U << DDR_PHY_PGCR0_RESERVED_13_SHIFT
- | 0x0000000FU << DDR_PHY_PGCR0_OSCDIV_SHIFT
- | 0x00000000U << DDR_PHY_PGCR0_OSCEN_SHIFT
- | 0x00000000U << DDR_PHY_PGCR0_RESERVED_7_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PGCR0_OFFSET ,0xFFFFFFFFU ,0x07001E00U);
- /*############################################################################################################################ */
-
- /*Register : PGCR2 @ 0XFD080018</p>
-
- Clear Training Status Registers
- PSU_DDR_PHY_PGCR2_CLRTSTAT 0x0
-
- Clear Impedance Calibration
- PSU_DDR_PHY_PGCR2_CLRZCAL 0x0
-
- Clear Parity Error
- PSU_DDR_PHY_PGCR2_CLRPERR 0x0
-
- Initialization Complete Pin Configuration
- PSU_DDR_PHY_PGCR2_ICPC 0x0
-
- Data Training PUB Mode Exit Timer
- PSU_DDR_PHY_PGCR2_DTPMXTMR 0xf
-
- Initialization Bypass
- PSU_DDR_PHY_PGCR2_INITFSMBYP 0x0
-
- PLL FSM Bypass
- PSU_DDR_PHY_PGCR2_PLLFSMBYP 0x0
-
- Refresh Period
- PSU_DDR_PHY_PGCR2_TREFPRD 0x10028
-
- PHY General Configuration Register 2
- (OFFSET, MASK, VALUE) (0XFD080018, 0xFFFFFFFFU ,0x00F10028U)
- RegMask = (DDR_PHY_PGCR2_CLRTSTAT_MASK | DDR_PHY_PGCR2_CLRZCAL_MASK | DDR_PHY_PGCR2_CLRPERR_MASK | DDR_PHY_PGCR2_ICPC_MASK | DDR_PHY_PGCR2_DTPMXTMR_MASK | DDR_PHY_PGCR2_INITFSMBYP_MASK | DDR_PHY_PGCR2_PLLFSMBYP_MASK | DDR_PHY_PGCR2_TREFPRD_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_PGCR2_CLRTSTAT_SHIFT
- | 0x00000000U << DDR_PHY_PGCR2_CLRZCAL_SHIFT
- | 0x00000000U << DDR_PHY_PGCR2_CLRPERR_SHIFT
- | 0x00000000U << DDR_PHY_PGCR2_ICPC_SHIFT
- | 0x0000000FU << DDR_PHY_PGCR2_DTPMXTMR_SHIFT
- | 0x00000000U << DDR_PHY_PGCR2_INITFSMBYP_SHIFT
- | 0x00000000U << DDR_PHY_PGCR2_PLLFSMBYP_SHIFT
- | 0x00010028U << DDR_PHY_PGCR2_TREFPRD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PGCR2_OFFSET ,0xFFFFFFFFU ,0x00F10028U);
- /*############################################################################################################################ */
-
- /*Register : PGCR3 @ 0XFD08001C</p>
-
- CKN Enable
- PSU_DDR_PHY_PGCR3_CKNEN 0x55
-
- CK Enable
- PSU_DDR_PHY_PGCR3_CKEN 0xaa
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_PGCR3_RESERVED_15 0x0
-
- Enable Clock Gating for AC [0] ctl_rd_clk
- PSU_DDR_PHY_PGCR3_GATEACRDCLK 0x2
-
- Enable Clock Gating for AC [0] ddr_clk
- PSU_DDR_PHY_PGCR3_GATEACDDRCLK 0x2
-
- Enable Clock Gating for AC [0] ctl_clk
- PSU_DDR_PHY_PGCR3_GATEACCTLCLK 0x2
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_PGCR3_RESERVED_8 0x0
-
- Controls DDL Bypass Modes
- PSU_DDR_PHY_PGCR3_DDLBYPMODE 0x2
-
- IO Loop-Back Select
- PSU_DDR_PHY_PGCR3_IOLB 0x0
-
- AC Receive FIFO Read Mode
- PSU_DDR_PHY_PGCR3_RDMODE 0x0
-
- Read FIFO Reset Disable
- PSU_DDR_PHY_PGCR3_DISRST 0x0
-
- Clock Level when Clock Gating
- PSU_DDR_PHY_PGCR3_CLKLEVEL 0x0
-
- PHY General Configuration Register 3
- (OFFSET, MASK, VALUE) (0XFD08001C, 0xFFFFFFFFU ,0x55AA5480U)
- RegMask = (DDR_PHY_PGCR3_CKNEN_MASK | DDR_PHY_PGCR3_CKEN_MASK | DDR_PHY_PGCR3_RESERVED_15_MASK | DDR_PHY_PGCR3_GATEACRDCLK_MASK | DDR_PHY_PGCR3_GATEACDDRCLK_MASK | DDR_PHY_PGCR3_GATEACCTLCLK_MASK | DDR_PHY_PGCR3_RESERVED_8_MASK | DDR_PHY_PGCR3_DDLBYPMODE_MASK | DDR_PHY_PGCR3_IOLB_MASK | DDR_PHY_PGCR3_RDMODE_MASK | DDR_PHY_PGCR3_DISRST_MASK | DDR_PHY_PGCR3_CLKLEVEL_MASK | 0 );
-
- RegVal = ((0x00000055U << DDR_PHY_PGCR3_CKNEN_SHIFT
- | 0x000000AAU << DDR_PHY_PGCR3_CKEN_SHIFT
- | 0x00000000U << DDR_PHY_PGCR3_RESERVED_15_SHIFT
- | 0x00000002U << DDR_PHY_PGCR3_GATEACRDCLK_SHIFT
- | 0x00000002U << DDR_PHY_PGCR3_GATEACDDRCLK_SHIFT
- | 0x00000002U << DDR_PHY_PGCR3_GATEACCTLCLK_SHIFT
- | 0x00000000U << DDR_PHY_PGCR3_RESERVED_8_SHIFT
- | 0x00000002U << DDR_PHY_PGCR3_DDLBYPMODE_SHIFT
- | 0x00000000U << DDR_PHY_PGCR3_IOLB_SHIFT
- | 0x00000000U << DDR_PHY_PGCR3_RDMODE_SHIFT
- | 0x00000000U << DDR_PHY_PGCR3_DISRST_SHIFT
- | 0x00000000U << DDR_PHY_PGCR3_CLKLEVEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PGCR3_OFFSET ,0xFFFFFFFFU ,0x55AA5480U);
- /*############################################################################################################################ */
-
- /*Register : PGCR5 @ 0XFD080024</p>
-
- Frequency B Ratio Term
- PSU_DDR_PHY_PGCR5_FRQBT 0x1
-
- Frequency A Ratio Term
- PSU_DDR_PHY_PGCR5_FRQAT 0x1
-
- DFI Disconnect Time Period
- PSU_DDR_PHY_PGCR5_DISCNPERIOD 0x0
-
- Receiver bias core side control
- PSU_DDR_PHY_PGCR5_VREF_RBCTRL 0xf
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_PGCR5_RESERVED_3 0x0
-
- Internal VREF generator REFSEL ragne select
- PSU_DDR_PHY_PGCR5_DXREFISELRANGE 0x1
-
- DDL Page Read Write select
- PSU_DDR_PHY_PGCR5_DDLPGACT 0x0
-
- DDL Page Read Write select
- PSU_DDR_PHY_PGCR5_DDLPGRW 0x0
-
- PHY General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080024, 0xFFFFFFFFU ,0x010100F4U)
- RegMask = (DDR_PHY_PGCR5_FRQBT_MASK | DDR_PHY_PGCR5_FRQAT_MASK | DDR_PHY_PGCR5_DISCNPERIOD_MASK | DDR_PHY_PGCR5_VREF_RBCTRL_MASK | DDR_PHY_PGCR5_RESERVED_3_MASK | DDR_PHY_PGCR5_DXREFISELRANGE_MASK | DDR_PHY_PGCR5_DDLPGACT_MASK | DDR_PHY_PGCR5_DDLPGRW_MASK | 0 );
-
- RegVal = ((0x00000001U << DDR_PHY_PGCR5_FRQBT_SHIFT
- | 0x00000001U << DDR_PHY_PGCR5_FRQAT_SHIFT
- | 0x00000000U << DDR_PHY_PGCR5_DISCNPERIOD_SHIFT
- | 0x0000000FU << DDR_PHY_PGCR5_VREF_RBCTRL_SHIFT
- | 0x00000000U << DDR_PHY_PGCR5_RESERVED_3_SHIFT
- | 0x00000001U << DDR_PHY_PGCR5_DXREFISELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_PGCR5_DDLPGACT_SHIFT
- | 0x00000000U << DDR_PHY_PGCR5_DDLPGRW_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PGCR5_OFFSET ,0xFFFFFFFFU ,0x010100F4U);
- /*############################################################################################################################ */
-
- /*Register : PTR0 @ 0XFD080040</p>
-
- PLL Power-Down Time
- PSU_DDR_PHY_PTR0_TPLLPD 0x2f0
-
- PLL Gear Shift Time
- PSU_DDR_PHY_PTR0_TPLLGS 0x60
-
- PHY Reset Time
- PSU_DDR_PHY_PTR0_TPHYRST 0x10
-
- PHY Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080040, 0xFFFFFFFFU ,0x5E001810U)
- RegMask = (DDR_PHY_PTR0_TPLLPD_MASK | DDR_PHY_PTR0_TPLLGS_MASK | DDR_PHY_PTR0_TPHYRST_MASK | 0 );
-
- RegVal = ((0x000002F0U << DDR_PHY_PTR0_TPLLPD_SHIFT
- | 0x00000060U << DDR_PHY_PTR0_TPLLGS_SHIFT
- | 0x00000010U << DDR_PHY_PTR0_TPHYRST_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PTR0_OFFSET ,0xFFFFFFFFU ,0x5E001810U);
- /*############################################################################################################################ */
-
- /*Register : PTR1 @ 0XFD080044</p>
-
- PLL Lock Time
- PSU_DDR_PHY_PTR1_TPLLLOCK 0x80
-
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_PTR1_RESERVED_15_13 0x0
-
- PLL Reset Time
- PSU_DDR_PHY_PTR1_TPLLRST 0x5f0
-
- PHY Timing Register 1
- (OFFSET, MASK, VALUE) (0XFD080044, 0xFFFFFFFFU ,0x008005F0U)
- RegMask = (DDR_PHY_PTR1_TPLLLOCK_MASK | DDR_PHY_PTR1_RESERVED_15_13_MASK | DDR_PHY_PTR1_TPLLRST_MASK | 0 );
-
- RegVal = ((0x00000080U << DDR_PHY_PTR1_TPLLLOCK_SHIFT
- | 0x00000000U << DDR_PHY_PTR1_RESERVED_15_13_SHIFT
- | 0x000005F0U << DDR_PHY_PTR1_TPLLRST_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PTR1_OFFSET ,0xFFFFFFFFU ,0x008005F0U);
- /*############################################################################################################################ */
-
- /*Register : DSGCR @ 0XFD080090</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DSGCR_RESERVED_31_28 0x0
-
- When RDBI enabled, this bit is used to select RDBI CL calculation, if it is 1b1, calculation will use RDBICL, otherwise use d
- fault calculation.
- PSU_DDR_PHY_DSGCR_RDBICLSEL 0x0
-
- When RDBI enabled, if RDBICLSEL is asserted, RDBI CL adjust using this value.
- PSU_DDR_PHY_DSGCR_RDBICL 0x2
-
- PHY Impedance Update Enable
- PSU_DDR_PHY_DSGCR_PHYZUEN 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DSGCR_RESERVED_22 0x0
-
- SDRAM Reset Output Enable
- PSU_DDR_PHY_DSGCR_RSTOE 0x1
-
- Single Data Rate Mode
- PSU_DDR_PHY_DSGCR_SDRMODE 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DSGCR_RESERVED_18 0x0
-
- ATO Analog Test Enable
- PSU_DDR_PHY_DSGCR_ATOAE 0x0
-
- DTO Output Enable
- PSU_DDR_PHY_DSGCR_DTOOE 0x0
-
- DTO I/O Mode
- PSU_DDR_PHY_DSGCR_DTOIOM 0x0
-
- DTO Power Down Receiver
- PSU_DDR_PHY_DSGCR_DTOPDR 0x1
-
- Reserved. Return zeroes on reads
- PSU_DDR_PHY_DSGCR_RESERVED_13 0x0
-
- DTO On-Die Termination
- PSU_DDR_PHY_DSGCR_DTOODT 0x0
-
- PHY Update Acknowledge Delay
- PSU_DDR_PHY_DSGCR_PUAD 0x4
-
- Controller Update Acknowledge Enable
- PSU_DDR_PHY_DSGCR_CUAEN 0x1
-
- Reserved. Return zeroes on reads
- PSU_DDR_PHY_DSGCR_RESERVED_4_3 0x0
-
- Controller Impedance Update Enable
- PSU_DDR_PHY_DSGCR_CTLZUEN 0x0
-
- Reserved. Return zeroes on reads
- PSU_DDR_PHY_DSGCR_RESERVED_1 0x0
-
- PHY Update Request Enable
- PSU_DDR_PHY_DSGCR_PUREN 0x1
-
- DDR System General Configuration Register
- (OFFSET, MASK, VALUE) (0XFD080090, 0xFFFFFFFFU ,0x02A04121U)
- RegMask = (DDR_PHY_DSGCR_RESERVED_31_28_MASK | DDR_PHY_DSGCR_RDBICLSEL_MASK | DDR_PHY_DSGCR_RDBICL_MASK | DDR_PHY_DSGCR_PHYZUEN_MASK | DDR_PHY_DSGCR_RESERVED_22_MASK | DDR_PHY_DSGCR_RSTOE_MASK | DDR_PHY_DSGCR_SDRMODE_MASK | DDR_PHY_DSGCR_RESERVED_18_MASK | DDR_PHY_DSGCR_ATOAE_MASK | DDR_PHY_DSGCR_DTOOE_MASK | DDR_PHY_DSGCR_DTOIOM_MASK | DDR_PHY_DSGCR_DTOPDR_MASK | DDR_PHY_DSGCR_RESERVED_13_MASK | DDR_PHY_DSGCR_DTOODT_MASK | DDR_PHY_DSGCR_PUAD_MASK | DDR_PHY_DSGCR_CUAEN_MASK | DDR_PHY_DSGCR_RESERVED_4_3_MASK | DDR_PHY_DSGCR_CTLZUEN_MASK | DDR_PHY_DSGCR_RESERVED_1_MASK | DDR_PHY_DSGCR_PUREN_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DSGCR_RESERVED_31_28_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_RDBICLSEL_SHIFT
- | 0x00000002U << DDR_PHY_DSGCR_RDBICL_SHIFT
- | 0x00000001U << DDR_PHY_DSGCR_PHYZUEN_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_RESERVED_22_SHIFT
- | 0x00000001U << DDR_PHY_DSGCR_RSTOE_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_SDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_RESERVED_18_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_ATOAE_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_DTOOE_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_DTOIOM_SHIFT
- | 0x00000001U << DDR_PHY_DSGCR_DTOPDR_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_RESERVED_13_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_DTOODT_SHIFT
- | 0x00000004U << DDR_PHY_DSGCR_PUAD_SHIFT
- | 0x00000001U << DDR_PHY_DSGCR_CUAEN_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_RESERVED_4_3_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_CTLZUEN_SHIFT
- | 0x00000000U << DDR_PHY_DSGCR_RESERVED_1_SHIFT
- | 0x00000001U << DDR_PHY_DSGCR_PUREN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DSGCR_OFFSET ,0xFFFFFFFFU ,0x02A04121U);
- /*############################################################################################################################ */
-
- /*Register : DCR @ 0XFD080100</p>
-
- DDR4 Gear Down Timing.
- PSU_DDR_PHY_DCR_GEARDN 0x0
-
- Un-used Bank Group
- PSU_DDR_PHY_DCR_UBG 0x0
-
- Un-buffered DIMM Address Mirroring
- PSU_DDR_PHY_DCR_UDIMM 0x0
-
- DDR 2T Timing
- PSU_DDR_PHY_DCR_DDR2T 0x0
-
- No Simultaneous Rank Access
- PSU_DDR_PHY_DCR_NOSRA 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DCR_RESERVED_26_18 0x0
-
- Byte Mask
- PSU_DDR_PHY_DCR_BYTEMASK 0x1
-
- DDR Type
- PSU_DDR_PHY_DCR_DDRTYPE 0x0
-
- Multi-Purpose Register (MPR) DQ (DDR3 Only)
- PSU_DDR_PHY_DCR_MPRDQ 0x0
-
- Primary DQ (DDR3 Only)
- PSU_DDR_PHY_DCR_PDQ 0x0
-
- DDR 8-Bank
- PSU_DDR_PHY_DCR_DDR8BNK 0x1
-
- DDR Mode
- PSU_DDR_PHY_DCR_DDRMD 0x4
-
- DRAM Configuration Register
- (OFFSET, MASK, VALUE) (0XFD080100, 0xFFFFFFFFU ,0x0800040CU)
- RegMask = (DDR_PHY_DCR_GEARDN_MASK | DDR_PHY_DCR_UBG_MASK | DDR_PHY_DCR_UDIMM_MASK | DDR_PHY_DCR_DDR2T_MASK | DDR_PHY_DCR_NOSRA_MASK | DDR_PHY_DCR_RESERVED_26_18_MASK | DDR_PHY_DCR_BYTEMASK_MASK | DDR_PHY_DCR_DDRTYPE_MASK | DDR_PHY_DCR_MPRDQ_MASK | DDR_PHY_DCR_PDQ_MASK | DDR_PHY_DCR_DDR8BNK_MASK | DDR_PHY_DCR_DDRMD_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DCR_GEARDN_SHIFT
- | 0x00000000U << DDR_PHY_DCR_UBG_SHIFT
- | 0x00000000U << DDR_PHY_DCR_UDIMM_SHIFT
- | 0x00000000U << DDR_PHY_DCR_DDR2T_SHIFT
- | 0x00000001U << DDR_PHY_DCR_NOSRA_SHIFT
- | 0x00000000U << DDR_PHY_DCR_RESERVED_26_18_SHIFT
- | 0x00000001U << DDR_PHY_DCR_BYTEMASK_SHIFT
- | 0x00000000U << DDR_PHY_DCR_DDRTYPE_SHIFT
- | 0x00000000U << DDR_PHY_DCR_MPRDQ_SHIFT
- | 0x00000000U << DDR_PHY_DCR_PDQ_SHIFT
- | 0x00000001U << DDR_PHY_DCR_DDR8BNK_SHIFT
- | 0x00000004U << DDR_PHY_DCR_DDRMD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DCR_OFFSET ,0xFFFFFFFFU ,0x0800040CU);
- /*############################################################################################################################ */
-
- /*Register : DTPR0 @ 0XFD080110</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR0_RESERVED_31_29 0x0
-
- Activate to activate command delay (different banks)
- PSU_DDR_PHY_DTPR0_TRRD 0x6
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR0_RESERVED_23 0x0
-
- Activate to precharge command delay
- PSU_DDR_PHY_DTPR0_TRAS 0x24
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR0_RESERVED_15 0x0
-
- Precharge command period
- PSU_DDR_PHY_DTPR0_TRP 0xf
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR0_RESERVED_7_5 0x0
-
- Internal read to precharge command delay
- PSU_DDR_PHY_DTPR0_TRTP 0x9
-
- DRAM Timing Parameters Register 0
- (OFFSET, MASK, VALUE) (0XFD080110, 0xFFFFFFFFU ,0x06240F09U)
- RegMask = (DDR_PHY_DTPR0_RESERVED_31_29_MASK | DDR_PHY_DTPR0_TRRD_MASK | DDR_PHY_DTPR0_RESERVED_23_MASK | DDR_PHY_DTPR0_TRAS_MASK | DDR_PHY_DTPR0_RESERVED_15_MASK | DDR_PHY_DTPR0_TRP_MASK | DDR_PHY_DTPR0_RESERVED_7_5_MASK | DDR_PHY_DTPR0_TRTP_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DTPR0_RESERVED_31_29_SHIFT
- | 0x00000006U << DDR_PHY_DTPR0_TRRD_SHIFT
- | 0x00000000U << DDR_PHY_DTPR0_RESERVED_23_SHIFT
- | 0x00000024U << DDR_PHY_DTPR0_TRAS_SHIFT
- | 0x00000000U << DDR_PHY_DTPR0_RESERVED_15_SHIFT
- | 0x0000000FU << DDR_PHY_DTPR0_TRP_SHIFT
- | 0x00000000U << DDR_PHY_DTPR0_RESERVED_7_5_SHIFT
- | 0x00000009U << DDR_PHY_DTPR0_TRTP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR0_OFFSET ,0xFFFFFFFFU ,0x06240F09U);
- /*############################################################################################################################ */
-
- /*Register : DTPR1 @ 0XFD080114</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR1_RESERVED_31 0x0
-
- Minimum delay from when write leveling mode is programmed to the first DQS/DQS# rising edge.
- PSU_DDR_PHY_DTPR1_TWLMRD 0x28
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR1_RESERVED_23 0x0
-
- 4-bank activate period
- PSU_DDR_PHY_DTPR1_TFAW 0x18
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR1_RESERVED_15_11 0x0
-
- Load mode update delay (DDR4 and DDR3 only)
- PSU_DDR_PHY_DTPR1_TMOD 0x7
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR1_RESERVED_7_5 0x0
-
- Load mode cycle time
- PSU_DDR_PHY_DTPR1_TMRD 0x8
-
- DRAM Timing Parameters Register 1
- (OFFSET, MASK, VALUE) (0XFD080114, 0xFFFFFFFFU ,0x28180708U)
- RegMask = (DDR_PHY_DTPR1_RESERVED_31_MASK | DDR_PHY_DTPR1_TWLMRD_MASK | DDR_PHY_DTPR1_RESERVED_23_MASK | DDR_PHY_DTPR1_TFAW_MASK | DDR_PHY_DTPR1_RESERVED_15_11_MASK | DDR_PHY_DTPR1_TMOD_MASK | DDR_PHY_DTPR1_RESERVED_7_5_MASK | DDR_PHY_DTPR1_TMRD_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DTPR1_RESERVED_31_SHIFT
- | 0x00000028U << DDR_PHY_DTPR1_TWLMRD_SHIFT
- | 0x00000000U << DDR_PHY_DTPR1_RESERVED_23_SHIFT
- | 0x00000018U << DDR_PHY_DTPR1_TFAW_SHIFT
- | 0x00000000U << DDR_PHY_DTPR1_RESERVED_15_11_SHIFT
- | 0x00000007U << DDR_PHY_DTPR1_TMOD_SHIFT
- | 0x00000000U << DDR_PHY_DTPR1_RESERVED_7_5_SHIFT
- | 0x00000008U << DDR_PHY_DTPR1_TMRD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR1_OFFSET ,0xFFFFFFFFU ,0x28180708U);
- /*############################################################################################################################ */
-
- /*Register : DTPR2 @ 0XFD080118</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR2_RESERVED_31_29 0x0
-
- Read to Write command delay. Valid values are
- PSU_DDR_PHY_DTPR2_TRTW 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR2_RESERVED_27_25 0x0
-
- Read to ODT delay (DDR3 only)
- PSU_DDR_PHY_DTPR2_TRTODT 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR2_RESERVED_23_20 0x0
-
- CKE minimum pulse width
- PSU_DDR_PHY_DTPR2_TCKE 0x8
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR2_RESERVED_15_10 0x0
-
- Self refresh exit delay
- PSU_DDR_PHY_DTPR2_TXS 0x200
-
- DRAM Timing Parameters Register 2
- (OFFSET, MASK, VALUE) (0XFD080118, 0xFFFFFFFFU ,0x00080200U)
- RegMask = (DDR_PHY_DTPR2_RESERVED_31_29_MASK | DDR_PHY_DTPR2_TRTW_MASK | DDR_PHY_DTPR2_RESERVED_27_25_MASK | DDR_PHY_DTPR2_TRTODT_MASK | DDR_PHY_DTPR2_RESERVED_23_20_MASK | DDR_PHY_DTPR2_TCKE_MASK | DDR_PHY_DTPR2_RESERVED_15_10_MASK | DDR_PHY_DTPR2_TXS_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DTPR2_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DTPR2_TRTW_SHIFT
- | 0x00000000U << DDR_PHY_DTPR2_RESERVED_27_25_SHIFT
- | 0x00000000U << DDR_PHY_DTPR2_TRTODT_SHIFT
- | 0x00000000U << DDR_PHY_DTPR2_RESERVED_23_20_SHIFT
- | 0x00000008U << DDR_PHY_DTPR2_TCKE_SHIFT
- | 0x00000000U << DDR_PHY_DTPR2_RESERVED_15_10_SHIFT
- | 0x00000200U << DDR_PHY_DTPR2_TXS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR2_OFFSET ,0xFFFFFFFFU ,0x00080200U);
- /*############################################################################################################################ */
-
- /*Register : DTPR3 @ 0XFD08011C</p>
-
- ODT turn-off delay extension
- PSU_DDR_PHY_DTPR3_TOFDX 0x4
-
- Read to read and write to write command delay
- PSU_DDR_PHY_DTPR3_TCCD 0x0
-
- DLL locking time
- PSU_DDR_PHY_DTPR3_TDLLK 0x300
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR3_RESERVED_15_12 0x0
-
- Maximum DQS output access time from CK/CK# (LPDDR2/3 only)
- PSU_DDR_PHY_DTPR3_TDQSCKMAX 0x8
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR3_RESERVED_7_3 0x0
-
- DQS output access time from CK/CK# (LPDDR2/3 only)
- PSU_DDR_PHY_DTPR3_TDQSCK 0x0
-
- DRAM Timing Parameters Register 3
- (OFFSET, MASK, VALUE) (0XFD08011C, 0xFFFFFFFFU ,0x83000800U)
- RegMask = (DDR_PHY_DTPR3_TOFDX_MASK | DDR_PHY_DTPR3_TCCD_MASK | DDR_PHY_DTPR3_TDLLK_MASK | DDR_PHY_DTPR3_RESERVED_15_12_MASK | DDR_PHY_DTPR3_TDQSCKMAX_MASK | DDR_PHY_DTPR3_RESERVED_7_3_MASK | DDR_PHY_DTPR3_TDQSCK_MASK | 0 );
-
- RegVal = ((0x00000004U << DDR_PHY_DTPR3_TOFDX_SHIFT
- | 0x00000000U << DDR_PHY_DTPR3_TCCD_SHIFT
- | 0x00000300U << DDR_PHY_DTPR3_TDLLK_SHIFT
- | 0x00000000U << DDR_PHY_DTPR3_RESERVED_15_12_SHIFT
- | 0x00000008U << DDR_PHY_DTPR3_TDQSCKMAX_SHIFT
- | 0x00000000U << DDR_PHY_DTPR3_RESERVED_7_3_SHIFT
- | 0x00000000U << DDR_PHY_DTPR3_TDQSCK_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR3_OFFSET ,0xFFFFFFFFU ,0x83000800U);
- /*############################################################################################################################ */
-
- /*Register : DTPR4 @ 0XFD080120</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR4_RESERVED_31_30 0x0
-
- ODT turn-on/turn-off delays (DDR2 only)
- PSU_DDR_PHY_DTPR4_TAOND_TAOFD 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR4_RESERVED_27_26 0x0
-
- Refresh-to-Refresh
- PSU_DDR_PHY_DTPR4_TRFC 0x116
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR4_RESERVED_15_14 0x0
-
- Write leveling output delay
- PSU_DDR_PHY_DTPR4_TWLO 0x2b
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR4_RESERVED_7_5 0x0
-
- Power down exit delay
- PSU_DDR_PHY_DTPR4_TXP 0x8
-
- DRAM Timing Parameters Register 4
- (OFFSET, MASK, VALUE) (0XFD080120, 0xFFFFFFFFU ,0x01162B08U)
- RegMask = (DDR_PHY_DTPR4_RESERVED_31_30_MASK | DDR_PHY_DTPR4_TAOND_TAOFD_MASK | DDR_PHY_DTPR4_RESERVED_27_26_MASK | DDR_PHY_DTPR4_TRFC_MASK | DDR_PHY_DTPR4_RESERVED_15_14_MASK | DDR_PHY_DTPR4_TWLO_MASK | DDR_PHY_DTPR4_RESERVED_7_5_MASK | DDR_PHY_DTPR4_TXP_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DTPR4_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_DTPR4_TAOND_TAOFD_SHIFT
- | 0x00000000U << DDR_PHY_DTPR4_RESERVED_27_26_SHIFT
- | 0x00000116U << DDR_PHY_DTPR4_TRFC_SHIFT
- | 0x00000000U << DDR_PHY_DTPR4_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DTPR4_TWLO_SHIFT
- | 0x00000000U << DDR_PHY_DTPR4_RESERVED_7_5_SHIFT
- | 0x00000008U << DDR_PHY_DTPR4_TXP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR4_OFFSET ,0xFFFFFFFFU ,0x01162B08U);
- /*############################################################################################################################ */
-
- /*Register : DTPR5 @ 0XFD080124</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR5_RESERVED_31_24 0x0
-
- Activate to activate command delay (same bank)
- PSU_DDR_PHY_DTPR5_TRC 0x32
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR5_RESERVED_15 0x0
-
- Activate to read or write delay
- PSU_DDR_PHY_DTPR5_TRCD 0xf
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR5_RESERVED_7_5 0x0
-
- Internal write to read command delay
- PSU_DDR_PHY_DTPR5_TWTR 0x9
-
- DRAM Timing Parameters Register 5
- (OFFSET, MASK, VALUE) (0XFD080124, 0xFFFFFFFFU ,0x00320F09U)
- RegMask = (DDR_PHY_DTPR5_RESERVED_31_24_MASK | DDR_PHY_DTPR5_TRC_MASK | DDR_PHY_DTPR5_RESERVED_15_MASK | DDR_PHY_DTPR5_TRCD_MASK | DDR_PHY_DTPR5_RESERVED_7_5_MASK | DDR_PHY_DTPR5_TWTR_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DTPR5_RESERVED_31_24_SHIFT
- | 0x00000032U << DDR_PHY_DTPR5_TRC_SHIFT
- | 0x00000000U << DDR_PHY_DTPR5_RESERVED_15_SHIFT
- | 0x0000000FU << DDR_PHY_DTPR5_TRCD_SHIFT
- | 0x00000000U << DDR_PHY_DTPR5_RESERVED_7_5_SHIFT
- | 0x00000009U << DDR_PHY_DTPR5_TWTR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR5_OFFSET ,0xFFFFFFFFU ,0x00320F09U);
- /*############################################################################################################################ */
-
- /*Register : DTPR6 @ 0XFD080128</p>
-
- PUB Write Latency Enable
- PSU_DDR_PHY_DTPR6_PUBWLEN 0x0
-
- PUB Read Latency Enable
- PSU_DDR_PHY_DTPR6_PUBRLEN 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR6_RESERVED_29_14 0x0
-
- Write Latency
- PSU_DDR_PHY_DTPR6_PUBWL 0xe
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTPR6_RESERVED_7_6 0x0
-
- Read Latency
- PSU_DDR_PHY_DTPR6_PUBRL 0xf
-
- DRAM Timing Parameters Register 6
- (OFFSET, MASK, VALUE) (0XFD080128, 0xFFFFFFFFU ,0x00000E0FU)
- RegMask = (DDR_PHY_DTPR6_PUBWLEN_MASK | DDR_PHY_DTPR6_PUBRLEN_MASK | DDR_PHY_DTPR6_RESERVED_29_14_MASK | DDR_PHY_DTPR6_PUBWL_MASK | DDR_PHY_DTPR6_RESERVED_7_6_MASK | DDR_PHY_DTPR6_PUBRL_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_DTPR6_PUBWLEN_SHIFT
- | 0x00000000U << DDR_PHY_DTPR6_PUBRLEN_SHIFT
- | 0x00000000U << DDR_PHY_DTPR6_RESERVED_29_14_SHIFT
- | 0x0000000EU << DDR_PHY_DTPR6_PUBWL_SHIFT
- | 0x00000000U << DDR_PHY_DTPR6_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DTPR6_PUBRL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTPR6_OFFSET ,0xFFFFFFFFU ,0x00000E0FU);
- /*############################################################################################################################ */
-
- /*Register : RDIMMGCR0 @ 0XFD080140</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RESERVED_31 0x0
-
- RDMIMM Quad CS Enable
- PSU_DDR_PHY_RDIMMGCR0_QCSEN 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RESERVED_29_28 0x0
-
- RDIMM Outputs I/O Mode
- PSU_DDR_PHY_RDIMMGCR0_RDIMMIOM 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RESERVED_26_24 0x0
-
- ERROUT# Output Enable
- PSU_DDR_PHY_RDIMMGCR0_ERROUTOE 0x0
-
- ERROUT# I/O Mode
- PSU_DDR_PHY_RDIMMGCR0_ERROUTIOM 0x1
-
- ERROUT# Power Down Receiver
- PSU_DDR_PHY_RDIMMGCR0_ERROUTPDR 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RESERVED_20 0x0
-
- ERROUT# On-Die Termination
- PSU_DDR_PHY_RDIMMGCR0_ERROUTODT 0x0
-
- Load Reduced DIMM
- PSU_DDR_PHY_RDIMMGCR0_LRDIMM 0x0
-
- PAR_IN I/O Mode
- PSU_DDR_PHY_RDIMMGCR0_PARINIOM 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RESERVED_16_8 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD 0x0
-
- Rank Mirror Enable.
- PSU_DDR_PHY_RDIMMGCR0_RNKMRREN 0x2
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR0_RESERVED_3 0x0
-
- Stop on Parity Error
- PSU_DDR_PHY_RDIMMGCR0_SOPERR 0x0
-
- Parity Error No Registering
- PSU_DDR_PHY_RDIMMGCR0_ERRNOREG 0x0
-
- Registered DIMM
- PSU_DDR_PHY_RDIMMGCR0_RDIMM 0x0
-
- RDIMM General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080140, 0xFFFFFFFFU ,0x08400020U)
- RegMask = (DDR_PHY_RDIMMGCR0_RESERVED_31_MASK | DDR_PHY_RDIMMGCR0_QCSEN_MASK | DDR_PHY_RDIMMGCR0_RESERVED_29_28_MASK | DDR_PHY_RDIMMGCR0_RDIMMIOM_MASK | DDR_PHY_RDIMMGCR0_RESERVED_26_24_MASK | DDR_PHY_RDIMMGCR0_ERROUTOE_MASK | DDR_PHY_RDIMMGCR0_ERROUTIOM_MASK | DDR_PHY_RDIMMGCR0_ERROUTPDR_MASK | DDR_PHY_RDIMMGCR0_RESERVED_20_MASK | DDR_PHY_RDIMMGCR0_ERROUTODT_MASK | DDR_PHY_RDIMMGCR0_LRDIMM_MASK | DDR_PHY_RDIMMGCR0_PARINIOM_MASK | DDR_PHY_RDIMMGCR0_RESERVED_16_8_MASK | DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_MASK | DDR_PHY_RDIMMGCR0_RNKMRREN_MASK | DDR_PHY_RDIMMGCR0_RESERVED_3_MASK | DDR_PHY_RDIMMGCR0_SOPERR_MASK | DDR_PHY_RDIMMGCR0_ERRNOREG_MASK | DDR_PHY_RDIMMGCR0_RDIMM_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_31_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_QCSEN_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_29_28_SHIFT
- | 0x00000001U << DDR_PHY_RDIMMGCR0_RDIMMIOM_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_26_24_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_ERROUTOE_SHIFT
- | 0x00000001U << DDR_PHY_RDIMMGCR0_ERROUTIOM_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_ERROUTPDR_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_20_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_ERROUTODT_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_LRDIMM_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_PARINIOM_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_16_8_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD_SHIFT
- | 0x00000002U << DDR_PHY_RDIMMGCR0_RNKMRREN_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RESERVED_3_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_SOPERR_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_ERRNOREG_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR0_RDIMM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_RDIMMGCR0_OFFSET ,0xFFFFFFFFU ,0x08400020U);
- /*############################################################################################################################ */
-
- /*Register : RDIMMGCR1 @ 0XFD080144</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR1_RESERVED_31_29 0x0
-
- Address [17] B-side Inversion Disable
- PSU_DDR_PHY_RDIMMGCR1_A17BID 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR1_RESERVED_27 0x0
-
- Command word to command word programming delay
- PSU_DDR_PHY_RDIMMGCR1_TBCMRD_L2 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR1_RESERVED_23 0x0
-
- Command word to command word programming delay
- PSU_DDR_PHY_RDIMMGCR1_TBCMRD_L 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR1_RESERVED_19 0x0
-
- Command word to command word programming delay
- PSU_DDR_PHY_RDIMMGCR1_TBCMRD 0x0
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RDIMMGCR1_RESERVED_15_14 0x0
-
- Stabilization time
- PSU_DDR_PHY_RDIMMGCR1_TBCSTAB 0xc80
-
- RDIMM General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080144, 0xFFFFFFFFU ,0x00000C80U)
- RegMask = (DDR_PHY_RDIMMGCR1_RESERVED_31_29_MASK | DDR_PHY_RDIMMGCR1_A17BID_MASK | DDR_PHY_RDIMMGCR1_RESERVED_27_MASK | DDR_PHY_RDIMMGCR1_TBCMRD_L2_MASK | DDR_PHY_RDIMMGCR1_RESERVED_23_MASK | DDR_PHY_RDIMMGCR1_TBCMRD_L_MASK | DDR_PHY_RDIMMGCR1_RESERVED_19_MASK | DDR_PHY_RDIMMGCR1_TBCMRD_MASK | DDR_PHY_RDIMMGCR1_RESERVED_15_14_MASK | DDR_PHY_RDIMMGCR1_TBCSTAB_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_A17BID_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_27_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_TBCMRD_L2_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_23_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_TBCMRD_L_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_19_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_TBCMRD_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMGCR1_RESERVED_15_14_SHIFT
- | 0x00000C80U << DDR_PHY_RDIMMGCR1_TBCSTAB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_RDIMMGCR1_OFFSET ,0xFFFFFFFFU ,0x00000C80U);
- /*############################################################################################################################ */
-
- /*Register : RDIMMCR0 @ 0XFD080150</p>
-
- DDR4/DDR3 Control Word 7
- PSU_DDR_PHY_RDIMMCR0_RC7 0x0
-
- DDR4 Control Word 6 (Comman space Control Word) / DDR3 Reserved
- PSU_DDR_PHY_RDIMMCR0_RC6 0x0
-
- DDR4/DDR3 Control Word 5 (CK Driver Characteristics Control Word)
- PSU_DDR_PHY_RDIMMCR0_RC5 0x0
-
- DDR4 Control Word 4 (ODT and CKE Signals Driver Characteristics Control Word) / DDR3 Control Word 4 (Control Signals Driver C
- aracteristics Control Word)
- PSU_DDR_PHY_RDIMMCR0_RC4 0x0
-
- DDR4 Control Word 3 (CA and CS Signals Driver Characteristics Control Word) / DDR3 Control Word 3 (Command/Address Signals Dr
- ver Characteristrics Control Word)
- PSU_DDR_PHY_RDIMMCR0_RC3 0x0
-
- DDR4 Control Word 2 (Timing and IBT Control Word) / DDR3 Control Word 2 (Timing Control Word)
- PSU_DDR_PHY_RDIMMCR0_RC2 0x0
-
- DDR4/DDR3 Control Word 1 (Clock Driver Enable Control Word)
- PSU_DDR_PHY_RDIMMCR0_RC1 0x0
-
- DDR4/DDR3 Control Word 0 (Global Features Control Word)
- PSU_DDR_PHY_RDIMMCR0_RC0 0x0
-
- RDIMM Control Register 0
- (OFFSET, MASK, VALUE) (0XFD080150, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_RDIMMCR0_RC7_MASK | DDR_PHY_RDIMMCR0_RC6_MASK | DDR_PHY_RDIMMCR0_RC5_MASK | DDR_PHY_RDIMMCR0_RC4_MASK | DDR_PHY_RDIMMCR0_RC3_MASK | DDR_PHY_RDIMMCR0_RC2_MASK | DDR_PHY_RDIMMCR0_RC1_MASK | DDR_PHY_RDIMMCR0_RC0_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_RDIMMCR0_RC7_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC6_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC5_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC4_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC3_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC2_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC1_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR0_RC0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_RDIMMCR0_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : RDIMMCR1 @ 0XFD080154</p>
-
- Control Word 15
- PSU_DDR_PHY_RDIMMCR1_RC15 0x0
-
- DDR4 Control Word 14 (Parity Control Word) / DDR3 Reserved
- PSU_DDR_PHY_RDIMMCR1_RC14 0x0
-
- DDR4 Control Word 13 (DIMM Configuration Control Word) / DDR3 Reserved
- PSU_DDR_PHY_RDIMMCR1_RC13 0x0
-
- DDR4 Control Word 12 (Training Control Word) / DDR3 Reserved
- PSU_DDR_PHY_RDIMMCR1_RC12 0x0
-
- DDR4 Control Word 11 (Operating Voltage VDD and VREFCA Source Control Word) / DDR3 Control Word 11 (Operation Voltage VDD Con
- rol Word)
- PSU_DDR_PHY_RDIMMCR1_RC11 0x0
-
- DDR4/DDR3 Control Word 10 (RDIMM Operating Speed Control Word)
- PSU_DDR_PHY_RDIMMCR1_RC10 0x2
-
- DDR4/DDR3 Control Word 9 (Power Saving Settings Control Word)
- PSU_DDR_PHY_RDIMMCR1_RC9 0x0
-
- DDR4 Control Word 8 (Input/Output Configuration Control Word) / DDR3 Control Word 8 (Additional Input Bus Termination Setting
- Control Word)
- PSU_DDR_PHY_RDIMMCR1_RC8 0x0
-
- RDIMM Control Register 1
- (OFFSET, MASK, VALUE) (0XFD080154, 0xFFFFFFFFU ,0x00000200U)
- RegMask = (DDR_PHY_RDIMMCR1_RC15_MASK | DDR_PHY_RDIMMCR1_RC14_MASK | DDR_PHY_RDIMMCR1_RC13_MASK | DDR_PHY_RDIMMCR1_RC12_MASK | DDR_PHY_RDIMMCR1_RC11_MASK | DDR_PHY_RDIMMCR1_RC10_MASK | DDR_PHY_RDIMMCR1_RC9_MASK | DDR_PHY_RDIMMCR1_RC8_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_RDIMMCR1_RC15_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR1_RC14_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR1_RC13_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR1_RC12_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR1_RC11_SHIFT
- | 0x00000002U << DDR_PHY_RDIMMCR1_RC10_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR1_RC9_SHIFT
- | 0x00000000U << DDR_PHY_RDIMMCR1_RC8_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_RDIMMCR1_OFFSET ,0xFFFFFFFFU ,0x00000200U);
- /*############################################################################################################################ */
-
- /*Register : MR0 @ 0XFD080180</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR0_RESERVED_31_8 0x8
-
- CA Terminating Rank
- PSU_DDR_PHY_MR0_CATR 0x0
-
- Reserved. These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR0_RSVD_6_5 0x1
-
- Built-in Self-Test for RZQ
- PSU_DDR_PHY_MR0_RZQI 0x2
-
- Reserved. These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR0_RSVD_2_0 0x0
-
- LPDDR4 Mode Register 0
- (OFFSET, MASK, VALUE) (0XFD080180, 0xFFFFFFFFU ,0x00000830U)
- RegMask = (DDR_PHY_MR0_RESERVED_31_8_MASK | DDR_PHY_MR0_CATR_MASK | DDR_PHY_MR0_RSVD_6_5_MASK | DDR_PHY_MR0_RZQI_MASK | DDR_PHY_MR0_RSVD_2_0_MASK | 0 );
-
- RegVal = ((0x00000008U << DDR_PHY_MR0_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR0_CATR_SHIFT
- | 0x00000001U << DDR_PHY_MR0_RSVD_6_5_SHIFT
- | 0x00000002U << DDR_PHY_MR0_RZQI_SHIFT
- | 0x00000000U << DDR_PHY_MR0_RSVD_2_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR0_OFFSET ,0xFFFFFFFFU ,0x00000830U);
- /*############################################################################################################################ */
-
- /*Register : MR1 @ 0XFD080184</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR1_RESERVED_31_8 0x3
-
- Read Postamble Length
- PSU_DDR_PHY_MR1_RDPST 0x0
-
- Write-recovery for auto-precharge command
- PSU_DDR_PHY_MR1_NWR 0x0
-
- Read Preamble Length
- PSU_DDR_PHY_MR1_RDPRE 0x0
-
- Write Preamble Length
- PSU_DDR_PHY_MR1_WRPRE 0x0
-
- Burst Length
- PSU_DDR_PHY_MR1_BL 0x1
-
- LPDDR4 Mode Register 1
- (OFFSET, MASK, VALUE) (0XFD080184, 0xFFFFFFFFU ,0x00000301U)
- RegMask = (DDR_PHY_MR1_RESERVED_31_8_MASK | DDR_PHY_MR1_RDPST_MASK | DDR_PHY_MR1_NWR_MASK | DDR_PHY_MR1_RDPRE_MASK | DDR_PHY_MR1_WRPRE_MASK | DDR_PHY_MR1_BL_MASK | 0 );
-
- RegVal = ((0x00000003U << DDR_PHY_MR1_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR1_RDPST_SHIFT
- | 0x00000000U << DDR_PHY_MR1_NWR_SHIFT
- | 0x00000000U << DDR_PHY_MR1_RDPRE_SHIFT
- | 0x00000000U << DDR_PHY_MR1_WRPRE_SHIFT
- | 0x00000001U << DDR_PHY_MR1_BL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR1_OFFSET ,0xFFFFFFFFU ,0x00000301U);
- /*############################################################################################################################ */
-
- /*Register : MR2 @ 0XFD080188</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR2_RESERVED_31_8 0x0
-
- Write Leveling
- PSU_DDR_PHY_MR2_WRL 0x0
-
- Write Latency Set
- PSU_DDR_PHY_MR2_WLS 0x0
-
- Write Latency
- PSU_DDR_PHY_MR2_WL 0x4
-
- Read Latency
- PSU_DDR_PHY_MR2_RL 0x0
-
- LPDDR4 Mode Register 2
- (OFFSET, MASK, VALUE) (0XFD080188, 0xFFFFFFFFU ,0x00000020U)
- RegMask = (DDR_PHY_MR2_RESERVED_31_8_MASK | DDR_PHY_MR2_WRL_MASK | DDR_PHY_MR2_WLS_MASK | DDR_PHY_MR2_WL_MASK | DDR_PHY_MR2_RL_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR2_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR2_WRL_SHIFT
- | 0x00000000U << DDR_PHY_MR2_WLS_SHIFT
- | 0x00000004U << DDR_PHY_MR2_WL_SHIFT
- | 0x00000000U << DDR_PHY_MR2_RL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR2_OFFSET ,0xFFFFFFFFU ,0x00000020U);
- /*############################################################################################################################ */
-
- /*Register : MR3 @ 0XFD08018C</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR3_RESERVED_31_8 0x2
-
- DBI-Write Enable
- PSU_DDR_PHY_MR3_DBIWR 0x0
-
- DBI-Read Enable
- PSU_DDR_PHY_MR3_DBIRD 0x0
-
- Pull-down Drive Strength
- PSU_DDR_PHY_MR3_PDDS 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR3_RSVD 0x0
-
- Write Postamble Length
- PSU_DDR_PHY_MR3_WRPST 0x0
-
- Pull-up Calibration Point
- PSU_DDR_PHY_MR3_PUCAL 0x0
-
- LPDDR4 Mode Register 3
- (OFFSET, MASK, VALUE) (0XFD08018C, 0xFFFFFFFFU ,0x00000200U)
- RegMask = (DDR_PHY_MR3_RESERVED_31_8_MASK | DDR_PHY_MR3_DBIWR_MASK | DDR_PHY_MR3_DBIRD_MASK | DDR_PHY_MR3_PDDS_MASK | DDR_PHY_MR3_RSVD_MASK | DDR_PHY_MR3_WRPST_MASK | DDR_PHY_MR3_PUCAL_MASK | 0 );
-
- RegVal = ((0x00000002U << DDR_PHY_MR3_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR3_DBIWR_SHIFT
- | 0x00000000U << DDR_PHY_MR3_DBIRD_SHIFT
- | 0x00000000U << DDR_PHY_MR3_PDDS_SHIFT
- | 0x00000000U << DDR_PHY_MR3_RSVD_SHIFT
- | 0x00000000U << DDR_PHY_MR3_WRPST_SHIFT
- | 0x00000000U << DDR_PHY_MR3_PUCAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR3_OFFSET ,0xFFFFFFFFU ,0x00000200U);
- /*############################################################################################################################ */
-
- /*Register : MR4 @ 0XFD080190</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR4_RESERVED_31_16 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR4_RSVD_15_13 0x0
-
- Write Preamble
- PSU_DDR_PHY_MR4_WRP 0x0
-
- Read Preamble
- PSU_DDR_PHY_MR4_RDP 0x0
-
- Read Preamble Training Mode
- PSU_DDR_PHY_MR4_RPTM 0x0
-
- Self Refresh Abort
- PSU_DDR_PHY_MR4_SRA 0x0
-
- CS to Command Latency Mode
- PSU_DDR_PHY_MR4_CS2CMDL 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR4_RSVD1 0x0
-
- Internal VREF Monitor
- PSU_DDR_PHY_MR4_IVM 0x0
-
- Temperature Controlled Refresh Mode
- PSU_DDR_PHY_MR4_TCRM 0x0
-
- Temperature Controlled Refresh Range
- PSU_DDR_PHY_MR4_TCRR 0x0
-
- Maximum Power Down Mode
- PSU_DDR_PHY_MR4_MPDM 0x0
-
- This is a JEDEC reserved bit and is recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR4_RSVD_0 0x0
-
- DDR4 Mode Register 4
- (OFFSET, MASK, VALUE) (0XFD080190, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_MR4_RESERVED_31_16_MASK | DDR_PHY_MR4_RSVD_15_13_MASK | DDR_PHY_MR4_WRP_MASK | DDR_PHY_MR4_RDP_MASK | DDR_PHY_MR4_RPTM_MASK | DDR_PHY_MR4_SRA_MASK | DDR_PHY_MR4_CS2CMDL_MASK | DDR_PHY_MR4_RSVD1_MASK | DDR_PHY_MR4_IVM_MASK | DDR_PHY_MR4_TCRM_MASK | DDR_PHY_MR4_TCRR_MASK | DDR_PHY_MR4_MPDM_MASK | DDR_PHY_MR4_RSVD_0_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR4_RESERVED_31_16_SHIFT
- | 0x00000000U << DDR_PHY_MR4_RSVD_15_13_SHIFT
- | 0x00000000U << DDR_PHY_MR4_WRP_SHIFT
- | 0x00000000U << DDR_PHY_MR4_RDP_SHIFT
- | 0x00000000U << DDR_PHY_MR4_RPTM_SHIFT
- | 0x00000000U << DDR_PHY_MR4_SRA_SHIFT
- | 0x00000000U << DDR_PHY_MR4_CS2CMDL_SHIFT
- | 0x00000000U << DDR_PHY_MR4_RSVD1_SHIFT
- | 0x00000000U << DDR_PHY_MR4_IVM_SHIFT
- | 0x00000000U << DDR_PHY_MR4_TCRM_SHIFT
- | 0x00000000U << DDR_PHY_MR4_TCRR_SHIFT
- | 0x00000000U << DDR_PHY_MR4_MPDM_SHIFT
- | 0x00000000U << DDR_PHY_MR4_RSVD_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR4_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MR5 @ 0XFD080194</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR5_RESERVED_31_16 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR5_RSVD 0x0
-
- Read DBI
- PSU_DDR_PHY_MR5_RDBI 0x0
-
- Write DBI
- PSU_DDR_PHY_MR5_WDBI 0x0
-
- Data Mask
- PSU_DDR_PHY_MR5_DM 0x1
-
- CA Parity Persistent Error
- PSU_DDR_PHY_MR5_CAPPE 0x1
-
- RTT_PARK
- PSU_DDR_PHY_MR5_RTTPARK 0x3
-
- ODT Input Buffer during Power Down mode
- PSU_DDR_PHY_MR5_ODTIBPD 0x0
-
- C/A Parity Error Status
- PSU_DDR_PHY_MR5_CAPES 0x0
-
- CRC Error Clear
- PSU_DDR_PHY_MR5_CRCEC 0x0
-
- C/A Parity Latency Mode
- PSU_DDR_PHY_MR5_CAPM 0x0
-
- DDR4 Mode Register 5
- (OFFSET, MASK, VALUE) (0XFD080194, 0xFFFFFFFFU ,0x000006C0U)
- RegMask = (DDR_PHY_MR5_RESERVED_31_16_MASK | DDR_PHY_MR5_RSVD_MASK | DDR_PHY_MR5_RDBI_MASK | DDR_PHY_MR5_WDBI_MASK | DDR_PHY_MR5_DM_MASK | DDR_PHY_MR5_CAPPE_MASK | DDR_PHY_MR5_RTTPARK_MASK | DDR_PHY_MR5_ODTIBPD_MASK | DDR_PHY_MR5_CAPES_MASK | DDR_PHY_MR5_CRCEC_MASK | DDR_PHY_MR5_CAPM_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR5_RESERVED_31_16_SHIFT
- | 0x00000000U << DDR_PHY_MR5_RSVD_SHIFT
- | 0x00000000U << DDR_PHY_MR5_RDBI_SHIFT
- | 0x00000000U << DDR_PHY_MR5_WDBI_SHIFT
- | 0x00000001U << DDR_PHY_MR5_DM_SHIFT
- | 0x00000001U << DDR_PHY_MR5_CAPPE_SHIFT
- | 0x00000003U << DDR_PHY_MR5_RTTPARK_SHIFT
- | 0x00000000U << DDR_PHY_MR5_ODTIBPD_SHIFT
- | 0x00000000U << DDR_PHY_MR5_CAPES_SHIFT
- | 0x00000000U << DDR_PHY_MR5_CRCEC_SHIFT
- | 0x00000000U << DDR_PHY_MR5_CAPM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR5_OFFSET ,0xFFFFFFFFU ,0x000006C0U);
- /*############################################################################################################################ */
-
- /*Register : MR6 @ 0XFD080198</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR6_RESERVED_31_16 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR6_RSVD_15_13 0x0
-
- CAS_n to CAS_n command delay for same bank group (tCCD_L)
- PSU_DDR_PHY_MR6_TCCDL 0x2
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR6_RSVD_9_8 0x0
-
- VrefDQ Training Enable
- PSU_DDR_PHY_MR6_VDDQTEN 0x0
-
- VrefDQ Training Range
- PSU_DDR_PHY_MR6_VDQTRG 0x0
-
- VrefDQ Training Values
- PSU_DDR_PHY_MR6_VDQTVAL 0x19
-
- DDR4 Mode Register 6
- (OFFSET, MASK, VALUE) (0XFD080198, 0xFFFFFFFFU ,0x00000819U)
- RegMask = (DDR_PHY_MR6_RESERVED_31_16_MASK | DDR_PHY_MR6_RSVD_15_13_MASK | DDR_PHY_MR6_TCCDL_MASK | DDR_PHY_MR6_RSVD_9_8_MASK | DDR_PHY_MR6_VDDQTEN_MASK | DDR_PHY_MR6_VDQTRG_MASK | DDR_PHY_MR6_VDQTVAL_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR6_RESERVED_31_16_SHIFT
- | 0x00000000U << DDR_PHY_MR6_RSVD_15_13_SHIFT
- | 0x00000002U << DDR_PHY_MR6_TCCDL_SHIFT
- | 0x00000000U << DDR_PHY_MR6_RSVD_9_8_SHIFT
- | 0x00000000U << DDR_PHY_MR6_VDDQTEN_SHIFT
- | 0x00000000U << DDR_PHY_MR6_VDQTRG_SHIFT
- | 0x00000019U << DDR_PHY_MR6_VDQTVAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR6_OFFSET ,0xFFFFFFFFU ,0x00000819U);
- /*############################################################################################################################ */
-
- /*Register : MR11 @ 0XFD0801AC</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR11_RESERVED_31_8 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR11_RSVD 0x0
-
- Power Down Control
- PSU_DDR_PHY_MR11_PDCTL 0x0
-
- DQ Bus Receiver On-Die-Termination
- PSU_DDR_PHY_MR11_DQODT 0x0
-
- LPDDR4 Mode Register 11
- (OFFSET, MASK, VALUE) (0XFD0801AC, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_MR11_RESERVED_31_8_MASK | DDR_PHY_MR11_RSVD_MASK | DDR_PHY_MR11_PDCTL_MASK | DDR_PHY_MR11_DQODT_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR11_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR11_RSVD_SHIFT
- | 0x00000000U << DDR_PHY_MR11_PDCTL_SHIFT
- | 0x00000000U << DDR_PHY_MR11_DQODT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR11_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MR12 @ 0XFD0801B0</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR12_RESERVED_31_8 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR12_RSVD 0x0
-
- VREF_CA Range Select.
- PSU_DDR_PHY_MR12_VR_CA 0x1
-
- Controls the VREF(ca) levels for Frequency-Set-Point[1:0].
- PSU_DDR_PHY_MR12_VREF_CA 0xd
-
- LPDDR4 Mode Register 12
- (OFFSET, MASK, VALUE) (0XFD0801B0, 0xFFFFFFFFU ,0x0000004DU)
- RegMask = (DDR_PHY_MR12_RESERVED_31_8_MASK | DDR_PHY_MR12_RSVD_MASK | DDR_PHY_MR12_VR_CA_MASK | DDR_PHY_MR12_VREF_CA_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR12_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR12_RSVD_SHIFT
- | 0x00000001U << DDR_PHY_MR12_VR_CA_SHIFT
- | 0x0000000DU << DDR_PHY_MR12_VREF_CA_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR12_OFFSET ,0xFFFFFFFFU ,0x0000004DU);
- /*############################################################################################################################ */
-
- /*Register : MR13 @ 0XFD0801B4</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR13_RESERVED_31_8 0x0
-
- Frequency Set Point Operation Mode
- PSU_DDR_PHY_MR13_FSPOP 0x0
-
- Frequency Set Point Write Enable
- PSU_DDR_PHY_MR13_FSPWR 0x0
-
- Data Mask Enable
- PSU_DDR_PHY_MR13_DMD 0x0
-
- Refresh Rate Option
- PSU_DDR_PHY_MR13_RRO 0x0
-
- VREF Current Generator
- PSU_DDR_PHY_MR13_VRCG 0x1
-
- VREF Output
- PSU_DDR_PHY_MR13_VRO 0x0
-
- Read Preamble Training Mode
- PSU_DDR_PHY_MR13_RPT 0x0
-
- Command Bus Training
- PSU_DDR_PHY_MR13_CBT 0x0
-
- LPDDR4 Mode Register 13
- (OFFSET, MASK, VALUE) (0XFD0801B4, 0xFFFFFFFFU ,0x00000008U)
- RegMask = (DDR_PHY_MR13_RESERVED_31_8_MASK | DDR_PHY_MR13_FSPOP_MASK | DDR_PHY_MR13_FSPWR_MASK | DDR_PHY_MR13_DMD_MASK | DDR_PHY_MR13_RRO_MASK | DDR_PHY_MR13_VRCG_MASK | DDR_PHY_MR13_VRO_MASK | DDR_PHY_MR13_RPT_MASK | DDR_PHY_MR13_CBT_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR13_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR13_FSPOP_SHIFT
- | 0x00000000U << DDR_PHY_MR13_FSPWR_SHIFT
- | 0x00000000U << DDR_PHY_MR13_DMD_SHIFT
- | 0x00000000U << DDR_PHY_MR13_RRO_SHIFT
- | 0x00000001U << DDR_PHY_MR13_VRCG_SHIFT
- | 0x00000000U << DDR_PHY_MR13_VRO_SHIFT
- | 0x00000000U << DDR_PHY_MR13_RPT_SHIFT
- | 0x00000000U << DDR_PHY_MR13_CBT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR13_OFFSET ,0xFFFFFFFFU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MR14 @ 0XFD0801B8</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR14_RESERVED_31_8 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR14_RSVD 0x0
-
- VREFDQ Range Selects.
- PSU_DDR_PHY_MR14_VR_DQ 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR14_VREF_DQ 0xd
-
- LPDDR4 Mode Register 14
- (OFFSET, MASK, VALUE) (0XFD0801B8, 0xFFFFFFFFU ,0x0000004DU)
- RegMask = (DDR_PHY_MR14_RESERVED_31_8_MASK | DDR_PHY_MR14_RSVD_MASK | DDR_PHY_MR14_VR_DQ_MASK | DDR_PHY_MR14_VREF_DQ_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR14_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR14_RSVD_SHIFT
- | 0x00000001U << DDR_PHY_MR14_VR_DQ_SHIFT
- | 0x0000000DU << DDR_PHY_MR14_VREF_DQ_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR14_OFFSET ,0xFFFFFFFFU ,0x0000004DU);
- /*############################################################################################################################ */
-
- /*Register : MR22 @ 0XFD0801D8</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_MR22_RESERVED_31_8 0x0
-
- These are JEDEC reserved bits and are recommended by JEDEC to be programmed to 0x0.
- PSU_DDR_PHY_MR22_RSVD 0x0
-
- CA ODT termination disable.
- PSU_DDR_PHY_MR22_ODTD_CA 0x0
-
- ODT CS override.
- PSU_DDR_PHY_MR22_ODTE_CS 0x0
-
- ODT CK override.
- PSU_DDR_PHY_MR22_ODTE_CK 0x0
-
- Controller ODT value for VOH calibration.
- PSU_DDR_PHY_MR22_CODT 0x0
-
- LPDDR4 Mode Register 22
- (OFFSET, MASK, VALUE) (0XFD0801D8, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_MR22_RESERVED_31_8_MASK | DDR_PHY_MR22_RSVD_MASK | DDR_PHY_MR22_ODTD_CA_MASK | DDR_PHY_MR22_ODTE_CS_MASK | DDR_PHY_MR22_ODTE_CK_MASK | DDR_PHY_MR22_CODT_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_MR22_RESERVED_31_8_SHIFT
- | 0x00000000U << DDR_PHY_MR22_RSVD_SHIFT
- | 0x00000000U << DDR_PHY_MR22_ODTD_CA_SHIFT
- | 0x00000000U << DDR_PHY_MR22_ODTE_CS_SHIFT
- | 0x00000000U << DDR_PHY_MR22_ODTE_CK_SHIFT
- | 0x00000000U << DDR_PHY_MR22_CODT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_MR22_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : DTCR0 @ 0XFD080200</p>
-
- Refresh During Training
- PSU_DDR_PHY_DTCR0_RFSHDT 0x8
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR0_RESERVED_27_26 0x0
-
- Data Training Debug Rank Select
- PSU_DDR_PHY_DTCR0_DTDRS 0x0
-
- Data Training with Early/Extended Gate
- PSU_DDR_PHY_DTCR0_DTEXG 0x0
-
- Data Training Extended Write DQS
- PSU_DDR_PHY_DTCR0_DTEXD 0x0
-
- Data Training Debug Step
- PSU_DDR_PHY_DTCR0_DTDSTP 0x0
-
- Data Training Debug Enable
- PSU_DDR_PHY_DTCR0_DTDEN 0x0
-
- Data Training Debug Byte Select
- PSU_DDR_PHY_DTCR0_DTDBS 0x0
-
- Data Training read DBI deskewing configuration
- PSU_DDR_PHY_DTCR0_DTRDBITR 0x2
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR0_RESERVED_13 0x0
-
- Data Training Write Bit Deskew Data Mask
- PSU_DDR_PHY_DTCR0_DTWBDDM 0x1
-
- Refreshes Issued During Entry to Training
- PSU_DDR_PHY_DTCR0_RFSHEN 0x1
-
- Data Training Compare Data
- PSU_DDR_PHY_DTCR0_DTCMPD 0x1
-
- Data Training Using MPR
- PSU_DDR_PHY_DTCR0_DTMPR 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR0_RESERVED_5_4 0x0
+*
+*
+******************************************************************************/
- Data Training Repeat Number
- PSU_DDR_PHY_DTCR0_DTRPTN 0x7
+#include <xil_io.h>
+#include <sleep.h>
+#include "psu_init_gpl.h"
+#define DPLL_CFG_LOCK_DLY 63
+#define DPLL_CFG_LOCK_CNT 625
+#define DPLL_CFG_LFHF 3
+#define DPLL_CFG_CP 3
+#define DPLL_CFG_RES 2
- Data Training Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080200, 0xFFFFFFFFU ,0x800091C7U)
- RegMask = (DDR_PHY_DTCR0_RFSHDT_MASK | DDR_PHY_DTCR0_RESERVED_27_26_MASK | DDR_PHY_DTCR0_DTDRS_MASK | DDR_PHY_DTCR0_DTEXG_MASK | DDR_PHY_DTCR0_DTEXD_MASK | DDR_PHY_DTCR0_DTDSTP_MASK | DDR_PHY_DTCR0_DTDEN_MASK | DDR_PHY_DTCR0_DTDBS_MASK | DDR_PHY_DTCR0_DTRDBITR_MASK | DDR_PHY_DTCR0_RESERVED_13_MASK | DDR_PHY_DTCR0_DTWBDDM_MASK | DDR_PHY_DTCR0_RFSHEN_MASK | DDR_PHY_DTCR0_DTCMPD_MASK | DDR_PHY_DTCR0_DTMPR_MASK | DDR_PHY_DTCR0_RESERVED_5_4_MASK | DDR_PHY_DTCR0_DTRPTN_MASK | 0 );
+static int mask_pollOnValue(u32 add, u32 mask, u32 value);
- RegVal = ((0x00000008U << DDR_PHY_DTCR0_RFSHDT_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_RESERVED_27_26_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_DTDRS_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_DTEXG_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_DTEXD_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_DTDSTP_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_DTDEN_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_DTDBS_SHIFT
- | 0x00000002U << DDR_PHY_DTCR0_DTRDBITR_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_RESERVED_13_SHIFT
- | 0x00000001U << DDR_PHY_DTCR0_DTWBDDM_SHIFT
- | 0x00000001U << DDR_PHY_DTCR0_RFSHEN_SHIFT
- | 0x00000001U << DDR_PHY_DTCR0_DTCMPD_SHIFT
- | 0x00000001U << DDR_PHY_DTCR0_DTMPR_SHIFT
- | 0x00000000U << DDR_PHY_DTCR0_RESERVED_5_4_SHIFT
- | 0x00000007U << DDR_PHY_DTCR0_DTRPTN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTCR0_OFFSET ,0xFFFFFFFFU ,0x800091C7U);
- /*############################################################################################################################ */
+static int mask_poll(u32 add, u32 mask);
- /*Register : DTCR1 @ 0XFD080204</p>
+static void mask_delay(u32 delay);
- Rank Enable.
- PSU_DDR_PHY_DTCR1_RANKEN_RSVD 0x0
+static u32 mask_read(u32 add, u32 mask);
- Rank Enable.
- PSU_DDR_PHY_DTCR1_RANKEN 0x1
+static void dpll_prog(int ddr_pll_fbdiv, int d_lock_dly,
+ int d_lock_cnt, int d_lfhf, int d_cp, int d_res);
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR1_RESERVED_15_14 0x0
+static
+void PSU_Mask_Write(unsigned long offset, unsigned long mask,
+ unsigned long val)
+{
+ unsigned long RegVal = 0x0;
- Data Training Rank
- PSU_DDR_PHY_DTCR1_DTRANK 0x0
+ RegVal = Xil_In32(offset);
+ RegVal &= ~(mask);
+ RegVal |= (val & mask);
+ Xil_Out32(offset, RegVal);
+}
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR1_RESERVED_11 0x0
+static
+void prog_reg(unsigned long addr, unsigned long mask,
+ unsigned long shift,
+ unsigned long value)
+{
+ int rdata = 0;
- Read Leveling Gate Sampling Difference
- PSU_DDR_PHY_DTCR1_RDLVLGDIFF 0x2
+ rdata = Xil_In32(addr);
+ rdata = rdata & (~mask);
+ rdata = rdata | (value << shift);
+ Xil_Out32(addr, rdata);
+ }
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR1_RESERVED_7 0x0
+unsigned long psu_pll_init_data(void)
+{
+ /*
+ * RPLL INIT
+ */
+ /*
+ * Register : RPLL_CFG @ 0XFF5E0034
+
+ * PLL loop filter resistor control
+ * PSU_CRL_APB_RPLL_CFG_RES 0xc
+
+ * PLL charge pump control
+ * PSU_CRL_APB_RPLL_CFG_CP 0x3
+
+ * PLL loop filter high frequency capacitor control
+ * PSU_CRL_APB_RPLL_CFG_LFHF 0x3
+
+ * Lock circuit counter setting
+ * PSU_CRL_APB_RPLL_CFG_LOCK_CNT 0x339
+
+ * Lock circuit configuration settings for lock windowsize
+ * PSU_CRL_APB_RPLL_CFG_LOCK_DLY 0x3f
+
+ * Helper data. Values are to be looked up in a table from Data Sheet
+ * (OFFSET, MASK, VALUE) (0XFF5E0034, 0xFE7FEDEFU ,0x7E672C6CU)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_CFG_OFFSET, 0xFE7FEDEFU, 0x7E672C6CU);
+/*##################################################################### */
+
+ /*
+ * UPDATE FB_DIV
+ */
+ /*
+ * Register : RPLL_CTRL @ 0XFF5E0030
+
+ * Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk i
+ * s the source 100 video clk is the source 101 pss_alt_ref_clk is the sour
+ * ce 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
+ * PSU_CRL_APB_RPLL_CTRL_PRE_SRC 0x0
+
+ * The integer portion of the feedback divider to the PLL
+ * PSU_CRL_APB_RPLL_CTRL_FBDIV 0x2d
+
+ * This turns on the divide by 2 that is inside of the PLL. This does not c
+ * hange the VCO frequency, just the output frequency
+ * PSU_CRL_APB_RPLL_CTRL_DIV2 0x1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00717F00U ,0x00012D00U)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_CTRL_OFFSET, 0x00717F00U, 0x00012D00U);
+/*##################################################################### */
+
+ /*
+ * BY PASS PLL
+ */
+ /*
+ * Register : RPLL_CTRL @ 0XFF5E0030
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRL_APB_RPLL_CTRL_BYPASS 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_CTRL_OFFSET, 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * ASSERT RESET
+ */
+ /*
+ * Register : RPLL_CTRL @ 0XFF5E0030
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRL_APB_RPLL_CTRL_RESET 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_CTRL_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * DEASSERT RESET
+ */
+ /*
+ * Register : RPLL_CTRL @ 0XFF5E0030
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRL_APB_RPLL_CTRL_RESET 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_CTRL_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CHECK PLL STATUS
+ */
+ /*
+ * Register : PLL_STATUS @ 0XFF5E0040
+
+ * RPLL is locked
+ * PSU_CRL_APB_PLL_STATUS_RPLL_LOCK 1
+ * (OFFSET, MASK, VALUE) (0XFF5E0040, 0x00000002U ,0x00000002U)
+ */
+ mask_poll(CRL_APB_PLL_STATUS_OFFSET, 0x00000002U);
+
+/*##################################################################### */
+
+ /*
+ * REMOVE PLL BY PASS
+ */
+ /*
+ * Register : RPLL_CTRL @ 0XFF5E0030
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRL_APB_RPLL_CTRL_BYPASS 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0030, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_CTRL_OFFSET, 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : RPLL_TO_FPD_CTRL @ 0XFF5E0048
+
+ * Divisor value for this clock.
+ * PSU_CRL_APB_RPLL_TO_FPD_CTRL_DIVISOR0 0x2
+
+ * Control for a clock that will be generated in the LPD, but used in the F
+ * PD as a clock source for the peripheral clock muxes.
+ * (OFFSET, MASK, VALUE) (0XFF5E0048, 0x00003F00U ,0x00000200U)
+ */
+ PSU_Mask_Write(CRL_APB_RPLL_TO_FPD_CTRL_OFFSET,
+ 0x00003F00U, 0x00000200U);
+/*##################################################################### */
+
+ /*
+ * RPLL FRAC CFG
+ */
+ /*
+ * IOPLL INIT
+ */
+ /*
+ * Register : IOPLL_CFG @ 0XFF5E0024
+
+ * PLL loop filter resistor control
+ * PSU_CRL_APB_IOPLL_CFG_RES 0x2
+
+ * PLL charge pump control
+ * PSU_CRL_APB_IOPLL_CFG_CP 0x4
+
+ * PLL loop filter high frequency capacitor control
+ * PSU_CRL_APB_IOPLL_CFG_LFHF 0x3
+
+ * Lock circuit counter setting
+ * PSU_CRL_APB_IOPLL_CFG_LOCK_CNT 0x258
+
+ * Lock circuit configuration settings for lock windowsize
+ * PSU_CRL_APB_IOPLL_CFG_LOCK_DLY 0x3f
+
+ * Helper data. Values are to be looked up in a table from Data Sheet
+ * (OFFSET, MASK, VALUE) (0XFF5E0024, 0xFE7FEDEFU ,0x7E4B0C82U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_CFG_OFFSET, 0xFE7FEDEFU, 0x7E4B0C82U);
+/*##################################################################### */
+
+ /*
+ * UPDATE FB_DIV
+ */
+ /*
+ * Register : IOPLL_CTRL @ 0XFF5E0020
+
+ * Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk i
+ * s the source 100 video clk is the source 101 pss_alt_ref_clk is the sour
+ * ce 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
+ * PSU_CRL_APB_IOPLL_CTRL_PRE_SRC 0x0
+
+ * The integer portion of the feedback divider to the PLL
+ * PSU_CRL_APB_IOPLL_CTRL_FBDIV 0x5a
+
+ * This turns on the divide by 2 that is inside of the PLL. This does not c
+ * hange the VCO frequency, just the output frequency
+ * PSU_CRL_APB_IOPLL_CTRL_DIV2 0x1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00717F00U ,0x00015A00U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_CTRL_OFFSET, 0x00717F00U, 0x00015A00U);
+/*##################################################################### */
+
+ /*
+ * BY PASS PLL
+ */
+ /*
+ * Register : IOPLL_CTRL @ 0XFF5E0020
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRL_APB_IOPLL_CTRL_BYPASS 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_CTRL_OFFSET, 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * ASSERT RESET
+ */
+ /*
+ * Register : IOPLL_CTRL @ 0XFF5E0020
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRL_APB_IOPLL_CTRL_RESET 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_CTRL_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * DEASSERT RESET
+ */
+ /*
+ * Register : IOPLL_CTRL @ 0XFF5E0020
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRL_APB_IOPLL_CTRL_RESET 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_CTRL_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CHECK PLL STATUS
+ */
+ /*
+ * Register : PLL_STATUS @ 0XFF5E0040
+
+ * IOPLL is locked
+ * PSU_CRL_APB_PLL_STATUS_IOPLL_LOCK 1
+ * (OFFSET, MASK, VALUE) (0XFF5E0040, 0x00000001U ,0x00000001U)
+ */
+ mask_poll(CRL_APB_PLL_STATUS_OFFSET, 0x00000001U);
+
+/*##################################################################### */
+
+ /*
+ * REMOVE PLL BY PASS
+ */
+ /*
+ * Register : IOPLL_CTRL @ 0XFF5E0020
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRL_APB_IOPLL_CTRL_BYPASS 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFF5E0020, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_CTRL_OFFSET, 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : IOPLL_TO_FPD_CTRL @ 0XFF5E0044
+
+ * Divisor value for this clock.
+ * PSU_CRL_APB_IOPLL_TO_FPD_CTRL_DIVISOR0 0x3
+
+ * Control for a clock that will be generated in the LPD, but used in the F
+ * PD as a clock source for the peripheral clock muxes.
+ * (OFFSET, MASK, VALUE) (0XFF5E0044, 0x00003F00U ,0x00000300U)
+ */
+ PSU_Mask_Write(CRL_APB_IOPLL_TO_FPD_CTRL_OFFSET,
+ 0x00003F00U, 0x00000300U);
+/*##################################################################### */
+
+ /*
+ * IOPLL FRAC CFG
+ */
+ /*
+ * APU_PLL INIT
+ */
+ /*
+ * Register : APLL_CFG @ 0XFD1A0024
+
+ * PLL loop filter resistor control
+ * PSU_CRF_APB_APLL_CFG_RES 0x2
+
+ * PLL charge pump control
+ * PSU_CRF_APB_APLL_CFG_CP 0x3
+
+ * PLL loop filter high frequency capacitor control
+ * PSU_CRF_APB_APLL_CFG_LFHF 0x3
+
+ * Lock circuit counter setting
+ * PSU_CRF_APB_APLL_CFG_LOCK_CNT 0x258
+
+ * Lock circuit configuration settings for lock windowsize
+ * PSU_CRF_APB_APLL_CFG_LOCK_DLY 0x3f
+
+ * Helper data. Values are to be looked up in a table from Data Sheet
+ * (OFFSET, MASK, VALUE) (0XFD1A0024, 0xFE7FEDEFU ,0x7E4B0C62U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_CFG_OFFSET, 0xFE7FEDEFU, 0x7E4B0C62U);
+/*##################################################################### */
+
+ /*
+ * UPDATE FB_DIV
+ */
+ /*
+ * Register : APLL_CTRL @ 0XFD1A0020
+
+ * Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk i
+ * s the source 100 video clk is the source 101 pss_alt_ref_clk is the sour
+ * ce 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
+ * PSU_CRF_APB_APLL_CTRL_PRE_SRC 0x0
+
+ * The integer portion of the feedback divider to the PLL
+ * PSU_CRF_APB_APLL_CTRL_FBDIV 0x48
+
+ * This turns on the divide by 2 that is inside of the PLL. This does not c
+ * hange the VCO frequency, just the output frequency
+ * PSU_CRF_APB_APLL_CTRL_DIV2 0x1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00717F00U ,0x00014800U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_CTRL_OFFSET, 0x00717F00U, 0x00014800U);
+/*##################################################################### */
+
+ /*
+ * BY PASS PLL
+ */
+ /*
+ * Register : APLL_CTRL @ 0XFD1A0020
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRF_APB_APLL_CTRL_BYPASS 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_CTRL_OFFSET, 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * ASSERT RESET
+ */
+ /*
+ * Register : APLL_CTRL @ 0XFD1A0020
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRF_APB_APLL_CTRL_RESET 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_CTRL_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * DEASSERT RESET
+ */
+ /*
+ * Register : APLL_CTRL @ 0XFD1A0020
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRF_APB_APLL_CTRL_RESET 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_CTRL_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CHECK PLL STATUS
+ */
+ /*
+ * Register : PLL_STATUS @ 0XFD1A0044
+
+ * APLL is locked
+ * PSU_CRF_APB_PLL_STATUS_APLL_LOCK 1
+ * (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000001U ,0x00000001U)
+ */
+ mask_poll(CRF_APB_PLL_STATUS_OFFSET, 0x00000001U);
+
+/*##################################################################### */
+
+ /*
+ * REMOVE PLL BY PASS
+ */
+ /*
+ * Register : APLL_CTRL @ 0XFD1A0020
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRF_APB_APLL_CTRL_BYPASS 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0020, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_CTRL_OFFSET, 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : APLL_TO_LPD_CTRL @ 0XFD1A0048
+
+ * Divisor value for this clock.
+ * PSU_CRF_APB_APLL_TO_LPD_CTRL_DIVISOR0 0x3
+
+ * Control for a clock that will be generated in the FPD, but used in the L
+ * PD as a clock source for the peripheral clock muxes.
+ * (OFFSET, MASK, VALUE) (0XFD1A0048, 0x00003F00U ,0x00000300U)
+ */
+ PSU_Mask_Write(CRF_APB_APLL_TO_LPD_CTRL_OFFSET,
+ 0x00003F00U, 0x00000300U);
+/*##################################################################### */
+
+ /*
+ * APLL FRAC CFG
+ */
+ /*
+ * DDR_PLL INIT
+ */
+ /*
+ * Register : DPLL_CFG @ 0XFD1A0030
+
+ * PLL loop filter resistor control
+ * PSU_CRF_APB_DPLL_CFG_RES 0x2
+
+ * PLL charge pump control
+ * PSU_CRF_APB_DPLL_CFG_CP 0x3
+
+ * PLL loop filter high frequency capacitor control
+ * PSU_CRF_APB_DPLL_CFG_LFHF 0x3
+
+ * Lock circuit counter setting
+ * PSU_CRF_APB_DPLL_CFG_LOCK_CNT 0x258
+
+ * Lock circuit configuration settings for lock windowsize
+ * PSU_CRF_APB_DPLL_CFG_LOCK_DLY 0x3f
+
+ * Helper data. Values are to be looked up in a table from Data Sheet
+ * (OFFSET, MASK, VALUE) (0XFD1A0030, 0xFE7FEDEFU ,0x7E4B0C62U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_CFG_OFFSET, 0xFE7FEDEFU, 0x7E4B0C62U);
+/*##################################################################### */
+
+ /*
+ * UPDATE FB_DIV
+ */
+ /*
+ * Register : DPLL_CTRL @ 0XFD1A002C
+
+ * Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk i
+ * s the source 100 video clk is the source 101 pss_alt_ref_clk is the sour
+ * ce 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
+ * PSU_CRF_APB_DPLL_CTRL_PRE_SRC 0x0
+
+ * The integer portion of the feedback divider to the PLL
+ * PSU_CRF_APB_DPLL_CTRL_FBDIV 0x40
+
+ * This turns on the divide by 2 that is inside of the PLL. This does not c
+ * hange the VCO frequency, just the output frequency
+ * PSU_CRF_APB_DPLL_CTRL_DIV2 0x1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00717F00U ,0x00014000U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_CTRL_OFFSET, 0x00717F00U, 0x00014000U);
+/*##################################################################### */
+
+ /*
+ * BY PASS PLL
+ */
+ /*
+ * Register : DPLL_CTRL @ 0XFD1A002C
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRF_APB_DPLL_CTRL_BYPASS 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_CTRL_OFFSET, 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * ASSERT RESET
+ */
+ /*
+ * Register : DPLL_CTRL @ 0XFD1A002C
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRF_APB_DPLL_CTRL_RESET 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_CTRL_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * DEASSERT RESET
+ */
+ /*
+ * Register : DPLL_CTRL @ 0XFD1A002C
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRF_APB_DPLL_CTRL_RESET 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_CTRL_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CHECK PLL STATUS
+ */
+ /*
+ * Register : PLL_STATUS @ 0XFD1A0044
+
+ * DPLL is locked
+ * PSU_CRF_APB_PLL_STATUS_DPLL_LOCK 1
+ * (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000002U ,0x00000002U)
+ */
+ mask_poll(CRF_APB_PLL_STATUS_OFFSET, 0x00000002U);
+
+/*##################################################################### */
+
+ /*
+ * REMOVE PLL BY PASS
+ */
+ /*
+ * Register : DPLL_CTRL @ 0XFD1A002C
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRF_APB_DPLL_CTRL_BYPASS 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A002C, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_CTRL_OFFSET, 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DPLL_TO_LPD_CTRL @ 0XFD1A004C
+
+ * Divisor value for this clock.
+ * PSU_CRF_APB_DPLL_TO_LPD_CTRL_DIVISOR0 0x2
+
+ * Control for a clock that will be generated in the FPD, but used in the L
+ * PD as a clock source for the peripheral clock muxes.
+ * (OFFSET, MASK, VALUE) (0XFD1A004C, 0x00003F00U ,0x00000200U)
+ */
+ PSU_Mask_Write(CRF_APB_DPLL_TO_LPD_CTRL_OFFSET,
+ 0x00003F00U, 0x00000200U);
+/*##################################################################### */
+
+ /*
+ * DPLL FRAC CFG
+ */
+ /*
+ * VIDEO_PLL INIT
+ */
+ /*
+ * Register : VPLL_CFG @ 0XFD1A003C
+
+ * PLL loop filter resistor control
+ * PSU_CRF_APB_VPLL_CFG_RES 0x2
+
+ * PLL charge pump control
+ * PSU_CRF_APB_VPLL_CFG_CP 0x4
+
+ * PLL loop filter high frequency capacitor control
+ * PSU_CRF_APB_VPLL_CFG_LFHF 0x3
+
+ * Lock circuit counter setting
+ * PSU_CRF_APB_VPLL_CFG_LOCK_CNT 0x258
+
+ * Lock circuit configuration settings for lock windowsize
+ * PSU_CRF_APB_VPLL_CFG_LOCK_DLY 0x3f
+
+ * Helper data. Values are to be looked up in a table from Data Sheet
+ * (OFFSET, MASK, VALUE) (0XFD1A003C, 0xFE7FEDEFU ,0x7E4B0C82U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_CFG_OFFSET, 0xFE7FEDEFU, 0x7E4B0C82U);
+/*##################################################################### */
+
+ /*
+ * UPDATE FB_DIV
+ */
+ /*
+ * Register : VPLL_CTRL @ 0XFD1A0038
+
+ * Mux select for determining which clock feeds this PLL. 0XX pss_ref_clk i
+ * s the source 100 video clk is the source 101 pss_alt_ref_clk is the sour
+ * ce 110 aux_refclk[X] is the source 111 gt_crx_ref_clk is the source
+ * PSU_CRF_APB_VPLL_CTRL_PRE_SRC 0x0
+
+ * The integer portion of the feedback divider to the PLL
+ * PSU_CRF_APB_VPLL_CTRL_FBDIV 0x5a
+
+ * This turns on the divide by 2 that is inside of the PLL. This does not c
+ * hange the VCO frequency, just the output frequency
+ * PSU_CRF_APB_VPLL_CTRL_DIV2 0x1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00717F00U ,0x00015A00U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_CTRL_OFFSET, 0x00717F00U, 0x00015A00U);
+/*##################################################################### */
+
+ /*
+ * BY PASS PLL
+ */
+ /*
+ * Register : VPLL_CTRL @ 0XFD1A0038
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRF_APB_VPLL_CTRL_BYPASS 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_CTRL_OFFSET, 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * ASSERT RESET
+ */
+ /*
+ * Register : VPLL_CTRL @ 0XFD1A0038
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRF_APB_VPLL_CTRL_RESET 1
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_CTRL_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * DEASSERT RESET
+ */
+ /*
+ * Register : VPLL_CTRL @ 0XFD1A0038
+
+ * Asserts Reset to the PLL. When asserting reset, the PLL must already be
+ * in BYPASS.
+ * PSU_CRF_APB_VPLL_CTRL_RESET 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_CTRL_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CHECK PLL STATUS
+ */
+ /*
+ * Register : PLL_STATUS @ 0XFD1A0044
+
+ * VPLL is locked
+ * PSU_CRF_APB_PLL_STATUS_VPLL_LOCK 1
+ * (OFFSET, MASK, VALUE) (0XFD1A0044, 0x00000004U ,0x00000004U)
+ */
+ mask_poll(CRF_APB_PLL_STATUS_OFFSET, 0x00000004U);
+
+/*##################################################################### */
+
+ /*
+ * REMOVE PLL BY PASS
+ */
+ /*
+ * Register : VPLL_CTRL @ 0XFD1A0038
+
+ * Bypasses the PLL clock. The usable clock will be determined from the POS
+ * T_SRC field. (This signal may only be toggled after 4 cycles of the old
+ * clock and 4 cycles of the new clock. This is not usually an issue, but d
+ * esigners must be aware.)
+ * PSU_CRF_APB_VPLL_CTRL_BYPASS 0
+
+ * PLL Basic Control
+ * (OFFSET, MASK, VALUE) (0XFD1A0038, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_CTRL_OFFSET, 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : VPLL_TO_LPD_CTRL @ 0XFD1A0050
+
+ * Divisor value for this clock.
+ * PSU_CRF_APB_VPLL_TO_LPD_CTRL_DIVISOR0 0x3
+
+ * Control for a clock that will be generated in the FPD, but used in the L
+ * PD as a clock source for the peripheral clock muxes.
+ * (OFFSET, MASK, VALUE) (0XFD1A0050, 0x00003F00U ,0x00000300U)
+ */
+ PSU_Mask_Write(CRF_APB_VPLL_TO_LPD_CTRL_OFFSET,
+ 0x00003F00U, 0x00000300U);
+/*##################################################################### */
+
+ /*
+ * VIDEO FRAC CFG
+ */
+
+ return 1;
+}
+unsigned long psu_clock_init_data(void)
+{
+ /*
+ * CLOCK CONTROL SLCR REGISTER
+ */
+ /*
+ * Register : GEM3_REF_CTRL @ 0XFF5E005C
- Read Leveling Gate Shift
- PSU_DDR_PHY_DTCR1_RDLVLGS 0x3
+ * Clock active for the RX channel
+ * PSU_CRL_APB_GEM3_REF_CTRL_RX_CLKACT 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DTCR1_RESERVED_3 0x0
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_GEM3_REF_CTRL_CLKACT 0x1
- Read Preamble Training enable
- PSU_DDR_PHY_DTCR1_RDPRMVL_TRN 0x1
+ * 6 bit divider
+ * PSU_CRL_APB_GEM3_REF_CTRL_DIVISOR1 0x1
- Read Leveling Enable
- PSU_DDR_PHY_DTCR1_RDLVLEN 0x1
+ * 6 bit divider
+ * PSU_CRL_APB_GEM3_REF_CTRL_DIVISOR0 0xc
- Basic Gate Training Enable
- PSU_DDR_PHY_DTCR1_BSTEN 0x0
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_GEM3_REF_CTRL_SRCSEL 0x0
- Data Training Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080204, 0xFFFFFFFFU ,0x00010236U)
- RegMask = (DDR_PHY_DTCR1_RANKEN_RSVD_MASK | DDR_PHY_DTCR1_RANKEN_MASK | DDR_PHY_DTCR1_RESERVED_15_14_MASK | DDR_PHY_DTCR1_DTRANK_MASK | DDR_PHY_DTCR1_RESERVED_11_MASK | DDR_PHY_DTCR1_RDLVLGDIFF_MASK | DDR_PHY_DTCR1_RESERVED_7_MASK | DDR_PHY_DTCR1_RDLVLGS_MASK | DDR_PHY_DTCR1_RESERVED_3_MASK | DDR_PHY_DTCR1_RDPRMVL_TRN_MASK | DDR_PHY_DTCR1_RDLVLEN_MASK | DDR_PHY_DTCR1_BSTEN_MASK | 0 );
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E005C, 0x063F3F07U ,0x06010C00U)
+ */
+ PSU_Mask_Write(CRL_APB_GEM3_REF_CTRL_OFFSET,
+ 0x063F3F07U, 0x06010C00U);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DTCR1_RANKEN_RSVD_SHIFT
- | 0x00000001U << DDR_PHY_DTCR1_RANKEN_SHIFT
- | 0x00000000U << DDR_PHY_DTCR1_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_DTCR1_DTRANK_SHIFT
- | 0x00000000U << DDR_PHY_DTCR1_RESERVED_11_SHIFT
- | 0x00000002U << DDR_PHY_DTCR1_RDLVLGDIFF_SHIFT
- | 0x00000000U << DDR_PHY_DTCR1_RESERVED_7_SHIFT
- | 0x00000003U << DDR_PHY_DTCR1_RDLVLGS_SHIFT
- | 0x00000000U << DDR_PHY_DTCR1_RESERVED_3_SHIFT
- | 0x00000001U << DDR_PHY_DTCR1_RDPRMVL_TRN_SHIFT
- | 0x00000001U << DDR_PHY_DTCR1_RDLVLEN_SHIFT
- | 0x00000000U << DDR_PHY_DTCR1_BSTEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DTCR1_OFFSET ,0xFFFFFFFFU ,0x00010236U);
- /*############################################################################################################################ */
+ /*
+ * Register : GEM_TSU_REF_CTRL @ 0XFF5E0100
- /*Register : CATR0 @ 0XFD080240</p>
+ * 6 bit divider
+ * PSU_CRL_APB_GEM_TSU_REF_CTRL_DIVISOR0 0x6
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_CATR0_RESERVED_31_21 0x0
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_GEM_TSU_REF_CTRL_SRCSEL 0x0
- Minimum time (in terms of number of dram clocks) between two consectuve CA calibration command
- PSU_DDR_PHY_CATR0_CACD 0x14
+ * 6 bit divider
+ * PSU_CRL_APB_GEM_TSU_REF_CTRL_DIVISOR1 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_CATR0_RESERVED_15_13 0x0
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_GEM_TSU_REF_CTRL_CLKACT 0x1
- Minimum time (in terms of number of dram clocks) PUB should wait before sampling the CA response after Calibration command ha
- been sent to the memory
- PSU_DDR_PHY_CATR0_CAADR 0x10
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0100, 0x013F3F07U ,0x01010600U)
+ */
+ PSU_Mask_Write(CRL_APB_GEM_TSU_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010600U);
+/*##################################################################### */
- CA_1 Response Byte Lane 1
- PSU_DDR_PHY_CATR0_CA1BYTE1 0x5
+ /*
+ * Register : USB0_BUS_REF_CTRL @ 0XFF5E0060
- CA_1 Response Byte Lane 0
- PSU_DDR_PHY_CATR0_CA1BYTE0 0x4
-
- CA Training Register 0
- (OFFSET, MASK, VALUE) (0XFD080240, 0xFFFFFFFFU ,0x00141054U)
- RegMask = (DDR_PHY_CATR0_RESERVED_31_21_MASK | DDR_PHY_CATR0_CACD_MASK | DDR_PHY_CATR0_RESERVED_15_13_MASK | DDR_PHY_CATR0_CAADR_MASK | DDR_PHY_CATR0_CA1BYTE1_MASK | DDR_PHY_CATR0_CA1BYTE0_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_CATR0_RESERVED_31_21_SHIFT
- | 0x00000014U << DDR_PHY_CATR0_CACD_SHIFT
- | 0x00000000U << DDR_PHY_CATR0_RESERVED_15_13_SHIFT
- | 0x00000010U << DDR_PHY_CATR0_CAADR_SHIFT
- | 0x00000005U << DDR_PHY_CATR0_CA1BYTE1_SHIFT
- | 0x00000004U << DDR_PHY_CATR0_CA1BYTE0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_CATR0_OFFSET ,0xFFFFFFFFU ,0x00141054U);
- /*############################################################################################################################ */
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_USB0_BUS_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_USB0_BUS_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_USB0_BUS_REF_CTRL_DIVISOR0 0x6
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_USB0_BUS_REF_CTRL_SRCSEL 0x0
- /*Register : BISTLSR @ 0XFD080414</p>
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0060, 0x023F3F07U ,0x02010600U)
+ */
+ PSU_Mask_Write(CRL_APB_USB0_BUS_REF_CTRL_OFFSET,
+ 0x023F3F07U, 0x02010600U);
+/*##################################################################### */
- LFSR seed for pseudo-random BIST patterns
- PSU_DDR_PHY_BISTLSR_SEED 0x12341000
+ /*
+ * Register : USB3_DUAL_REF_CTRL @ 0XFF5E004C
- BIST LFSR Seed Register
- (OFFSET, MASK, VALUE) (0XFD080414, 0xFFFFFFFFU ,0x12341000U)
- RegMask = (DDR_PHY_BISTLSR_SEED_MASK | 0 );
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_USB3_DUAL_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR1 0x3
+
+ * 6 bit divider
+ * PSU_CRL_APB_USB3_DUAL_REF_CTRL_DIVISOR0 0x19
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL. (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_USB3_DUAL_REF_CTRL_SRCSEL 0x0
- RegVal = ((0x12341000U << DDR_PHY_BISTLSR_SEED_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_BISTLSR_OFFSET ,0xFFFFFFFFU ,0x12341000U);
- /*############################################################################################################################ */
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E004C, 0x023F3F07U ,0x02031900U)
+ */
+ PSU_Mask_Write(CRL_APB_USB3_DUAL_REF_CTRL_OFFSET,
+ 0x023F3F07U, 0x02031900U);
+/*##################################################################### */
- /*Register : RIOCR5 @ 0XFD0804F4</p>
+ /*
+ * Register : QSPI_REF_CTRL @ 0XFF5E0068
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_RIOCR5_RESERVED_31_16 0x0
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_QSPI_REF_CTRL_CLKACT 0x1
- Reserved. Return zeros on reads.
- PSU_DDR_PHY_RIOCR5_ODTOEMODE_RSVD 0x0
+ * 6 bit divider
+ * PSU_CRL_APB_QSPI_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_QSPI_REF_CTRL_DIVISOR0 0xc
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_QSPI_REF_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0068, 0x013F3F07U ,0x01010C00U)
+ */
+ PSU_Mask_Write(CRL_APB_QSPI_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010C00U);
+/*##################################################################### */
- SDRAM On-die Termination Output Enable (OE) Mode Selection.
- PSU_DDR_PHY_RIOCR5_ODTOEMODE 0x5
+ /*
+ * Register : SDIO1_REF_CTRL @ 0XFF5E0070
- Rank I/O Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD0804F4, 0xFFFFFFFFU ,0x00000005U)
- RegMask = (DDR_PHY_RIOCR5_RESERVED_31_16_MASK | DDR_PHY_RIOCR5_ODTOEMODE_RSVD_MASK | DDR_PHY_RIOCR5_ODTOEMODE_MASK | 0 );
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_SDIO1_REF_CTRL_CLKACT 0x1
- RegVal = ((0x00000000U << DDR_PHY_RIOCR5_RESERVED_31_16_SHIFT
- | 0x00000000U << DDR_PHY_RIOCR5_ODTOEMODE_RSVD_SHIFT
- | 0x00000005U << DDR_PHY_RIOCR5_ODTOEMODE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_RIOCR5_OFFSET ,0xFFFFFFFFU ,0x00000005U);
- /*############################################################################################################################ */
+ * 6 bit divider
+ * PSU_CRL_APB_SDIO1_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_SDIO1_REF_CTRL_DIVISOR0 0x8
+
+ * 000 = IOPLL; 010 = RPLL; 011 = VPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_SDIO1_REF_CTRL_SRCSEL 0x0
- /*Register : ACIOCR0 @ 0XFD080500</p>
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0070, 0x013F3F07U ,0x01010800U)
+ */
+ PSU_Mask_Write(CRL_APB_SDIO1_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010800U);
+/*##################################################################### */
- Address/Command Slew Rate (D3F I/O Only)
- PSU_DDR_PHY_ACIOCR0_ACSR 0x0
+ /*
+ * Register : SDIO_CLK_CTRL @ 0XFF18030C
- SDRAM Reset I/O Mode
- PSU_DDR_PHY_ACIOCR0_RSTIOM 0x1
+ * MIO pad selection for sdio1_rx_clk (feedback clock from the PAD) 0: MIO
+ * [51] 1: MIO [76]
+ * PSU_IOU_SLCR_SDIO_CLK_CTRL_SDIO1_RX_SRC_SEL 0
- SDRAM Reset Power Down Receiver
- PSU_DDR_PHY_ACIOCR0_RSTPDR 0x1
+ * SoC Debug Clock Control
+ * (OFFSET, MASK, VALUE) (0XFF18030C, 0x00020000U ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_SDIO_CLK_CTRL_OFFSET,
+ 0x00020000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : UART0_REF_CTRL @ 0XFF5E0074
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_UART0_REF_CTRL_CLKACT 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACIOCR0_RESERVED_27 0x0
+ * 6 bit divider
+ * PSU_CRL_APB_UART0_REF_CTRL_DIVISOR1 0x1
- SDRAM Reset On-Die Termination
- PSU_DDR_PHY_ACIOCR0_RSTODT 0x0
+ * 6 bit divider
+ * PSU_CRL_APB_UART0_REF_CTRL_DIVISOR0 0xf
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACIOCR0_RESERVED_25_10 0x0
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_UART0_REF_CTRL_SRCSEL 0x0
- CK Duty Cycle Correction
- PSU_DDR_PHY_ACIOCR0_CKDCC 0x0
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0074, 0x013F3F07U ,0x01010F00U)
+ */
+ PSU_Mask_Write(CRL_APB_UART0_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F00U);
+/*##################################################################### */
+
+ /*
+ * Register : UART1_REF_CTRL @ 0XFF5E0078
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_UART1_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_UART1_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_UART1_REF_CTRL_DIVISOR0 0xf
- AC Power Down Receiver Mode
- PSU_DDR_PHY_ACIOCR0_ACPDRMODE 0x2
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_UART1_REF_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0078, 0x013F3F07U ,0x01010F00U)
+ */
+ PSU_Mask_Write(CRL_APB_UART1_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F00U);
+/*##################################################################### */
+
+ /*
+ * Register : I2C0_REF_CTRL @ 0XFF5E0120
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_I2C0_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_I2C0_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_I2C0_REF_CTRL_DIVISOR0 0xf
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_I2C0_REF_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0120, 0x013F3F07U ,0x01010F00U)
+ */
+ PSU_Mask_Write(CRL_APB_I2C0_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F00U);
+/*##################################################################### */
+
+ /*
+ * Register : I2C1_REF_CTRL @ 0XFF5E0124
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_I2C1_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_I2C1_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_I2C1_REF_CTRL_DIVISOR0 0xf
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_I2C1_REF_CTRL_SRCSEL 0x0
- AC On-die Termination Mode
- PSU_DDR_PHY_ACIOCR0_ACODTMODE 0x2
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0124, 0x013F3F07U ,0x01010F00U)
+ */
+ PSU_Mask_Write(CRL_APB_I2C1_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F00U);
+/*##################################################################### */
+
+ /*
+ * Register : CAN1_REF_CTRL @ 0XFF5E0088
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACIOCR0_RESERVED_1 0x0
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_CAN1_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_CAN1_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_CAN1_REF_CTRL_DIVISOR0 0xf
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_CAN1_REF_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0088, 0x013F3F07U ,0x01010F00U)
+ */
+ PSU_Mask_Write(CRL_APB_CAN1_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F00U);
+/*##################################################################### */
+
+ /*
+ * Register : CPU_R5_CTRL @ 0XFF5E0090
+
+ * Turing this off will shut down the OCM, some parts of the APM, and preve
+ * nt transactions going from the FPD to the LPD and could lead to system h
+ * ang
+ * PSU_CRL_APB_CPU_R5_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_CPU_R5_CTRL_DIVISOR0 0x3
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_CPU_R5_CTRL_SRCSEL 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0090, 0x01003F07U ,0x01000302U)
+ */
+ PSU_Mask_Write(CRL_APB_CPU_R5_CTRL_OFFSET, 0x01003F07U, 0x01000302U);
+/*##################################################################### */
+
+ /*
+ * Register : IOU_SWITCH_CTRL @ 0XFF5E009C
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_IOU_SWITCH_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_IOU_SWITCH_CTRL_DIVISOR0 0x6
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_IOU_SWITCH_CTRL_SRCSEL 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E009C, 0x01003F07U ,0x01000602U)
+ */
+ PSU_Mask_Write(CRL_APB_IOU_SWITCH_CTRL_OFFSET,
+ 0x01003F07U, 0x01000602U);
+/*##################################################################### */
+
+ /*
+ * Register : PCAP_CTRL @ 0XFF5E00A4
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_PCAP_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_PCAP_CTRL_DIVISOR0 0x8
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_PCAP_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E00A4, 0x01003F07U ,0x01000800U)
+ */
+ PSU_Mask_Write(CRL_APB_PCAP_CTRL_OFFSET, 0x01003F07U, 0x01000800U);
+/*##################################################################### */
+
+ /*
+ * Register : LPD_SWITCH_CTRL @ 0XFF5E00A8
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_LPD_SWITCH_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_LPD_SWITCH_CTRL_DIVISOR0 0x3
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_LPD_SWITCH_CTRL_SRCSEL 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E00A8, 0x01003F07U ,0x01000302U)
+ */
+ PSU_Mask_Write(CRL_APB_LPD_SWITCH_CTRL_OFFSET,
+ 0x01003F07U, 0x01000302U);
+/*##################################################################### */
+
+ /*
+ * Register : LPD_LSBUS_CTRL @ 0XFF5E00AC
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_LPD_LSBUS_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_LPD_LSBUS_CTRL_DIVISOR0 0xf
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_LPD_LSBUS_CTRL_SRCSEL 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E00AC, 0x01003F07U ,0x01000F02U)
+ */
+ PSU_Mask_Write(CRL_APB_LPD_LSBUS_CTRL_OFFSET,
+ 0x01003F07U, 0x01000F02U);
+/*##################################################################### */
+
+ /*
+ * Register : DBG_LPD_CTRL @ 0XFF5E00B0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_DBG_LPD_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_DBG_LPD_CTRL_DIVISOR0 0x6
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_DBG_LPD_CTRL_SRCSEL 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E00B0, 0x01003F07U ,0x01000602U)
+ */
+ PSU_Mask_Write(CRL_APB_DBG_LPD_CTRL_OFFSET,
+ 0x01003F07U, 0x01000602U);
+/*##################################################################### */
+
+ /*
+ * Register : ADMA_REF_CTRL @ 0XFF5E00B8
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_ADMA_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_ADMA_REF_CTRL_DIVISOR0 0x3
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_ADMA_REF_CTRL_SRCSEL 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E00B8, 0x01003F07U ,0x01000302U)
+ */
+ PSU_Mask_Write(CRL_APB_ADMA_REF_CTRL_OFFSET,
+ 0x01003F07U, 0x01000302U);
+/*##################################################################### */
+
+ /*
+ * Register : PL0_REF_CTRL @ 0XFF5E00C0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_PL0_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_PL0_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_PL0_REF_CTRL_DIVISOR0 0xf
+
+ * 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_PL0_REF_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E00C0, 0x013F3F07U ,0x01010F00U)
+ */
+ PSU_Mask_Write(CRL_APB_PL0_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F00U);
+/*##################################################################### */
+
+ /*
+ * Register : AMS_REF_CTRL @ 0XFF5E0108
+
+ * 6 bit divider
+ * PSU_CRL_APB_AMS_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRL_APB_AMS_REF_CTRL_DIVISOR0 0x1e
+
+ * 000 = RPLL; 010 = IOPLL; 011 = DPLL; (This signal may only be toggled af
+ * ter 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_AMS_REF_CTRL_SRCSEL 0x2
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_AMS_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0108, 0x013F3F07U ,0x01011E02U)
+ */
+ PSU_Mask_Write(CRL_APB_AMS_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01011E02U);
+/*##################################################################### */
+
+ /*
+ * Register : DLL_REF_CTRL @ 0XFF5E0104
+
+ * 000 = IOPLL; 001 = RPLL; (This signal may only be toggled after 4 cycles
+ * of the old clock and 4 cycles of the new clock. This is not usually an
+ * issue, but designers must be aware.)
+ * PSU_CRL_APB_DLL_REF_CTRL_SRCSEL 0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0104, 0x00000007U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_DLL_REF_CTRL_OFFSET,
+ 0x00000007U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : TIMESTAMP_REF_CTRL @ 0XFF5E0128
+
+ * 6 bit divider
+ * PSU_CRL_APB_TIMESTAMP_REF_CTRL_DIVISOR0 0xf
+
+ * 1XX = pss_ref_clk; 000 = IOPLL; 010 = RPLL; 011 = DPLL; (This signal may
+ * only be toggled after 4 cycles of the old clock and 4 cycles of the new
+ * clock. This is not usually an issue, but designers must be aware.)
+ * PSU_CRL_APB_TIMESTAMP_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRL_APB_TIMESTAMP_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFF5E0128, 0x01003F07U ,0x01000F00U)
+ */
+ PSU_Mask_Write(CRL_APB_TIMESTAMP_REF_CTRL_OFFSET,
+ 0x01003F07U, 0x01000F00U);
+/*##################################################################### */
+
+ /*
+ * Register : SATA_REF_CTRL @ 0XFD1A00A0
+
+ * 000 = IOPLL_TO_FPD; 010 = APLL; 011 = DPLL; (This signal may only be tog
+ * gled after 4 cycles of the old clock and 4 cycles of the new clock. This
+ * is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_SATA_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_SATA_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRF_APB_SATA_REF_CTRL_DIVISOR0 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00A0, 0x01003F07U ,0x01000200U)
+ */
+ PSU_Mask_Write(CRF_APB_SATA_REF_CTRL_OFFSET,
+ 0x01003F07U, 0x01000200U);
+/*##################################################################### */
+
+ /*
+ * Register : PCIE_REF_CTRL @ 0XFD1A00B4
+
+ * 000 = IOPLL_TO_FPD; 010 = RPLL_TO_FPD; 011 = DPLL; (This signal may only
+ * be toggled after 4 cycles of the old clock and 4 cycles of the new cloc
+ * k. This is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_PCIE_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_PCIE_REF_CTRL_CLKACT 0x1
+
+ * 6 bit divider
+ * PSU_CRF_APB_PCIE_REF_CTRL_DIVISOR0 0x2
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00B4, 0x01003F07U ,0x01000200U)
+ */
+ PSU_Mask_Write(CRF_APB_PCIE_REF_CTRL_OFFSET,
+ 0x01003F07U, 0x01000200U);
+/*##################################################################### */
+
+ /*
+ * Register : DP_VIDEO_REF_CTRL @ 0XFD1A0070
+
+ * 6 bit divider
+ * PSU_CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRF_APB_DP_VIDEO_REF_CTRL_DIVISOR0 0x5
+
+ * 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (T
+ * his signal may only be toggled after 4 cycles of the old clock and 4 cyc
+ * les of the new clock. This is not usually an issue, but designers must b
+ * e aware.)
+ * PSU_CRF_APB_DP_VIDEO_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_DP_VIDEO_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A0070, 0x013F3F07U ,0x01010500U)
+ */
+ PSU_Mask_Write(CRF_APB_DP_VIDEO_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010500U);
+/*##################################################################### */
+
+ /*
+ * Register : DP_AUDIO_REF_CTRL @ 0XFD1A0074
+
+ * 6 bit divider
+ * PSU_CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRF_APB_DP_AUDIO_REF_CTRL_DIVISOR0 0xf
+
+ * 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD - might be using extra mux; (T
+ * his signal may only be toggled after 4 cycles of the old clock and 4 cyc
+ * les of the new clock. This is not usually an issue, but designers must b
+ * e aware.)
+ * PSU_CRF_APB_DP_AUDIO_REF_CTRL_SRCSEL 0x3
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_DP_AUDIO_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A0074, 0x013F3F07U ,0x01010F03U)
+ */
+ PSU_Mask_Write(CRF_APB_DP_AUDIO_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010F03U);
+/*##################################################################### */
+
+ /*
+ * Register : DP_STC_REF_CTRL @ 0XFD1A007C
+
+ * 6 bit divider
+ * PSU_CRF_APB_DP_STC_REF_CTRL_DIVISOR1 0x1
+
+ * 6 bit divider
+ * PSU_CRF_APB_DP_STC_REF_CTRL_DIVISOR0 0xe
+
+ * 000 = VPLL; 010 = DPLL; 011 = RPLL_TO_FPD; (This signal may only be togg
+ * led after 4 cycles of the old clock and 4 cycles of the new clock. This
+ * is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_DP_STC_REF_CTRL_SRCSEL 0x3
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_DP_STC_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A007C, 0x013F3F07U ,0x01010E03U)
+ */
+ PSU_Mask_Write(CRF_APB_DP_STC_REF_CTRL_OFFSET,
+ 0x013F3F07U, 0x01010E03U);
+/*##################################################################### */
+
+ /*
+ * Register : ACPU_CTRL @ 0XFD1A0060
+
+ * 6 bit divider
+ * PSU_CRF_APB_ACPU_CTRL_DIVISOR0 0x1
+
+ * 000 = APLL; 010 = DPLL; 011 = VPLL; (This signal may only be toggled aft
+ * er 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_ACPU_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock. For the half spee
+ * d APU Clock
+ * PSU_CRF_APB_ACPU_CTRL_CLKACT_HALF 0x1
+
+ * Clock active signal. Switch to 0 to disable the clock. For the full spee
+ * d ACPUX Clock. This will shut off the high speed clock to the entire APU
+ * PSU_CRF_APB_ACPU_CTRL_CLKACT_FULL 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A0060, 0x03003F07U ,0x03000100U)
+ */
+ PSU_Mask_Write(CRF_APB_ACPU_CTRL_OFFSET, 0x03003F07U, 0x03000100U);
+/*##################################################################### */
+
+ /*
+ * Register : DBG_FPD_CTRL @ 0XFD1A0068
+
+ * 6 bit divider
+ * PSU_CRF_APB_DBG_FPD_CTRL_DIVISOR0 0x2
+
+ * 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be tog
+ * gled after 4 cycles of the old clock and 4 cycles of the new clock. This
+ * is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_DBG_FPD_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_DBG_FPD_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A0068, 0x01003F07U ,0x01000200U)
+ */
+ PSU_Mask_Write(CRF_APB_DBG_FPD_CTRL_OFFSET,
+ 0x01003F07U, 0x01000200U);
+/*##################################################################### */
+
+ /*
+ * Register : DDR_CTRL @ 0XFD1A0080
+
+ * 6 bit divider
+ * PSU_CRF_APB_DDR_CTRL_DIVISOR0 0x2
+
+ * 000 = DPLL; 001 = VPLL; (This signal may only be toggled after 4 cycles
+ * of the old clock and 4 cycles of the new clock. This is not usually an i
+ * ssue, but designers must be aware.)
+ * PSU_CRF_APB_DDR_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A0080, 0x00003F07U ,0x00000200U)
+ */
+ PSU_Mask_Write(CRF_APB_DDR_CTRL_OFFSET, 0x00003F07U, 0x00000200U);
+/*##################################################################### */
+
+ /*
+ * Register : GPU_REF_CTRL @ 0XFD1A0084
+
+ * 6 bit divider
+ * PSU_CRF_APB_GPU_REF_CTRL_DIVISOR0 0x1
+
+ * 000 = IOPLL_TO_FPD; 010 = VPLL; 011 = DPLL; (This signal may only be tog
+ * gled after 4 cycles of the old clock and 4 cycles of the new clock. This
+ * is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_GPU_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock, which will stop c
+ * lock for GPU (and both Pixel Processors).
+ * PSU_CRF_APB_GPU_REF_CTRL_CLKACT 0x1
+
+ * Clock active signal for Pixel Processor. Switch to 0 to disable the cloc
+ * k only to this Pixel Processor
+ * PSU_CRF_APB_GPU_REF_CTRL_PP0_CLKACT 0x1
+
+ * Clock active signal for Pixel Processor. Switch to 0 to disable the cloc
+ * k only to this Pixel Processor
+ * PSU_CRF_APB_GPU_REF_CTRL_PP1_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A0084, 0x07003F07U ,0x07000100U)
+ */
+ PSU_Mask_Write(CRF_APB_GPU_REF_CTRL_OFFSET,
+ 0x07003F07U, 0x07000100U);
+/*##################################################################### */
+
+ /*
+ * Register : GDMA_REF_CTRL @ 0XFD1A00B8
+
+ * 6 bit divider
+ * PSU_CRF_APB_GDMA_REF_CTRL_DIVISOR0 0x2
+
+ * 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled aft
+ * er 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_GDMA_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_GDMA_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00B8, 0x01003F07U ,0x01000200U)
+ */
+ PSU_Mask_Write(CRF_APB_GDMA_REF_CTRL_OFFSET,
+ 0x01003F07U, 0x01000200U);
+/*##################################################################### */
+
+ /*
+ * Register : DPDMA_REF_CTRL @ 0XFD1A00BC
+
+ * 6 bit divider
+ * PSU_CRF_APB_DPDMA_REF_CTRL_DIVISOR0 0x2
+
+ * 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled aft
+ * er 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_DPDMA_REF_CTRL_SRCSEL 0x0
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_DPDMA_REF_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00BC, 0x01003F07U ,0x01000200U)
+ */
+ PSU_Mask_Write(CRF_APB_DPDMA_REF_CTRL_OFFSET,
+ 0x01003F07U, 0x01000200U);
+/*##################################################################### */
+
+ /*
+ * Register : TOPSW_MAIN_CTRL @ 0XFD1A00C0
+
+ * 6 bit divider
+ * PSU_CRF_APB_TOPSW_MAIN_CTRL_DIVISOR0 0x2
+
+ * 000 = APLL; 010 = VPLL; 011 = DPLL; (This signal may only be toggled aft
+ * er 4 cycles of the old clock and 4 cycles of the new clock. This is not
+ * usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_TOPSW_MAIN_CTRL_SRCSEL 0x3
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_TOPSW_MAIN_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00C0, 0x01003F07U ,0x01000203U)
+ */
+ PSU_Mask_Write(CRF_APB_TOPSW_MAIN_CTRL_OFFSET,
+ 0x01003F07U, 0x01000203U);
+/*##################################################################### */
+
+ /*
+ * Register : TOPSW_LSBUS_CTRL @ 0XFD1A00C4
+
+ * 6 bit divider
+ * PSU_CRF_APB_TOPSW_LSBUS_CTRL_DIVISOR0 0x5
+
+ * 000 = APLL; 010 = IOPLL_TO_FPD; 011 = DPLL; (This signal may only be tog
+ * gled after 4 cycles of the old clock and 4 cycles of the new clock. This
+ * is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_TOPSW_LSBUS_CTRL_SRCSEL 0x2
+
+ * Clock active signal. Switch to 0 to disable the clock
+ * PSU_CRF_APB_TOPSW_LSBUS_CTRL_CLKACT 0x1
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00C4, 0x01003F07U ,0x01000502U)
+ */
+ PSU_Mask_Write(CRF_APB_TOPSW_LSBUS_CTRL_OFFSET,
+ 0x01003F07U, 0x01000502U);
+/*##################################################################### */
+
+ /*
+ * Register : DBG_TSTMP_CTRL @ 0XFD1A00F8
+
+ * 6 bit divider
+ * PSU_CRF_APB_DBG_TSTMP_CTRL_DIVISOR0 0x2
+
+ * 000 = IOPLL_TO_FPD; 010 = DPLL; 011 = APLL; (This signal may only be tog
+ * gled after 4 cycles of the old clock and 4 cycles of the new clock. This
+ * is not usually an issue, but designers must be aware.)
+ * PSU_CRF_APB_DBG_TSTMP_CTRL_SRCSEL 0x0
+
+ * This register controls this reference clock
+ * (OFFSET, MASK, VALUE) (0XFD1A00F8, 0x00003F07U ,0x00000200U)
+ */
+ PSU_Mask_Write(CRF_APB_DBG_TSTMP_CTRL_OFFSET,
+ 0x00003F07U, 0x00000200U);
+/*##################################################################### */
+
+ /*
+ * Register : IOU_TTC_APB_CLK @ 0XFF180380
+
+ * 00" = Select the APB switch clock for the APB interface of TTC0'01" = Se
+ * lect the PLL ref clock for the APB interface of TTC0'10" = Select the R5
+ * clock for the APB interface of TTC0
+ * PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC0_SEL 0
+
+ * 00" = Select the APB switch clock for the APB interface of TTC1'01" = Se
+ * lect the PLL ref clock for the APB interface of TTC1'10" = Select the R5
+ * clock for the APB interface of TTC1
+ * PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC1_SEL 0
+
+ * 00" = Select the APB switch clock for the APB interface of TTC2'01" = Se
+ * lect the PLL ref clock for the APB interface of TTC2'10" = Select the R5
+ * clock for the APB interface of TTC2
+ * PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC2_SEL 0
+
+ * 00" = Select the APB switch clock for the APB interface of TTC3'01" = Se
+ * lect the PLL ref clock for the APB interface of TTC3'10" = Select the R5
+ * clock for the APB interface of TTC3
+ * PSU_IOU_SLCR_IOU_TTC_APB_CLK_TTC3_SEL 0
+
+ * TTC APB clock select
+ * (OFFSET, MASK, VALUE) (0XFF180380, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_IOU_TTC_APB_CLK_OFFSET,
+ 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : WDT_CLK_SEL @ 0XFD610100
+
+ * System watchdog timer clock source selection: 0: Internal APB clock 1: E
+ * xternal (PL clock via EMIO or Pinout clock via MIO)
+ * PSU_FPD_SLCR_WDT_CLK_SEL_SELECT 0
+
+ * SWDT clock source select
+ * (OFFSET, MASK, VALUE) (0XFD610100, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(FPD_SLCR_WDT_CLK_SEL_OFFSET,
+ 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : WDT_CLK_SEL @ 0XFF180300
+
+ * System watchdog timer clock source selection: 0: internal clock APB cloc
+ * k 1: external clock from PL via EMIO, or from pinout via MIO
+ * PSU_IOU_SLCR_WDT_CLK_SEL_SELECT 0
+
+ * SWDT clock source select
+ * (OFFSET, MASK, VALUE) (0XFF180300, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_WDT_CLK_SEL_OFFSET,
+ 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : CSUPMU_WDT_CLK_SEL @ 0XFF410050
+
+ * System watchdog timer clock source selection: 0: internal clock APB cloc
+ * k 1: external clock pss_ref_clk
+ * PSU_LPD_SLCR_CSUPMU_WDT_CLK_SEL_SELECT 0
+
+ * SWDT clock source select
+ * (OFFSET, MASK, VALUE) (0XFF410050, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(LPD_SLCR_CSUPMU_WDT_CLK_SEL_OFFSET,
+ 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_ddr_init_data(void)
+{
+ /*
+ * DDR INITIALIZATION
+ */
+ /*
+ * DDR CONTROLLER RESET
+ */
+ /*
+ * Register : RST_DDR_SS @ 0XFD1A0108
+
+ * DDR block level reset inside of the DDR Sub System
+ * PSU_CRF_APB_RST_DDR_SS_DDR_RESET 0X1
+
+ * DDR sub system block level reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0108, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_DDR_SS_OFFSET, 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MSTR @ 0XFD070000
+
+ * Indicates the configuration of the device used in the system. - 00 - x4
+ * device - 01 - x8 device - 10 - x16 device - 11 - x32 device
+ * PSU_DDRC_MSTR_DEVICE_CONFIG 0x1
+
+ * Choose which registers are used. - 0 - Original registers - 1 - Shadow r
+ * egisters
+ * PSU_DDRC_MSTR_FREQUENCY_MODE 0x0
+
+ * Only present for multi-rank configurations. Each bit represents one rank
+ * . For two-rank configurations, only bits[25:24] are present. - 1 - popul
+ * ated - 0 - unpopulated LSB is the lowest rank number. For 2 ranks follow
+ * ing combinations are legal: - 01 - One rank - 11 - Two ranks - Others -
+ * Reserved. For 4 ranks following combinations are legal: - 0001 - One ran
+ * k - 0011 - Two ranks - 1111 - Four ranks
+ * PSU_DDRC_MSTR_ACTIVE_RANKS 0x1
+
+ * SDRAM burst length used: - 0001 - Burst length of 2 (only supported for
+ * mDDR) - 0010 - Burst length of 4 - 0100 - Burst length of 8 - 1000 - Bur
+ * st length of 16 (only supported for mDDR, LPDDR2, and LPDDR4) All other
+ * values are reserved. This controls the burst size used to access the SDR
+ * AM. This must match the burst length mode register setting in the SDRAM.
+ * (For BC4/8 on-the-fly mode of DDR3 and DDR4, set this field to 0x0100)
+ * Burst length of 2 is not supported with AXI ports when MEMC_BURST_LENGTH
+ * is 8. Burst length of 2 is only supported with MEMC_FREQ_RATIO = 1
+ * PSU_DDRC_MSTR_BURST_RDWR 0x4
+
+ * Set to 1 when the uMCTL2 and DRAM has to be put in DLL-off mode for low
+ * frequency operation. Set to 0 to put uMCTL2 and DRAM in DLL-on mode for
+ * normal frequency operation. If DDR4 CRC/parity retry is enabled (CRCPARC
+ * TL1.crc_parity_retry_enable = 1), dll_off_mode is not supported, and thi
+ * s bit must be set to '0'.
+ * PSU_DDRC_MSTR_DLL_OFF_MODE 0x0
+
+ * Selects proportion of DQ bus width that is used by the SDRAM - 00 - Full
+ * DQ bus width to SDRAM - 01 - Half DQ bus width to SDRAM - 10 - Quarter
+ * DQ bus width to SDRAM - 11 - Reserved. Note that half bus width mode is
+ * only supported when the SDRAM bus width is a multiple of 16, and quarter
+ * bus width mode is only supported when the SDRAM bus width is a multiple
+ * of 32 and the configuration parameter MEMC_QBUS_SUPPORT is set. Bus wid
+ * th refers to DQ bus width (excluding any ECC width).
+ * PSU_DDRC_MSTR_DATA_BUS_WIDTH 0x0
+
+ * 1 indicates put the DRAM in geardown mode (2N) and 0 indicates put the D
+ * RAM in normal mode (1N). This register can be changed, only when the Con
+ * troller is in self-refresh mode. This signal must be set the same value
+ * as MR3 bit A3. Note: Geardown mode is not supported if the configuration
+ * parameter MEMC_CMD_RTN2IDLE is set
+ * PSU_DDRC_MSTR_GEARDOWN_MODE 0x0
+
+ * If 1, then uMCTL2 uses 2T timing. Otherwise, uses 1T timing. In 2T timin
+ * g, all command signals (except chip select) are held for 2 clocks on the
+ * SDRAM bus. Chip select is asserted on the second cycle of the command N
+ * ote: 2T timing is not supported in LPDDR2/LPDDR3/LPDDR4 mode Note: 2T ti
+ * ming is not supported if the configuration parameter MEMC_CMD_RTN2IDLE i
+ * s set Note: 2T timing is not supported in DDR4 geardown mode.
+ * PSU_DDRC_MSTR_EN_2T_TIMING_MODE 0x0
+
+ * When set, enable burst-chop in DDR3/DDR4. Burst Chop for Reads is exerci
+ * sed only in HIF configurations (UMCTL2_INCL_ARB not set) and if in full
+ * bus width mode (MSTR.data_bus_width = 00). Burst Chop for Writes is exer
+ * cised only if Partial Writes enabled (UMCTL2_PARTIAL_WR=1) and if CRC is
+ * disabled (CRCPARCTL1.crc_enable = 0). If DDR4 CRC/parity retry is enabl
+ * ed (CRCPARCTL1.crc_parity_retry_enable = 1), burst chop is not supported
+ * , and this bit must be set to '0'
+ * PSU_DDRC_MSTR_BURSTCHOP 0x0
+
+ * Select LPDDR4 SDRAM - 1 - LPDDR4 SDRAM device in use. - 0 - non-LPDDR4 d
+ * evice in use Present only in designs configured to support LPDDR4.
+ * PSU_DDRC_MSTR_LPDDR4 0x0
+
+ * Select DDR4 SDRAM - 1 - DDR4 SDRAM device in use. - 0 - non-DDR4 device
+ * in use Present only in designs configured to support DDR4.
+ * PSU_DDRC_MSTR_DDR4 0x1
+
+ * Select LPDDR3 SDRAM - 1 - LPDDR3 SDRAM device in use. - 0 - non-LPDDR3 d
+ * evice in use Present only in designs configured to support LPDDR3.
+ * PSU_DDRC_MSTR_LPDDR3 0x0
+
+ * Select LPDDR2 SDRAM - 1 - LPDDR2 SDRAM device in use. - 0 - non-LPDDR2 d
+ * evice in use Present only in designs configured to support LPDDR2.
+ * PSU_DDRC_MSTR_LPDDR2 0x0
+
+ * Select DDR3 SDRAM - 1 - DDR3 SDRAM device in use - 0 - non-DDR3 SDRAM de
+ * vice in use Only present in designs that support DDR3.
+ * PSU_DDRC_MSTR_DDR3 0x0
+
+ * Master Register
+ * (OFFSET, MASK, VALUE) (0XFD070000, 0xE30FBE3DU ,0x41040010U)
+ */
+ PSU_Mask_Write(DDRC_MSTR_OFFSET, 0xE30FBE3DU, 0x41040010U);
+/*##################################################################### */
+
+ /*
+ * Register : MRCTRL0 @ 0XFD070010
+
+ * Setting this register bit to 1 triggers a mode register read or write op
+ * eration. When the MR operation is complete, the uMCTL2 automatically cle
+ * ars this bit. The other register fields of this register must be written
+ * in a separate APB transaction, before setting this mr_wr bit. It is rec
+ * ommended NOT to set this signal if in Init, Deep power-down or MPSM oper
+ * ating modes.
+ * PSU_DDRC_MRCTRL0_MR_WR 0x0
+
+ * Address of the mode register that is to be written to. - 0000 - MR0 - 00
+ * 01 - MR1 - 0010 - MR2 - 0011 - MR3 - 0100 - MR4 - 0101 - MR5 - 0110 - MR
+ * 6 - 0111 - MR7 Don't Care for LPDDR2/LPDDR3/LPDDR4 (see MRCTRL1.mr_data
+ * for mode register addressing in LPDDR2/LPDDR3/LPDDR4) This signal is als
+ * o used for writing to control words of RDIMMs. In that case, it correspo
+ * nds to the bank address bits sent to the RDIMM In case of DDR4, the bit[
+ * 3:2] corresponds to the bank group bits. Therefore, the bit[3] as well a
+ * s the bit[2:0] must be set to an appropriate value which is considered b
+ * oth the Address Mirroring of UDIMMs/RDIMMs and the Output Inversion of R
+ * DIMMs.
+ * PSU_DDRC_MRCTRL0_MR_ADDR 0x0
+
+ * Controls which rank is accessed by MRCTRL0.mr_wr. Normally, it is desire
+ * d to access all ranks, so all bits should be set to 1. However, for mult
+ * i-rank UDIMMs/RDIMMs which implement address mirroring, it may be necess
+ * ary to access ranks individually. Examples (assume uMCTL2 is configured
+ * for 4 ranks): - 0x1 - select rank 0 only - 0x2 - select rank 1 only - 0x
+ * 5 - select ranks 0 and 2 - 0xA - select ranks 1 and 3 - 0xF - select ran
+ * ks 0, 1, 2 and 3
+ * PSU_DDRC_MRCTRL0_MR_RANK 0x3
+
+ * Indicates whether Software intervention is allowed via MRCTRL0/MRCTRL1 b
+ * efore automatic SDRAM initialization routine or not. For DDR4, this bit
+ * can be used to initialize the DDR4 RCD (MR7) before automatic SDRAM init
+ * ialization. For LPDDR4, this bit can be used to program additional mode
+ * registers before automatic SDRAM initialization if necessary. Note: This
+ * must be cleared to 0 after completing Software operation. Otherwise, SD
+ * RAM initialization routine will not re-start. - 0 - Software interventio
+ * n is not allowed - 1 - Software intervention is allowed
+ * PSU_DDRC_MRCTRL0_SW_INIT_INT 0x0
+
+ * Indicates whether the mode register operation is MRS in PDA mode or not
+ * - 0 - MRS - 1 - MRS in Per DRAM Addressability mode
+ * PSU_DDRC_MRCTRL0_PDA_EN 0x0
+
+ * Indicates whether the mode register operation is MRS or WR/RD for MPR (o
+ * nly supported for DDR4) - 0 - MRS - 1 - WR/RD for MPR
+ * PSU_DDRC_MRCTRL0_MPR_EN 0x0
+
+ * Indicates whether the mode register operation is read or write. Only use
+ * d for LPDDR2/LPDDR3/LPDDR4/DDR4. - 0 - Write - 1 - Read
+ * PSU_DDRC_MRCTRL0_MR_TYPE 0x0
+
+ * Mode Register Read/Write Control Register 0. Note: Do not enable more th
+ * an one of the following fields simultaneously: - sw_init_int - pda_en -
+ * mpr_en
+ * (OFFSET, MASK, VALUE) (0XFD070010, 0x8000F03FU ,0x00000030U)
+ */
+ PSU_Mask_Write(DDRC_MRCTRL0_OFFSET, 0x8000F03FU, 0x00000030U);
+/*##################################################################### */
+
+ /*
+ * Register : DERATEEN @ 0XFD070020
+
+ * Derate value of tRC for LPDDR4 - 0 - Derating uses +1. - 1 - Derating us
+ * es +2. - 2 - Derating uses +3. - 3 - Derating uses +4. Present only in d
+ * esigns configured to support LPDDR4. The required number of cycles for d
+ * erating can be determined by dividing 3.75ns by the core_ddrc_core_clk p
+ * eriod, and rounding up the next integer.
+ * PSU_DDRC_DERATEEN_RC_DERATE_VALUE 0x2
+
+ * Derate byte Present only in designs configured to support LPDDR2/LPDDR3/
+ * LPDDR4 Indicates which byte of the MRR data is used for derating. The ma
+ * ximum valid value depends on MEMC_DRAM_TOTAL_DATA_WIDTH.
+ * PSU_DDRC_DERATEEN_DERATE_BYTE 0x0
+
+ * Derate value - 0 - Derating uses +1. - 1 - Derating uses +2. Present onl
+ * y in designs configured to support LPDDR2/LPDDR3/LPDDR4 Set to 0 for all
+ * LPDDR2 speed grades as derating value of +1.875 ns is less than a core_
+ * ddrc_core_clk period. Can be 0 or 1 for LPDDR3/LPDDR4, depending if +1.8
+ * 75 ns is less than a core_ddrc_core_clk period or not.
+ * PSU_DDRC_DERATEEN_DERATE_VALUE 0x0
+
+ * Enables derating - 0 - Timing parameter derating is disabled - 1 - Timin
+ * g parameter derating is enabled using MR4 read value. Present only in de
+ * signs configured to support LPDDR2/LPDDR3/LPDDR4 This field must be set
+ * to '0' for non-LPDDR2/LPDDR3/LPDDR4 mode.
+ * PSU_DDRC_DERATEEN_DERATE_ENABLE 0x0
+
+ * Temperature Derate Enable Register
+ * (OFFSET, MASK, VALUE) (0XFD070020, 0x000003F3U ,0x00000200U)
+ */
+ PSU_Mask_Write(DDRC_DERATEEN_OFFSET, 0x000003F3U, 0x00000200U);
+/*##################################################################### */
+
+ /*
+ * Register : DERATEINT @ 0XFD070024
+
+ * Interval between two MR4 reads, used to derate the timing parameters. Pr
+ * esent only in designs configured to support LPDDR2/LPDDR3/LPDDR4. This r
+ * egister must not be set to zero
+ * PSU_DDRC_DERATEINT_MR4_READ_INTERVAL 0x800000
+
+ * Temperature Derate Interval Register
+ * (OFFSET, MASK, VALUE) (0XFD070024, 0xFFFFFFFFU ,0x00800000U)
+ */
+ PSU_Mask_Write(DDRC_DERATEINT_OFFSET, 0xFFFFFFFFU, 0x00800000U);
+/*##################################################################### */
+
+ /*
+ * Register : PWRCTL @ 0XFD070030
+
+ * Self refresh state is an intermediate state to enter to Self refresh pow
+ * er down state or exit Self refresh power down state for LPDDR4. This reg
+ * ister controls transition from the Self refresh state. - 1 - Prohibit tr
+ * ansition from Self refresh state - 0 - Allow transition from Self refres
+ * h state
+ * PSU_DDRC_PWRCTL_STAY_IN_SELFREF 0x0
+
+ * A value of 1 to this register causes system to move to Self Refresh stat
+ * e immediately, as long as it is not in INIT or DPD/MPSM operating_mode.
+ * This is referred to as Software Entry/Exit to Self Refresh. - 1 - Softwa
+ * re Entry to Self Refresh - 0 - Software Exit from Self Refresh
+ * PSU_DDRC_PWRCTL_SELFREF_SW 0x0
+
+ * When this is 1, the uMCTL2 puts the SDRAM into maximum power saving mode
+ * when the transaction store is empty. This register must be reset to '0'
+ * to bring uMCTL2 out of maximum power saving mode. Present only in desig
+ * ns configured to support DDR4. For non-DDR4, this register should not be
+ * set to 1. Note that MPSM is not supported when using a DWC DDR PHY, if
+ * the PHY parameter DWC_AC_CS_USE is disabled, as the MPSM exit sequence r
+ * equires the chip-select signal to toggle. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PWRCTL_MPSM_EN 0x0
+
+ * Enable the assertion of dfi_dram_clk_disable whenever a clock is not req
+ * uired by the SDRAM. If set to 0, dfi_dram_clk_disable is never asserted.
+ * Assertion of dfi_dram_clk_disable is as follows: In DDR2/DDR3, can only
+ * be asserted in Self Refresh. In DDR4, can be asserted in following: - i
+ * n Self Refresh. - in Maximum Power Saving Mode In mDDR/LPDDR2/LPDDR3, ca
+ * n be asserted in following: - in Self Refresh - in Power Down - in Deep
+ * Power Down - during Normal operation (Clock Stop) In LPDDR4, can be asse
+ * rted in following: - in Self Refresh Power Down - in Power Down - during
+ * Normal operation (Clock Stop)
+ * PSU_DDRC_PWRCTL_EN_DFI_DRAM_CLK_DISABLE 0x0
+
+ * When this is 1, uMCTL2 puts the SDRAM into deep power-down mode when the
+ * transaction store is empty. This register must be reset to '0' to bring
+ * uMCTL2 out of deep power-down mode. Controller performs automatic SDRAM
+ * initialization on deep power-down exit. Present only in designs configu
+ * red to support mDDR or LPDDR2 or LPDDR3. For non-mDDR/non-LPDDR2/non-LPD
+ * DR3, this register should not be set to 1. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PWRCTL_DEEPPOWERDOWN_EN 0x0
+
+ * If true then the uMCTL2 goes into power-down after a programmable number
+ * of cycles 'maximum idle clocks before power down' (PWRTMG.powerdown_to_
+ * x32). This register bit may be re-programmed during the course of normal
+ * operation.
+ * PSU_DDRC_PWRCTL_POWERDOWN_EN 0x0
+
+ * If true then the uMCTL2 puts the SDRAM into Self Refresh after a program
+ * mable number of cycles 'maximum idle clocks before Self Refresh (PWRTMG.
+ * selfref_to_x32)'. This register bit may be re-programmed during the cour
+ * se of normal operation.
+ * PSU_DDRC_PWRCTL_SELFREF_EN 0x0
+
+ * Low Power Control Register
+ * (OFFSET, MASK, VALUE) (0XFD070030, 0x0000007FU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_PWRCTL_OFFSET, 0x0000007FU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : PWRTMG @ 0XFD070034
+
+ * After this many clocks of NOP or deselect the uMCTL2 automatically puts
+ * the SDRAM into Self Refresh. This must be enabled in the PWRCTL.selfref_
+ * en. Unit: Multiples of 32 clocks. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PWRTMG_SELFREF_TO_X32 0x40
+
+ * Minimum deep power-down time. For mDDR, value from the JEDEC specificati
+ * on is 0 as mDDR exits from deep power-down mode immediately after PWRCTL
+ * .deeppowerdown_en is de-asserted. For LPDDR2/LPDDR3, value from the JEDE
+ * C specification is 500us. Unit: Multiples of 4096 clocks. Present only i
+ * n designs configured to support mDDR, LPDDR2 or LPDDR3. FOR PERFORMANCE
+ * ONLY.
+ * PSU_DDRC_PWRTMG_T_DPD_X4096 0x84
+
+ * After this many clocks of NOP or deselect the uMCTL2 automatically puts
+ * the SDRAM into power-down. This must be enabled in the PWRCTL.powerdown_
+ * en. Unit: Multiples of 32 clocks FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PWRTMG_POWERDOWN_TO_X32 0x10
+
+ * Low Power Timing Register
+ * (OFFSET, MASK, VALUE) (0XFD070034, 0x00FFFF1FU ,0x00408410U)
+ */
+ PSU_Mask_Write(DDRC_PWRTMG_OFFSET, 0x00FFFF1FU, 0x00408410U);
+/*##################################################################### */
+
+ /*
+ * Register : RFSHCTL0 @ 0XFD070050
+
+ * Threshold value in number of clock cycles before the critical refresh or
+ * page timer expires. A critical refresh is to be issued before this thre
+ * shold is reached. It is recommended that this not be changed from the de
+ * fault value, currently shown as 0x2. It must always be less than interna
+ * lly used t_rfc_nom_x32. Note that, in LPDDR2/LPDDR3/LPDDR4, internally u
+ * sed t_rfc_nom_x32 may be equal to RFSHTMG.t_rfc_nom_x32>>2 if derating i
+ * s enabled (DERATEEN.derate_enable=1). Otherwise, internally used t_rfc_n
+ * om_x32 will be equal to RFSHTMG.t_rfc_nom_x32. Unit: Multiples of 32 clo
+ * cks.
+ * PSU_DDRC_RFSHCTL0_REFRESH_MARGIN 0x2
+
+ * If the refresh timer (tRFCnom, also known as tREFI) has expired at least
+ * once, but it has not expired (RFSHCTL0.refresh_burst+1) times yet, then
+ * a speculative refresh may be performed. A speculative refresh is a refr
+ * esh performed at a time when refresh would be useful, but before it is a
+ * bsolutely required. When the SDRAM bus is idle for a period of time dete
+ * rmined by this RFSHCTL0.refresh_to_x32 and the refresh timer has expired
+ * at least once since the last refresh, then a speculative refresh is per
+ * formed. Speculative refreshes continues successively until there are no
+ * refreshes pending or until new reads or writes are issued to the uMCTL2.
+ * FOR PERFORMANCE ONLY.
+ * PSU_DDRC_RFSHCTL0_REFRESH_TO_X32 0x10
+
+ * The programmed value + 1 is the number of refresh timeouts that is allow
+ * ed to accumulate before traffic is blocked and the refreshes are forced
+ * to execute. Closing pages to perform a refresh is a one-time penalty tha
+ * t must be paid for each group of refreshes. Therefore, performing refres
+ * hes in a burst reduces the per-refresh penalty of these page closings. H
+ * igher numbers for RFSHCTL.refresh_burst slightly increases utilization;
+ * lower numbers decreases the worst-case latency associated with refreshes
+ * . - 0 - single refresh - 1 - burst-of-2 refresh - 7 - burst-of-8 refresh
+ * For information on burst refresh feature refer to section 3.9 of DDR2 J
+ * EDEC specification - JESD79-2F.pdf. For DDR2/3, the refresh is always pe
+ * r-rank and not per-bank. The rank refresh can be accumulated over 8*tREF
+ * I cycles using the burst refresh feature. In DDR4 mode, according to Fin
+ * e Granularity feature, 8 refreshes can be postponed in 1X mode, 16 refre
+ * shes in 2X mode and 32 refreshes in 4X mode. If using PHY-initiated upda
+ * tes, care must be taken in the setting of RFSHCTL0.refresh_burst, to ens
+ * ure that tRFCmax is not violated due to a PHY-initiated update occurring
+ * shortly before a refresh burst was due. In this situation, the refresh
+ * burst will be delayed until the PHY-initiated update is complete.
+ * PSU_DDRC_RFSHCTL0_REFRESH_BURST 0x0
+
+ * - 1 - Per bank refresh; - 0 - All bank refresh. Per bank refresh allows
+ * traffic to flow to other banks. Per bank refresh is not supported by all
+ * LPDDR2 devices but should be supported by all LPDDR3/LPDDR4 devices. Pr
+ * esent only in designs configured to support LPDDR2/LPDDR3/LPDDR4
+ * PSU_DDRC_RFSHCTL0_PER_BANK_REFRESH 0x0
+
+ * Refresh Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070050, 0x00F1F1F4U ,0x00210000U)
+ */
+ PSU_Mask_Write(DDRC_RFSHCTL0_OFFSET, 0x00F1F1F4U, 0x00210000U);
+/*##################################################################### */
+
+ /*
+ * Register : RFSHCTL1 @ 0XFD070054
+
+ * Refresh timer start for rank 1 (only present in multi-rank configuration
+ * s). This is useful in staggering the refreshes to multiple ranks to help
+ * traffic to proceed. This is explained in Refresh Controls section of ar
+ * chitecture chapter. Unit: Multiples of 32 clocks. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_RFSHCTL1_REFRESH_TIMER1_START_VALUE_X32 0x0
+
+ * Refresh timer start for rank 0 (only present in multi-rank configuration
+ * s). This is useful in staggering the refreshes to multiple ranks to help
+ * traffic to proceed. This is explained in Refresh Controls section of ar
+ * chitecture chapter. Unit: Multiples of 32 clocks. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_RFSHCTL1_REFRESH_TIMER0_START_VALUE_X32 0x0
+
+ * Refresh Control Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070054, 0x0FFF0FFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_RFSHCTL1_OFFSET, 0x0FFF0FFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : RFSHCTL3 @ 0XFD070060
+
+ * Fine Granularity Refresh Mode - 000 - Fixed 1x (Normal mode) - 001 - Fix
+ * ed 2x - 010 - Fixed 4x - 101 - Enable on the fly 2x (not supported) - 11
+ * 0 - Enable on the fly 4x (not supported) - Everything else - reserved No
+ * te: The on-the-fly modes is not supported in this version of the uMCTL2.
+ * Note: This must be set up while the Controller is in reset or while the
+ * Controller is in self-refresh mode. Changing this during normal operati
+ * on is not allowed. Making this a dynamic register will be supported in f
+ * uture version of the uMCTL2.
+ * PSU_DDRC_RFSHCTL3_REFRESH_MODE 0x0
+
+ * Toggle this signal (either from 0 to 1 or from 1 to 0) to indicate that
+ * the refresh register(s) have been updated. The value is automatically up
+ * dated when exiting reset, so it does not need to be toggled initially.
+ * PSU_DDRC_RFSHCTL3_REFRESH_UPDATE_LEVEL 0x0
+
+ * When '1', disable auto-refresh generated by the uMCTL2. When auto-refres
+ * h is disabled, the SoC core must generate refreshes using the registers
+ * reg_ddrc_rank0_refresh, reg_ddrc_rank1_refresh, reg_ddrc_rank2_refresh a
+ * nd reg_ddrc_rank3_refresh. When dis_auto_refresh transitions from 0 to 1
+ * , any pending refreshes are immediately scheduled by the uMCTL2. If DDR4
+ * CRC/parity retry is enabled (CRCPARCTL1.crc_parity_retry_enable = 1), d
+ * isable auto-refresh is not supported, and this bit must be set to '0'. T
+ * his register field is changeable on the fly.
+ * PSU_DDRC_RFSHCTL3_DIS_AUTO_REFRESH 0x1
+
+ * Refresh Control Register 3
+ * (OFFSET, MASK, VALUE) (0XFD070060, 0x00000073U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_RFSHCTL3_OFFSET, 0x00000073U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : RFSHTMG @ 0XFD070064
+
+ * tREFI: Average time interval between refreshes per rank (Specification:
+ * 7.8us for DDR2, DDR3 and DDR4. See JEDEC specification for mDDR, LPDDR2,
+ * LPDDR3 and LPDDR4). For LPDDR2/LPDDR3/LPDDR4: - if using all-bank refre
+ * shes (RFSHCTL0.per_bank_refresh = 0), this register should be set to tRE
+ * FIab - if using per-bank refreshes (RFSHCTL0.per_bank_refresh = 1), this
+ * register should be set to tREFIpb For configurations with MEMC_FREQ_RAT
+ * IO=2, program this to (tREFI/2), no rounding up. In DDR4 mode, tREFI val
+ * ue is different depending on the refresh mode. The user should program t
+ * he appropriate value from the spec based on the value programmed in the
+ * refresh mode register. Note that RFSHTMG.t_rfc_nom_x32 * 32 must be grea
+ * ter than RFSHTMG.t_rfc_min, and RFSHTMG.t_rfc_nom_x32 must be greater th
+ * an 0x1. Unit: Multiples of 32 clocks.
+ * PSU_DDRC_RFSHTMG_T_RFC_NOM_X32 0x81
+
+ * Used only when LPDDR3 memory type is connected. Should only be changed w
+ * hen uMCTL2 is in reset. Specifies whether to use the tREFBW parameter (r
+ * equired by some LPDDR3 devices which comply with earlier versions of the
+ * LPDDR3 JEDEC specification) or not: - 0 - tREFBW parameter not used - 1
+ * - tREFBW parameter used
+ * PSU_DDRC_RFSHTMG_LPDDR3_TREFBW_EN 0x1
+
+ * tRFC (min): Minimum time from refresh to refresh or activate. For MEMC_F
+ * REQ_RATIO=1 configurations, t_rfc_min should be set to RoundUp(tRFCmin/t
+ * CK). For MEMC_FREQ_RATIO=2 configurations, t_rfc_min should be set to Ro
+ * undUp(RoundUp(tRFCmin/tCK)/2). In LPDDR2/LPDDR3/LPDDR4 mode: - if using
+ * all-bank refreshes, the tRFCmin value in the above equations is equal to
+ * tRFCab - if using per-bank refreshes, the tRFCmin value in the above eq
+ * uations is equal to tRFCpb In DDR4 mode, the tRFCmin value in the above
+ * equations is different depending on the refresh mode (fixed 1X,2X,4X) an
+ * d the device density. The user should program the appropriate value from
+ * the spec based on the 'refresh_mode' and the device density that is use
+ * d. Unit: Clocks.
+ * PSU_DDRC_RFSHTMG_T_RFC_MIN 0x8b
+
+ * Refresh Timing Register
+ * (OFFSET, MASK, VALUE) (0XFD070064, 0x0FFF83FFU ,0x0081808BU)
+ */
+ PSU_Mask_Write(DDRC_RFSHTMG_OFFSET, 0x0FFF83FFU, 0x0081808BU);
+/*##################################################################### */
+
+ /*
+ * Register : ECCCFG0 @ 0XFD070070
+
+ * Disable ECC scrubs. Valid only when ECCCFG0.ecc_mode = 3'b100 and MEMC_U
+ * SE_RMW is defined
+ * PSU_DDRC_ECCCFG0_DIS_SCRUB 0x1
+
+ * ECC mode indicator - 000 - ECC disabled - 100 - ECC enabled - SEC/DED ov
+ * er 1 beat - all other settings are reserved for future use
+ * PSU_DDRC_ECCCFG0_ECC_MODE 0x0
+
+ * ECC Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070070, 0x00000017U ,0x00000010U)
+ */
+ PSU_Mask_Write(DDRC_ECCCFG0_OFFSET, 0x00000017U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : ECCCFG1 @ 0XFD070074
+
+ * Selects whether to poison 1 or 2 bits - if 0 -> 2-bit (uncorrectable) da
+ * ta poisoning, if 1 -> 1-bit (correctable) data poisoning, if ECCCFG1.dat
+ * a_poison_en=1
+ * PSU_DDRC_ECCCFG1_DATA_POISON_BIT 0x0
+
+ * Enable ECC data poisoning - introduces ECC errors on writes to address s
+ * pecified by the ECCPOISONADDR0/1 registers
+ * PSU_DDRC_ECCCFG1_DATA_POISON_EN 0x0
+
+ * ECC Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070074, 0x00000003U ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_ECCCFG1_OFFSET, 0x00000003U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : CRCPARCTL1 @ 0XFD0700C4
+
+ * The maximum number of DFI PHY clock cycles allowed from the assertion of
+ * the dfi_rddata_en signal to the assertion of each of the corresponding
+ * bits of the dfi_rddata_valid signal. This corresponds to the DFI timing
+ * parameter tphy_rdlat. Refer to PHY specification for correct value. This
+ * value it only used for detecting read data timeout when DDR4 retry is e
+ * nabled by CRCPARCTL1.crc_parity_retry_enable=1. Maximum supported value:
+ * - 1:1 Frequency mode : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_r
+ * dlat < 'd114 - 1:2 Frequency mode ANDAND DFITMG0.dfi_rddata_use_sdr == 1
+ * : CRCPARCTL1.dfi_t_phy_rdlat < 64 - 1:2 Frequency mode ANDAND DFITMG0.d
+ * fi_rddata_use_sdr == 0 : DFITMG0.dfi_t_rddata_en + CRCPARCTL1.dfi_t_phy_
+ * rdlat < 'd114 Unit: DFI Clocks
+ * PSU_DDRC_CRCPARCTL1_DFI_T_PHY_RDLAT 0x10
+
+ * After a Parity or CRC error is flagged on dfi_alert_n signal, the softwa
+ * re has an option to read the mode registers in the DRAM before the hardw
+ * are begins the retry process - 1: Wait for software to read/write the mo
+ * de registers before hardware begins the retry. After software is done wi
+ * th its operations, it will clear the alert interrupt register bit - 0: H
+ * ardware can begin the retry right away after the dfi_alert_n pulse goes
+ * away. The value on this register is valid only when retry is enabled (PA
+ * RCTRL.crc_parity_retry_enable = 1) If this register is set to 1 and if t
+ * he software doesn't clear the interrupt register after handling the pari
+ * ty/CRC error, then the hardware will not begin the retry process and the
+ * system will hang. In the case of Parity/CRC error, there are two possib
+ * ilities when the software doesn't reset MR5[4] to 0. - (i) If 'Persisten
+ * t parity' mode register bit is NOT set: the commands sent during retry a
+ * nd normal operation are executed without parity checking. The value in t
+ * he Parity error log register MPR Page 1 is valid. - (ii) If 'Persistent
+ * parity' mode register bit is SET: Parity checking is done for commands s
+ * ent during retry and normal operation. If multiple errors occur before M
+ * R5[4] is cleared, the error log in MPR Page 1 should be treated as 'Don'
+ * t care'.
+ * PSU_DDRC_CRCPARCTL1_ALERT_WAIT_FOR_SW 0x1
+
+ * - 1: Enable command retry mechanism in case of C/A Parity or CRC error -
+ * 0: Disable command retry mechanism when C/A Parity or CRC features are
+ * enabled. Note that retry functionality is not supported if burst chop is
+ * enabled (MSTR.burstchop = 1) and/or disable auto-refresh is enabled (RF
+ * SHCTL3.dis_auto_refresh = 1)
+ * PSU_DDRC_CRCPARCTL1_CRC_PARITY_RETRY_ENABLE 0x0
+
+ * CRC Calculation setting register - 1: CRC includes DM signal - 0: CRC no
+ * t includes DM signal Present only in designs configured to support DDR4.
+ * PSU_DDRC_CRCPARCTL1_CRC_INC_DM 0x0
+
+ * CRC enable Register - 1: Enable generation of CRC - 0: Disable generatio
+ * n of CRC The setting of this register should match the CRC mode register
+ * setting in the DRAM.
+ * PSU_DDRC_CRCPARCTL1_CRC_ENABLE 0x0
+
+ * C/A Parity enable register - 1: Enable generation of C/A parity and dete
+ * ction of C/A parity error - 0: Disable generation of C/A parity and disa
+ * ble detection of C/A parity error If RCD's parity error detection or SDR
+ * AM's parity detection is enabled, this register should be 1.
+ * PSU_DDRC_CRCPARCTL1_PARITY_ENABLE 0x0
+
+ * CRC Parity Control Register1
+ * (OFFSET, MASK, VALUE) (0XFD0700C4, 0x3F000391U ,0x10000200U)
+ */
+ PSU_Mask_Write(DDRC_CRCPARCTL1_OFFSET, 0x3F000391U, 0x10000200U);
+/*##################################################################### */
+
+ /*
+ * Register : CRCPARCTL2 @ 0XFD0700C8
+
+ * Value from the DRAM spec indicating the maximum width of the dfi_alert_n
+ * pulse when a parity error occurs. Recommended values: - tPAR_ALERT_PW.M
+ * AX For configurations with MEMC_FREQ_RATIO=2, program this to tPAR_ALERT
+ * _PW.MAX/2 and round up to next integer value. Values of 0, 1 and 2 are i
+ * llegal. This value must be greater than CRCPARCTL2.t_crc_alert_pw_max.
+ * PSU_DDRC_CRCPARCTL2_T_PAR_ALERT_PW_MAX 0x40
+
+ * Value from the DRAM spec indicating the maximum width of the dfi_alert_n
+ * pulse when a CRC error occurs. Recommended values: - tCRC_ALERT_PW.MAX
+ * For configurations with MEMC_FREQ_RATIO=2, program this to tCRC_ALERT_PW
+ * .MAX/2 and round up to next integer value. Values of 0, 1 and 2 are ille
+ * gal. This value must be less than CRCPARCTL2.t_par_alert_pw_max.
+ * PSU_DDRC_CRCPARCTL2_T_CRC_ALERT_PW_MAX 0x5
+
+ * Indicates the maximum duration in number of DRAM clock cycles for which
+ * a command should be held in the Command Retry FIFO before it is popped o
+ * ut. Every location in the Command Retry FIFO has an associated down coun
+ * ting timer that will use this register as the start value. The down coun
+ * ting starts when a command is loaded into the FIFO. The timer counts dow
+ * n every 4 DRAM cycles. When the counter reaches zero, the entry is poppe
+ * d from the FIFO. All the counters are frozen, if a C/A Parity or CRC err
+ * or occurs before the counter reaches zero. The counter is reset to 0, af
+ * ter all the commands in the FIFO are retried. Recommended(minimum) value
+ * s: - Only C/A Parity is enabled. RoundUp((PHY Command Latency(DRAM CLK)
+ * + CAL + RDIMM delay + tPAR_ALERT_ON.max + tPAR_UNKNOWN + PHY Alert Laten
+ * cy(DRAM CLK) + board delay) / 4) + 2 - Both C/A Parity and CRC is enable
+ * d/ Only CRC is enabled. RoundUp((PHY Command Latency(DRAM CLK) + CAL + R
+ * DIMM delay + WL + 5(BL10)+ tCRC_ALERT.max + PHY Alert Latency(DRAM CLK)
+ * + board delay) / 4) + 2 Note 1: All value (e.g. tPAR_ALERT_ON) should be
+ * in terms of DRAM Clock and round up Note 2: Board delay(Command/Alert_n
+ * ) should be considered. Note 3: Use the worst case(longer) value for PHY
+ * Latencies/Board delay Note 4: The Recommended values are minimum value
+ * to be set. For mode detail, See 'Calculation of FIFO Depth' section. Max
+ * value can be set to this register is defined below: - MEMC_BURST_LENGTH
+ * == 16 Full bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2
+ * Full bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Half b
+ * us Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-4 Half bus Mod
+ * e (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-6 Quarter bus Mode (C
+ * RC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-8 Quarter bus Mode (CRC=
+ * ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-12 - MEMC_BURST_LENGTH != 16
+ * Full bus Mode (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-1 Full
+ * bus Mode (CRC=ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mod
+ * e (CRC=OFF) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-2 Half bus Mode (CRC
+ * =ON) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-3 Quarter bus Mode (CRC=OFF
+ * ) Max value = UMCTL2_RETRY_CMD_FIFO_DEPTH-4 Quarter bus Mode (CRC=ON) Ma
+ * x value = UMCTL2_RETRY_CMD_FIFO_DEPTH-6 Values of 0, 1 and 2 are illegal
+ * .
+ * PSU_DDRC_CRCPARCTL2_RETRY_FIFO_MAX_HOLD_TIMER_X4 0x1f
+
+ * CRC Parity Control Register2
+ * (OFFSET, MASK, VALUE) (0XFD0700C8, 0x01FF1F3FU ,0x0040051FU)
+ */
+ PSU_Mask_Write(DDRC_CRCPARCTL2_OFFSET, 0x01FF1F3FU, 0x0040051FU);
+/*##################################################################### */
+
+ /*
+ * Register : INIT0 @ 0XFD0700D0
+
+ * If lower bit is enabled the SDRAM initialization routine is skipped. The
+ * upper bit decides what state the controller starts up in when reset is
+ * removed - 00 - SDRAM Intialization routine is run after power-up - 01 -
+ * SDRAM Intialization routine is skipped after power-up. Controller starts
+ * up in Normal Mode - 11 - SDRAM Intialization routine is skipped after p
+ * ower-up. Controller starts up in Self-refresh Mode - 10 - SDRAM Intializ
+ * ation routine is run after power-up. Note: The only 2'b00 is supported f
+ * or LPDDR4 in this version of the uMCTL2.
+ * PSU_DDRC_INIT0_SKIP_DRAM_INIT 0x0
+
+ * Cycles to wait after driving CKE high to start the SDRAM initialization
+ * sequence. Unit: 1024 clocks. DDR2 typically requires a 400 ns delay, req
+ * uiring this value to be programmed to 2 at all clock speeds. LPDDR2/LPDD
+ * R3 typically requires this to be programmed for a delay of 200 us. LPDDR
+ * 4 typically requires this to be programmed for a delay of 2 us. For conf
+ * igurations with MEMC_FREQ_RATIO=2, program this to JEDEC spec value divi
+ * ded by 2, and round it up to next integer value.
+ * PSU_DDRC_INIT0_POST_CKE_X1024 0x2
+
+ * Cycles to wait after reset before driving CKE high to start the SDRAM in
+ * itialization sequence. Unit: 1024 clock cycles. DDR2 specifications typi
+ * cally require this to be programmed for a delay of >= 200 us. LPDDR2/LPD
+ * DR3: tINIT1 of 100 ns (min) LPDDR4: tINIT3 of 2 ms (min) For configurati
+ * ons with MEMC_FREQ_RATIO=2, program this to JEDEC spec value divided by
+ * 2, and round it up to next integer value.
+ * PSU_DDRC_INIT0_PRE_CKE_X1024 0x106
+
+ * SDRAM Initialization Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0700D0, 0xC3FF0FFFU ,0x00020106U)
+ */
+ PSU_Mask_Write(DDRC_INIT0_OFFSET, 0xC3FF0FFFU, 0x00020106U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT1 @ 0XFD0700D4
+
+ * Number of cycles to assert SDRAM reset signal during init sequence. This
+ * is only present for designs supporting DDR3, DDR4 or LPDDR4 devices. Fo
+ * r use with a DDR PHY, this should be set to a minimum of 1
+ * PSU_DDRC_INIT1_DRAM_RSTN_X1024 0x2
+
+ * Cycles to wait after completing the SDRAM initialization sequence before
+ * starting the dynamic scheduler. Unit: Counts of a global timer that pul
+ * ses every 32 clock cycles. There is no known specific requirement for th
+ * is; it may be set to zero.
+ * PSU_DDRC_INIT1_FINAL_WAIT_X32 0x0
+
+ * Wait period before driving the OCD complete command to SDRAM. Unit: Coun
+ * ts of a global timer that pulses every 32 clock cycles. There is no know
+ * n specific requirement for this; it may be set to zero.
+ * PSU_DDRC_INIT1_PRE_OCD_X32 0x0
+
+ * SDRAM Initialization Register 1
+ * (OFFSET, MASK, VALUE) (0XFD0700D4, 0x01FF7F0FU ,0x00020000U)
+ */
+ PSU_Mask_Write(DDRC_INIT1_OFFSET, 0x01FF7F0FU, 0x00020000U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT2 @ 0XFD0700D8
+
+ * Idle time after the reset command, tINIT4. Present only in designs confi
+ * gured to support LPDDR2. Unit: 32 clock cycles.
+ * PSU_DDRC_INIT2_IDLE_AFTER_RESET_X32 0x23
+
+ * Time to wait after the first CKE high, tINIT2. Present only in designs c
+ * onfigured to support LPDDR2/LPDDR3. Unit: 1 clock cycle. LPDDR2/LPDDR3 t
+ * ypically requires 5 x tCK delay.
+ * PSU_DDRC_INIT2_MIN_STABLE_CLOCK_X1 0x5
+
+ * SDRAM Initialization Register 2
+ * (OFFSET, MASK, VALUE) (0XFD0700D8, 0x0000FF0FU ,0x00002305U)
+ */
+ PSU_Mask_Write(DDRC_INIT2_OFFSET, 0x0000FF0FU, 0x00002305U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT3 @ 0XFD0700DC
+
+ * DDR2: Value to write to MR register. Bit 8 is for DLL and the setting he
+ * re is ignored. The uMCTL2 sets this bit appropriately. DDR3/DDR4: Value
+ * loaded into MR0 register. mDDR: Value to write to MR register. LPDDR2/LP
+ * DDR3/LPDDR4 - Value to write to MR1 register
+ * PSU_DDRC_INIT3_MR 0x730
+
+ * DDR2: Value to write to EMR register. Bits 9:7 are for OCD and the setti
+ * ng in this register is ignored. The uMCTL2 sets those bits appropriately
+ * . DDR3/DDR4: Value to write to MR1 register Set bit 7 to 0. If PHY-evalu
+ * ation mode training is enabled, this bit is set appropriately by the uMC
+ * TL2 during write leveling. mDDR: Value to write to EMR register. LPDDR2/
+ * LPDDR3/LPDDR4 - Value to write to MR2 register
+ * PSU_DDRC_INIT3_EMR 0x301
+
+ * SDRAM Initialization Register 3
+ * (OFFSET, MASK, VALUE) (0XFD0700DC, 0xFFFFFFFFU ,0x07300301U)
+ */
+ PSU_Mask_Write(DDRC_INIT3_OFFSET, 0xFFFFFFFFU, 0x07300301U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT4 @ 0XFD0700E0
+
+ * DDR2: Value to write to EMR2 register. DDR3/DDR4: Value to write to MR2
+ * register LPDDR2/LPDDR3/LPDDR4: Value to write to MR3 register mDDR: Unus
+ * ed
+ * PSU_DDRC_INIT4_EMR2 0x20
+
+ * DDR2: Value to write to EMR3 register. DDR3/DDR4: Value to write to MR3
+ * register mDDR/LPDDR2/LPDDR3: Unused LPDDR4: Value to write to MR13 regis
+ * ter
+ * PSU_DDRC_INIT4_EMR3 0x200
+
+ * SDRAM Initialization Register 4
+ * (OFFSET, MASK, VALUE) (0XFD0700E0, 0xFFFFFFFFU ,0x00200200U)
+ */
+ PSU_Mask_Write(DDRC_INIT4_OFFSET, 0xFFFFFFFFU, 0x00200200U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT5 @ 0XFD0700E4
+
+ * ZQ initial calibration, tZQINIT. Present only in designs configured to s
+ * upport DDR3 or DDR4 or LPDDR2/LPDDR3. Unit: 32 clock cycles. DDR3 typica
+ * lly requires 512 clocks. DDR4 requires 1024 clocks. LPDDR2/LPDDR3 requir
+ * es 1 us.
+ * PSU_DDRC_INIT5_DEV_ZQINIT_X32 0x21
+
+ * Maximum duration of the auto initialization, tINIT5. Present only in des
+ * igns configured to support LPDDR2/LPDDR3. LPDDR2/LPDDR3 typically requir
+ * es 10 us.
+ * PSU_DDRC_INIT5_MAX_AUTO_INIT_X1024 0x4
+
+ * SDRAM Initialization Register 5
+ * (OFFSET, MASK, VALUE) (0XFD0700E4, 0x00FF03FFU ,0x00210004U)
+ */
+ PSU_Mask_Write(DDRC_INIT5_OFFSET, 0x00FF03FFU, 0x00210004U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT6 @ 0XFD0700E8
+
+ * DDR4- Value to be loaded into SDRAM MR4 registers. Used in DDR4 designs
+ * only.
+ * PSU_DDRC_INIT6_MR4 0x0
+
+ * DDR4- Value to be loaded into SDRAM MR5 registers. Used in DDR4 designs
+ * only.
+ * PSU_DDRC_INIT6_MR5 0x6c0
+
+ * SDRAM Initialization Register 6
+ * (OFFSET, MASK, VALUE) (0XFD0700E8, 0xFFFFFFFFU ,0x000006C0U)
+ */
+ PSU_Mask_Write(DDRC_INIT6_OFFSET, 0xFFFFFFFFU, 0x000006C0U);
+/*##################################################################### */
+
+ /*
+ * Register : INIT7 @ 0XFD0700EC
+
+ * DDR4- Value to be loaded into SDRAM MR6 registers. Used in DDR4 designs
+ * only.
+ * PSU_DDRC_INIT7_MR6 0x819
+
+ * SDRAM Initialization Register 7
+ * (OFFSET, MASK, VALUE) (0XFD0700EC, 0xFFFF0000U ,0x08190000U)
+ */
+ PSU_Mask_Write(DDRC_INIT7_OFFSET, 0xFFFF0000U, 0x08190000U);
+/*##################################################################### */
+
+ /*
+ * Register : DIMMCTL @ 0XFD0700F0
+
+ * Disabling Address Mirroring for BG bits. When this is set to 1, BG0 and
+ * BG1 are NOT swapped even if Address Mirroring is enabled. This will be r
+ * equired for DDR4 DIMMs with x16 devices. - 1 - BG0 and BG1 are NOT swapp
+ * ed. - 0 - BG0 and BG1 are swapped if address mirroring is enabled.
+ * PSU_DDRC_DIMMCTL_DIMM_DIS_BG_MIRRORING 0x0
+
+ * Enable for BG1 bit of MRS command. BG1 bit of the mode register address
+ * is specified as RFU (Reserved for Future Use) and must be programmed to
+ * 0 during MRS. In case where DRAMs which do not have BG1 are attached and
+ * both the CA parity and the Output Inversion are enabled, this must be s
+ * et to 0, so that the calculation of CA parity will not include BG1 bit.
+ * Note: This has no effect on the address of any other memory accesses, or
+ * of software-driven mode register accesses. If address mirroring is enab
+ * led, this is applied to BG1 of even ranks and BG0 of odd ranks. - 1 - En
+ * abled - 0 - Disabled
+ * PSU_DDRC_DIMMCTL_MRS_BG1_EN 0x1
+
+ * Enable for A17 bit of MRS command. A17 bit of the mode register address
+ * is specified as RFU (Reserved for Future Use) and must be programmed to
+ * 0 during MRS. In case where DRAMs which do not have A17 are attached and
+ * the Output Inversion are enabled, this must be set to 0, so that the ca
+ * lculation of CA parity will not include A17 bit. Note: This has no effec
+ * t on the address of any other memory accesses, or of software-driven mod
+ * e register accesses. - 1 - Enabled - 0 - Disabled
+ * PSU_DDRC_DIMMCTL_MRS_A17_EN 0x0
+
+ * Output Inversion Enable (for DDR4 RDIMM implementations only). DDR4 RDIM
+ * M implements the Output Inversion feature by default, which means that t
+ * he following address, bank address and bank group bits of B-side DRAMs a
+ * re inverted: A3-A9, A11, A13, A17, BA0-BA1, BG0-BG1. Setting this bit en
+ * sures that, for mode register accesses generated by the uMCTL2 during th
+ * e automatic initialization routine and enabling of a particular DDR4 fea
+ * ture, separate A-side and B-side mode register accesses are generated. F
+ * or B-side mode register accesses, these bits are inverted within the uMC
+ * TL2 to compensate for this RDIMM inversion. Note: This has no effect on
+ * the address of any other memory accesses, or of software-driven mode reg
+ * ister accesses. - 1 - Implement output inversion for B-side DRAMs. - 0 -
+ * Do not implement output inversion for B-side DRAMs.
+ * PSU_DDRC_DIMMCTL_DIMM_OUTPUT_INV_EN 0x0
+
+ * Address Mirroring Enable (for multi-rank UDIMM implementations and multi
+ * -rank DDR4 RDIMM implementations). Some UDIMMs and DDR4 RDIMMs implement
+ * address mirroring for odd ranks, which means that the following address
+ * , bank address and bank group bits are swapped: (A3, A4), (A5, A6), (A7,
+ * A8), (BA0, BA1) and also (A11, A13), (BG0, BG1) for the DDR4. Setting t
+ * his bit ensures that, for mode register accesses during the automatic in
+ * itialization routine, these bits are swapped within the uMCTL2 to compen
+ * sate for this UDIMM/RDIMM swapping. In addition to the automatic initial
+ * ization routine, in case of DDR4 UDIMM/RDIMM, they are swapped during th
+ * e automatic MRS access to enable/disable of a particular DDR4 feature. N
+ * ote: This has no effect on the address of any other memory accesses, or
+ * of software-driven mode register accesses. This is not supported for mDD
+ * R, LPDDR2, LPDDR3 or LPDDR4 SDRAMs. Note: In case of x16 DDR4 DIMMs, BG1
+ * output of MRS for the odd ranks is same as BG0 because BG1 is invalid,
+ * hence dimm_dis_bg_mirroring register must be set to 1. - 1 - For odd ran
+ * ks, implement address mirroring for MRS commands to during initializatio
+ * n and for any automatic DDR4 MRS commands (to be used if UDIMM/RDIMM imp
+ * lements address mirroring) - 0 - Do not implement address mirroring
+ * PSU_DDRC_DIMMCTL_DIMM_ADDR_MIRR_EN 0x0
+
+ * Staggering enable for multi-rank accesses (for multi-rank UDIMM and RDIM
+ * M implementations only). This is not supported for mDDR, LPDDR2, LPDDR3
+ * or LPDDR4 SDRAMs. Note: Even if this bit is set it does not take care of
+ * software driven MR commands (via MRCTRL0/MRCTRL1), where software is re
+ * sponsible to send them to seperate ranks as appropriate. - 1 - (DDR4) Se
+ * nd MRS commands to each ranks seperately - 1 - (non-DDR4) Send all comma
+ * nds to even and odd ranks seperately - 0 - Do not stagger accesses
+ * PSU_DDRC_DIMMCTL_DIMM_STAGGER_CS_EN 0x0
+
+ * DIMM Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0700F0, 0x0000003FU ,0x00000010U)
+ */
+ PSU_Mask_Write(DDRC_DIMMCTL_OFFSET, 0x0000003FU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : RANKCTL @ 0XFD0700F4
+
+ * Only present for multi-rank configurations. Indicates the number of cloc
+ * ks of gap in data responses when performing consecutive writes to differ
+ * ent ranks. This is used to switch the delays in the PHY to match the ran
+ * k requirements. This value should consider both PHY requirement and ODT
+ * requirement. - PHY requirement: tphy_wrcsgap + 1 (see PHY databook for v
+ * alue of tphy_wrcsgap) If CRC feature is enabled, should be increased by
+ * 1. If write preamble is set to 2tCK(DDR4/LPDDR4 only), should be increas
+ * ed by 1. If write postamble is set to 1.5tCK(LPDDR4 only), should be inc
+ * reased by 1. - ODT requirement: The value programmed in this register ta
+ * kes care of the ODT switch off timing requirement when switching ranks d
+ * uring writes. For LPDDR4, the requirement is ODTLoff - ODTLon - BL/2 + 1
+ * For configurations with MEMC_FREQ_RATIO=1, program this to the larger o
+ * f PHY requirement or ODT requirement. For configurations with MEMC_FREQ_
+ * RATIO=2, program this to the larger value divided by two and round it up
+ * to the next integer.
+ * PSU_DDRC_RANKCTL_DIFF_RANK_WR_GAP 0x6
+
+ * Only present for multi-rank configurations. Indicates the number of cloc
+ * ks of gap in data responses when performing consecutive reads to differe
+ * nt ranks. This is used to switch the delays in the PHY to match the rank
+ * requirements. This value should consider both PHY requirement and ODT r
+ * equirement. - PHY requirement: tphy_rdcsgap + 1 (see PHY databook for va
+ * lue of tphy_rdcsgap) If read preamble is set to 2tCK(DDR4/LPDDR4 only),
+ * should be increased by 1. If read postamble is set to 1.5tCK(LPDDR4 only
+ * ), should be increased by 1. - ODT requirement: The value programmed in
+ * this register takes care of the ODT switch off timing requirement when s
+ * witching ranks during reads. For configurations with MEMC_FREQ_RATIO=1,
+ * program this to the larger of PHY requirement or ODT requirement. For co
+ * nfigurations with MEMC_FREQ_RATIO=2, program this to the larger value di
+ * vided by two and round it up to the next integer.
+ * PSU_DDRC_RANKCTL_DIFF_RANK_RD_GAP 0x6
+
+ * Only present for multi-rank configurations. Background: Reads to the sam
+ * e rank can be performed back-to-back. Reads to different ranks require a
+ * dditional gap dictated by the register RANKCTL.diff_rank_rd_gap. This is
+ * to avoid possible data bus contention as well as to give PHY enough tim
+ * e to switch the delay when changing ranks. The uMCTL2 arbitrates for bus
+ * access on a cycle-by-cycle basis; therefore after a read is scheduled,
+ * there are few clock cycles (determined by the value on RANKCTL.diff_rank
+ * _rd_gap register) in which only reads from the same rank are eligible to
+ * be scheduled. This prevents reads from other ranks from having fair acc
+ * ess to the data bus. This parameter represents the maximum number of rea
+ * ds that can be scheduled consecutively to the same rank. After this numb
+ * er is reached, a delay equal to RANKCTL.diff_rank_rd_gap is inserted by
+ * the scheduler to allow all ranks a fair opportunity to be scheduled. Hig
+ * her numbers increase bandwidth utilization, lower numbers increase fairn
+ * ess. This feature can be DISABLED by setting this register to 0. When se
+ * t to 0, the Controller will stay on the same rank as long as commands ar
+ * e available for it. Minimum programmable value is 0 (feature disabled) a
+ * nd maximum programmable value is 0xF. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_RANKCTL_MAX_RANK_RD 0xf
+
+ * Rank Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0700F4, 0x00000FFFU ,0x0000066FU)
+ */
+ PSU_Mask_Write(DDRC_RANKCTL_OFFSET, 0x00000FFFU, 0x0000066FU);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG0 @ 0XFD070100
+
+ * Minimum time between write and precharge to same bank. Unit: Clocks Spec
+ * ifications: WL + BL/2 + tWR = approximately 8 cycles + 15 ns = 14 clocks
+ * @400MHz and less for lower frequencies where: - WL = write latency - BL
+ * = burst length. This must match the value programmed in the BL bit of t
+ * he mode register to the SDRAM. BST (burst terminate) is not supported at
+ * present. - tWR = Write recovery time. This comes directly from the SDRA
+ * M specification. Add one extra cycle for LPDDR2/LPDDR3/LPDDR4 for this p
+ * arameter. For configurations with MEMC_FREQ_RATIO=2, 1T mode, divide the
+ * above value by 2. No rounding up. For configurations with MEMC_FREQ_RAT
+ * IO=2, 2T mode or LPDDR4 mode, divide the above value by 2 and round it u
+ * p to the next integer value.
+ * PSU_DDRC_DRAMTMG0_WR2PRE 0x11
+
+ * tFAW Valid only when 8 or more banks(or banks x bank groups) are present
+ * . In 8-bank design, at most 4 banks must be activated in a rolling windo
+ * w of tFAW cycles. For configurations with MEMC_FREQ_RATIO=2, program thi
+ * s to (tFAW/2) and round up to next integer value. In a 4-bank design, se
+ * t this register to 0x1 independent of the MEMC_FREQ_RATIO configuration.
+ * Unit: Clocks
+ * PSU_DDRC_DRAMTMG0_T_FAW 0x10
+
+ * tRAS(max): Maximum time between activate and precharge to same bank. Thi
+ * s is the maximum time that a page can be kept open Minimum value of this
+ * register is 1. Zero is invalid. For configurations with MEMC_FREQ_RATIO
+ * =2, program this to (tRAS(max)-1)/2. No rounding up. Unit: Multiples of
+ * 1024 clocks.
+ * PSU_DDRC_DRAMTMG0_T_RAS_MAX 0x24
+
+ * tRAS(min): Minimum time between activate and precharge to the same bank.
+ * For configurations with MEMC_FREQ_RATIO=2, 1T mode, program this to tRA
+ * S(min)/2. No rounding up. For configurations with MEMC_FREQ_RATIO=2, 2T
+ * mode or LPDDR4 mode, program this to (tRAS(min)/2) and round it up to th
+ * e next integer value. Unit: Clocks
+ * PSU_DDRC_DRAMTMG0_T_RAS_MIN 0x12
+
+ * SDRAM Timing Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070100, 0x7F3F7F3FU ,0x11102412U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG0_OFFSET, 0x7F3F7F3FU, 0x11102412U);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG1 @ 0XFD070104
+
+ * tXP: Minimum time after power-down exit to any operation. For DDR3, this
+ * should be programmed to tXPDLL if slow powerdown exit is selected in MR
+ * 0[12]. If C/A parity for DDR4 is used, set to (tXP+PL) instead. For conf
+ * igurations with MEMC_FREQ_RATIO=2, program this to (tXP/2) and round it
+ * up to the next integer value. Units: Clocks
+ * PSU_DDRC_DRAMTMG1_T_XP 0x4
+
+ * tRTP: Minimum time from read to precharge of same bank. - DDR2: tAL + BL
+ * /2 + max(tRTP, 2) - 2 - DDR3: tAL + max (tRTP, 4) - DDR4: Max of followi
+ * ng two equations: tAL + max (tRTP, 4) or, RL + BL/2 - tRP. - mDDR: BL/2
+ * - LPDDR2: Depends on if it's LPDDR2-S2 or LPDDR2-S4: LPDDR2-S2: BL/2 + t
+ * RTP - 1. LPDDR2-S4: BL/2 + max(tRTP,2) - 2. - LPDDR3: BL/2 + max(tRTP,4)
+ * - 4 - LPDDR4: BL/2 + max(tRTP,8) - 8 For configurations with MEMC_FREQ_
+ * RATIO=2, 1T mode, divide the above value by 2. No rounding up. For confi
+ * gurations with MEMC_FREQ_RATIO=2, 2T mode or LPDDR4 mode, divide the abo
+ * ve value by 2 and round it up to the next integer value. Unit: Clocks.
+ * PSU_DDRC_DRAMTMG1_RD2PRE 0x4
+
+ * tRC: Minimum time between activates to same bank. For configurations wit
+ * h MEMC_FREQ_RATIO=2, program this to (tRC/2) and round up to next intege
+ * r value. Unit: Clocks.
+ * PSU_DDRC_DRAMTMG1_T_RC 0x1a
+
+ * SDRAM Timing Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070104, 0x001F1F7FU ,0x0004041AU)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG1_OFFSET, 0x001F1F7FU, 0x0004041AU);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG2 @ 0XFD070108
+
+ * Set to WL Time from write command to write data on SDRAM interface. This
+ * must be set to WL. For mDDR, it should normally be set to 1. Note that,
+ * depending on the PHY, if using RDIMM, it may be necessary to use a valu
+ * e of WL + 1 to compensate for the extra cycle of latency through the RDI
+ * MM For configurations with MEMC_FREQ_RATIO=2, divide the value calculate
+ * d using the above equation by 2, and round it up to next integer. This r
+ * egister field is not required for DDR2 and DDR3 (except if MEMC_TRAINING
+ * is set), as the DFI read and write latencies defined in DFITMG0 and DFI
+ * TMG1 are sufficient for those protocols Unit: clocks
+ * PSU_DDRC_DRAMTMG2_WRITE_LATENCY 0x7
+
+ * Set to RL Time from read command to read data on SDRAM interface. This m
+ * ust be set to RL. Note that, depending on the PHY, if using RDIMM, it ma
+ * t be necessary to use a value of RL + 1 to compensate for the extra cycl
+ * e of latency through the RDIMM For configurations with MEMC_FREQ_RATIO=2
+ * , divide the value calculated using the above equation by 2, and round i
+ * t up to next integer. This register field is not required for DDR2 and D
+ * DR3 (except if MEMC_TRAINING is set), as the DFI read and write latencie
+ * s defined in DFITMG0 and DFITMG1 are sufficient for those protocols Unit
+ * : clocks
+ * PSU_DDRC_DRAMTMG2_READ_LATENCY 0x8
+
+ * DDR2/3/mDDR: RL + BL/2 + 2 - WL DDR4: RL + BL/2 + 1 + WR_PREAMBLE - WL L
+ * PDDR2/LPDDR3: RL + BL/2 + RU(tDQSCKmax/tCK) + 1 - WL LPDDR4(DQ ODT is Di
+ * sabled): RL + BL/2 + RU(tDQSCKmax/tCK) + WR_PREAMBLE + RD_POSTAMBLE - WL
+ * LPDDR4(DQ ODT is Enabled) : RL + BL/2 + RU(tDQSCKmax/tCK) + RD_POSTAMBL
+ * E - ODTLon - RU(tODTon(min)/tCK) Minimum time from read command to write
+ * command. Include time for bus turnaround and all per-bank, per-rank, an
+ * d global constraints. Unit: Clocks. Where: - WL = write latency - BL = b
+ * urst length. This must match the value programmed in the BL bit of the m
+ * ode register to the SDRAM - RL = read latency = CAS latency - WR_PREAMBL
+ * E = write preamble. This is unique to DDR4 and LPDDR4. - RD_POSTAMBLE =
+ * read postamble. This is unique to LPDDR4. For LPDDR2/LPDDR3/LPDDR4, if d
+ * erating is enabled (DERATEEN.derate_enable=1), derated tDQSCKmax should
+ * be used. For configurations with MEMC_FREQ_RATIO=2, divide the value cal
+ * culated using the above equation by 2, and round it up to next integer.
+ * PSU_DDRC_DRAMTMG2_RD2WR 0x6
+
+ * DDR4: CWL + PL + BL/2 + tWTR_L Others: CWL + BL/2 + tWTR In DDR4, minimu
+ * m time from write command to read command for same bank group. In others
+ * , minimum time from write command to read command. Includes time for bus
+ * turnaround, recovery times, and all per-bank, per-rank, and global cons
+ * traints. Unit: Clocks. Where: - CWL = CAS write latency - PL = Parity la
+ * tency - BL = burst length. This must match the value programmed in the B
+ * L bit of the mode register to the SDRAM - tWTR_L = internal write to rea
+ * d command delay for same bank group. This comes directly from the SDRAM
+ * specification. - tWTR = internal write to read command delay. This comes
+ * directly from the SDRAM specification. Add one extra cycle for LPDDR2/L
+ * PDDR3/LPDDR4 operation. For configurations with MEMC_FREQ_RATIO=2, divid
+ * e the value calculated using the above equation by 2, and round it up to
+ * next integer.
+ * PSU_DDRC_DRAMTMG2_WR2RD 0xd
+
+ * SDRAM Timing Register 2
+ * (OFFSET, MASK, VALUE) (0XFD070108, 0x3F3F3F3FU ,0x0708060DU)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG2_OFFSET, 0x3F3F3F3FU, 0x0708060DU);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG3 @ 0XFD07010C
+
+ * Time to wait after a mode register write or read (MRW or MRR). Present o
+ * nly in designs configured to support LPDDR2, LPDDR3 or LPDDR4. LPDDR2 ty
+ * pically requires value of 5. LPDDR3 typically requires value of 10. LPDD
+ * R4: Set this to the larger of tMRW and tMRWCKEL. For LPDDR2, this regist
+ * er is used for the time from a MRW/MRR to all other commands. For LDPDR3
+ * , this register is used for the time from a MRW/MRR to a MRW/MRR.
+ * PSU_DDRC_DRAMTMG3_T_MRW 0x5
+
+ * tMRD: Cycles to wait after a mode register write or read. Depending on t
+ * he connected SDRAM, tMRD represents: DDR2/mDDR: Time from MRS to any com
+ * mand DDR3/4: Time from MRS to MRS command LPDDR2: not used LPDDR3/4: Tim
+ * e from MRS to non-MRS command For configurations with MEMC_FREQ_RATIO=2,
+ * program this to (tMRD/2) and round it up to the next integer value. If
+ * C/A parity for DDR4 is used, set to tMRD_PAR(tMOD+PL) instead.
+ * PSU_DDRC_DRAMTMG3_T_MRD 0x4
+
+ * tMOD: Parameter used only in DDR3 and DDR4. Cycles between load mode com
+ * mand and following non-load mode command. If C/A parity for DDR4 is used
+ * , set to tMOD_PAR(tMOD+PL) instead. Set to tMOD if MEMC_FREQ_RATIO=1, or
+ * tMOD/2 (rounded up to next integer) if MEMC_FREQ_RATIO=2. Note that if
+ * using RDIMM, depending on the PHY, it may be necessary to use a value of
+ * tMOD + 1 or (tMOD + 1)/2 to compensate for the extra cycle of latency a
+ * pplied to mode register writes by the RDIMM chip.
+ * PSU_DDRC_DRAMTMG3_T_MOD 0xc
+
+ * SDRAM Timing Register 3
+ * (OFFSET, MASK, VALUE) (0XFD07010C, 0x3FF3F3FFU ,0x0050400CU)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG3_OFFSET, 0x3FF3F3FFU, 0x0050400CU);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG4 @ 0XFD070110
+
+ * tRCD - tAL: Minimum time from activate to read or write command to same
+ * bank. For configurations with MEMC_FREQ_RATIO=2, program this to ((tRCD
+ * - tAL)/2) and round it up to the next integer value. Minimum value allow
+ * ed for this register is 1, which implies minimum (tRCD - tAL) value to b
+ * e 2 in configurations with MEMC_FREQ_RATIO=2. Unit: Clocks.
+ * PSU_DDRC_DRAMTMG4_T_RCD 0x8
+
+ * DDR4: tCCD_L: This is the minimum time between two reads or two writes f
+ * or same bank group. Others: tCCD: This is the minimum time between two r
+ * eads or two writes. For configurations with MEMC_FREQ_RATIO=2, program t
+ * his to (tCCD_L/2 or tCCD/2) and round it up to the next integer value. U
+ * nit: clocks.
+ * PSU_DDRC_DRAMTMG4_T_CCD 0x3
+
+ * DDR4: tRRD_L: Minimum time between activates from bank 'a' to bank 'b' f
+ * or same bank group. Others: tRRD: Minimum time between activates from ba
+ * nk 'a' to bank 'b'For configurations with MEMC_FREQ_RATIO=2, program thi
+ * s to (tRRD_L/2 or tRRD/2) and round it up to the next integer value. Uni
+ * t: Clocks.
+ * PSU_DDRC_DRAMTMG4_T_RRD 0x3
+
+ * tRP: Minimum time from precharge to activate of same bank. For MEMC_FREQ
+ * _RATIO=1 configurations, t_rp should be set to RoundUp(tRP/tCK). For MEM
+ * C_FREQ_RATIO=2 configurations, t_rp should be set to RoundDown(RoundUp(t
+ * RP/tCK)/2) + 1. For MEMC_FREQ_RATIO=2 configurations in LPDDR4, t_rp sho
+ * uld be set to RoundUp(RoundUp(tRP/tCK)/2). Unit: Clocks.
+ * PSU_DDRC_DRAMTMG4_T_RP 0x9
+
+ * SDRAM Timing Register 4
+ * (OFFSET, MASK, VALUE) (0XFD070110, 0x1F0F0F1FU ,0x08030309U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG4_OFFSET, 0x1F0F0F1FU, 0x08030309U);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG5 @ 0XFD070114
+
+ * This is the time before Self Refresh Exit that CK is maintained as a val
+ * id clock before issuing SRX. Specifies the clock stable time before SRX.
+ * Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCK
+ * EH - DDR2: 1 - DDR3: tCKSRX - DDR4: tCKSRX For configurations with MEMC_
+ * FREQ_RATIO=2, program this to recommended value divided by two and round
+ * it up to next integer.
+ * PSU_DDRC_DRAMTMG5_T_CKSRX 0x6
+
+ * This is the time after Self Refresh Down Entry that CK is maintained as
+ * a valid clock. Specifies the clock disable delay after SRE. Recommended
+ * settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL - DDR2: 1
+ * - DDR3: max (10 ns, 5 tCK) - DDR4: max (10 ns, 5 tCK) For configurations
+ * with MEMC_FREQ_RATIO=2, program this to recommended value divided by tw
+ * o and round it up to next integer.
+ * PSU_DDRC_DRAMTMG5_T_CKSRE 0x6
+
+ * Minimum CKE low width for Self refresh or Self refresh power down entry
+ * to exit timing in memory clock cycles. Recommended settings: - mDDR: tRF
+ * C - LPDDR2: tCKESR - LPDDR3: tCKESR - LPDDR4: max(tCKELPD, tSR) - DDR2:
+ * tCKE - DDR3: tCKE + 1 - DDR4: tCKE + 1 For configurations with MEMC_FREQ
+ * _RATIO=2, program this to recommended value divided by two and round it
+ * up to next integer.
+ * PSU_DDRC_DRAMTMG5_T_CKESR 0x4
+
+ * Minimum number of cycles of CKE HIGH/LOW during power-down and self refr
+ * esh. - LPDDR2/LPDDR3 mode: Set this to the larger of tCKE or tCKESR - LP
+ * DDR4 mode: Set this to the larger of tCKE, tCKELPD or tSR. - Non-LPDDR2/
+ * non-LPDDR3/non-LPDDR4 designs: Set this to tCKE value. For configuration
+ * s with MEMC_FREQ_RATIO=2, program this to (value described above)/2 and
+ * round it up to the next integer value. Unit: Clocks.
+ * PSU_DDRC_DRAMTMG5_T_CKE 0x3
+
+ * SDRAM Timing Register 5
+ * (OFFSET, MASK, VALUE) (0XFD070114, 0x0F0F3F1FU ,0x06060403U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG5_OFFSET, 0x0F0F3F1FU, 0x06060403U);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG6 @ 0XFD070118
+
+ * This is the time after Deep Power Down Entry that CK is maintained as a
+ * valid clock. Specifies the clock disable delay after DPDE. Recommended s
+ * ettings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 For configurations with MEMC_
+ * FREQ_RATIO=2, program this to recommended value divided by two and round
+ * it up to next integer. This is only present for designs supporting mDDR
+ * or LPDDR2/LPDDR3 devices.
+ * PSU_DDRC_DRAMTMG6_T_CKDPDE 0x1
+
+ * This is the time before Deep Power Down Exit that CK is maintained as a
+ * valid clock before issuing DPDX. Specifies the clock stable time before
+ * DPDX. Recommended settings: - mDDR: 1 - LPDDR2: 2 - LPDDR3: 2 For config
+ * urations with MEMC_FREQ_RATIO=2, program this to recommended value divid
+ * ed by two and round it up to next integer. This is only present for desi
+ * gns supporting mDDR or LPDDR2 devices.
+ * PSU_DDRC_DRAMTMG6_T_CKDPDX 0x1
+
+ * This is the time before Clock Stop Exit that CK is maintained as a valid
+ * clock before issuing Clock Stop Exit. Specifies the clock stable time b
+ * efore next command after Clock Stop Exit. Recommended settings: - mDDR:
+ * 1 - LPDDR2: tXP + 2 - LPDDR3: tXP + 2 - LPDDR4: tXP + 2 For configuratio
+ * ns with MEMC_FREQ_RATIO=2, program this to recommended value divided by
+ * two and round it up to next integer. This is only present for designs su
+ * pporting mDDR or LPDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_DRAMTMG6_T_CKCSX 0x4
+
+ * SDRAM Timing Register 6
+ * (OFFSET, MASK, VALUE) (0XFD070118, 0x0F0F000FU ,0x01010004U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG6_OFFSET, 0x0F0F000FU, 0x01010004U);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG7 @ 0XFD07011C
+
+ * This is the time after Power Down Entry that CK is maintained as a valid
+ * clock. Specifies the clock disable delay after PDE. Recommended setting
+ * s: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: tCKCKEL For configuration
+ * s with MEMC_FREQ_RATIO=2, program this to recommended value divided by t
+ * wo and round it up to next integer. This is only present for designs sup
+ * porting mDDR or LPDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_DRAMTMG7_T_CKPDE 0x6
+
+ * This is the time before Power Down Exit that CK is maintained as a valid
+ * clock before issuing PDX. Specifies the clock stable time before PDX. R
+ * ecommended settings: - mDDR: 0 - LPDDR2: 2 - LPDDR3: 2 - LPDDR4: 2 For c
+ * onfigurations with MEMC_FREQ_RATIO=2, program this to recommended value
+ * divided by two and round it up to next integer. This is only present for
+ * designs supporting mDDR or LPDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_DRAMTMG7_T_CKPDX 0x6
+
+ * SDRAM Timing Register 7
+ * (OFFSET, MASK, VALUE) (0XFD07011C, 0x00000F0FU ,0x00000606U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG7_OFFSET, 0x00000F0FU, 0x00000606U);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG8 @ 0XFD070120
+
+ * tXS_FAST: Exit Self Refresh to ZQCL, ZQCS and MRS (only CL, WR, RTP and
+ * Geardown mode). For configurations with MEMC_FREQ_RATIO=2, program this
+ * to the above value divided by 2 and round up to next integer value. Unit
+ * : Multiples of 32 clocks. Note: This is applicable to only ZQCL/ZQCS com
+ * mands. Note: Ensure this is less than or equal to t_xs_x32.
+ * PSU_DDRC_DRAMTMG8_T_XS_FAST_X32 0x3
+
+ * tXS_ABORT: Exit Self Refresh to commands not requiring a locked DLL in S
+ * elf Refresh Abort. For configurations with MEMC_FREQ_RATIO=2, program th
+ * is to the above value divided by 2 and round up to next integer value. U
+ * nit: Multiples of 32 clocks. Note: Ensure this is less than or equal to
+ * t_xs_x32.
+ * PSU_DDRC_DRAMTMG8_T_XS_ABORT_X32 0x3
+
+ * tXSDLL: Exit Self Refresh to commands requiring a locked DLL. For config
+ * urations with MEMC_FREQ_RATIO=2, program this to the above value divided
+ * by 2 and round up to next integer value. Unit: Multiples of 32 clocks.
+ * Note: Used only for DDR2, DDR3 and DDR4 SDRAMs.
+ * PSU_DDRC_DRAMTMG8_T_XS_DLL_X32 0xd
+
+ * tXS: Exit Self Refresh to commands not requiring a locked DLL. For confi
+ * gurations with MEMC_FREQ_RATIO=2, program this to the above value divide
+ * d by 2 and round up to next integer value. Unit: Multiples of 32 clocks.
+ * Note: Used only for DDR2, DDR3 and DDR4 SDRAMs.
+ * PSU_DDRC_DRAMTMG8_T_XS_X32 0x6
+
+ * SDRAM Timing Register 8
+ * (OFFSET, MASK, VALUE) (0XFD070120, 0x7F7F7F7FU ,0x03030D06U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG8_OFFSET, 0x7F7F7F7FU, 0x03030D06U);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG9 @ 0XFD070124
+
+ * DDR4 Write preamble mode - 0: 1tCK preamble - 1: 2tCK preamble Present o
+ * nly with MEMC_FREQ_RATIO=2
+ * PSU_DDRC_DRAMTMG9_DDR4_WR_PREAMBLE 0x0
+
+ * tCCD_S: This is the minimum time between two reads or two writes for dif
+ * ferent bank group. For bank switching (from bank 'a' to bank 'b'), the m
+ * inimum time is this value + 1. For configurations with MEMC_FREQ_RATIO=2
+ * , program this to (tCCD_S/2) and round it up to the next integer value.
+ * Present only in designs configured to support DDR4. Unit: clocks.
+ * PSU_DDRC_DRAMTMG9_T_CCD_S 0x2
+
+ * tRRD_S: Minimum time between activates from bank 'a' to bank 'b' for dif
+ * ferent bank group. For configurations with MEMC_FREQ_RATIO=2, program th
+ * is to (tRRD_S/2) and round it up to the next integer value. Present only
+ * in designs configured to support DDR4. Unit: Clocks.
+ * PSU_DDRC_DRAMTMG9_T_RRD_S 0x2
+
+ * CWL + PL + BL/2 + tWTR_S Minimum time from write command to read command
+ * for different bank group. Includes time for bus turnaround, recovery ti
+ * mes, and all per-bank, per-rank, and global constraints. Present only in
+ * designs configured to support DDR4. Unit: Clocks. Where: - CWL = CAS wr
+ * ite latency - PL = Parity latency - BL = burst length. This must match t
+ * he value programmed in the BL bit of the mode register to the SDRAM - tW
+ * TR_S = internal write to read command delay for different bank group. Th
+ * is comes directly from the SDRAM specification. For configurations with
+ * MEMC_FREQ_RATIO=2, divide the value calculated using the above equation
+ * by 2, and round it up to next integer.
+ * PSU_DDRC_DRAMTMG9_WR2RD_S 0xb
+
+ * SDRAM Timing Register 9
+ * (OFFSET, MASK, VALUE) (0XFD070124, 0x40070F3FU ,0x0002020BU)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG9_OFFSET, 0x40070F3FU, 0x0002020BU);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG11 @ 0XFD07012C
+
+ * tXMPDLL: This is the minimum Exit MPSM to commands requiring a locked DL
+ * L. For configurations with MEMC_FREQ_RATIO=2, program this to (tXMPDLL/2
+ * ) and round it up to the next integer value. Present only in designs con
+ * figured to support DDR4. Unit: Multiples of 32 clocks.
+ * PSU_DDRC_DRAMTMG11_POST_MPSM_GAP_X32 0x70
+
+ * tMPX_LH: This is the minimum CS_n Low hold time to CKE rising edge. For
+ * configurations with MEMC_FREQ_RATIO=2, program this to RoundUp(tMPX_LH/2
+ * )+1. Present only in designs configured to support DDR4. Unit: clocks.
+ * PSU_DDRC_DRAMTMG11_T_MPX_LH 0x7
+
+ * tMPX_S: Minimum time CS setup time to CKE. For configurations with MEMC_
+ * FREQ_RATIO=2, program this to (tMPX_S/2) and round it up to the next int
+ * eger value. Present only in designs configured to support DDR4. Unit: Cl
+ * ocks.
+ * PSU_DDRC_DRAMTMG11_T_MPX_S 0x1
+
+ * tCKMPE: Minimum valid clock requirement after MPSM entry. Present only i
+ * n designs configured to support DDR4. Unit: Clocks. For configurations w
+ * ith MEMC_FREQ_RATIO=2, divide the value calculated using the above equat
+ * ion by 2, and round it up to next integer.
+ * PSU_DDRC_DRAMTMG11_T_CKMPE 0xe
+
+ * SDRAM Timing Register 11
+ * (OFFSET, MASK, VALUE) (0XFD07012C, 0x7F1F031FU ,0x7007010EU)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG11_OFFSET, 0x7F1F031FU, 0x7007010EU);
+/*##################################################################### */
+
+ /*
+ * Register : DRAMTMG12 @ 0XFD070130
+
+ * tCMDCKE: Delay from valid command to CKE input LOW. Set this to the larg
+ * er of tESCKE or tCMDCKE For configurations with MEMC_FREQ_RATIO=2, progr
+ * am this to (max(tESCKE, tCMDCKE)/2) and round it up to next integer valu
+ * e.
+ * PSU_DDRC_DRAMTMG12_T_CMDCKE 0x2
+
+ * tCKEHCMD: Valid command requirement after CKE input HIGH. For configurat
+ * ions with MEMC_FREQ_RATIO=2, program this to (tCKEHCMD/2) and round it u
+ * p to next integer value.
+ * PSU_DDRC_DRAMTMG12_T_CKEHCMD 0x6
+
+ * tMRD_PDA: This is the Mode Register Set command cycle time in PDA mode.
+ * For configurations with MEMC_FREQ_RATIO=2, program this to (tMRD_PDA/2)
+ * and round it up to next integer value.
+ * PSU_DDRC_DRAMTMG12_T_MRD_PDA 0x8
+
+ * SDRAM Timing Register 12
+ * (OFFSET, MASK, VALUE) (0XFD070130, 0x00030F1FU ,0x00020608U)
+ */
+ PSU_Mask_Write(DDRC_DRAMTMG12_OFFSET, 0x00030F1FU, 0x00020608U);
+/*##################################################################### */
+
+ /*
+ * Register : ZQCTL0 @ 0XFD070180
+
+ * - 1 - Disable uMCTL2 generation of ZQCS/MPC(ZQ calibration) command. Reg
+ * ister DBGCMD.zq_calib_short can be used instead to issue ZQ calibration
+ * request from APB module. - 0 - Internally generate ZQCS/MPC(ZQ calibrati
+ * on) commands based on ZQCTL1.t_zq_short_interval_x1024. This is only pre
+ * sent for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_ZQCTL0_DIS_AUTO_ZQ 0x1
+
+ * - 1 - Disable issuing of ZQCL/MPC(ZQ calibration) command at Self-Refres
+ * h/SR-Powerdown exit. Only applicable when run in DDR3 or DDR4 or LPDDR2
+ * or LPDDR3 or LPDDR4 mode. - 0 - Enable issuing of ZQCL/MPC(ZQ calibratio
+ * n) command at Self-Refresh/SR-Powerdown exit. Only applicable when run i
+ * n DDR3 or DDR4 or LPDDR2 or LPDDR3 or LPDDR4 mode. This is only present
+ * for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_ZQCTL0_DIS_SRX_ZQCL 0x0
+
+ * - 1 - Denotes that ZQ resistor is shared between ranks. Means ZQinit/ZQC
+ * L/ZQCS/MPC(ZQ calibration) commands are sent to one rank at a time with
+ * tZQinit/tZQCL/tZQCS/tZQCAL/tZQLAT timing met between commands so that co
+ * mmands to different ranks do not overlap. - 0 - ZQ resistor is not share
+ * d. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR
+ * 3/LPDDR4 devices.
+ * PSU_DDRC_ZQCTL0_ZQ_RESISTOR_SHARED 0x0
+
+ * - 1 - Disable issuing of ZQCL command at Maximum Power Saving Mode exit.
+ * Only applicable when run in DDR4 mode. - 0 - Enable issuing of ZQCL com
+ * mand at Maximum Power Saving Mode exit. Only applicable when run in DDR4
+ * mode. This is only present for designs supporting DDR4 devices.
+ * PSU_DDRC_ZQCTL0_DIS_MPSMX_ZQCL 0x0
+
+ * tZQoper for DDR3/DDR4, tZQCL for LPDDR2/LPDDR3, tZQCAL for LPDDR4: Numbe
+ * r of cycles of NOP required after a ZQCL (ZQ calibration long)/MPC(ZQ St
+ * art) command is issued to SDRAM. For configurations with MEMC_FREQ_RATIO
+ * =2: DDR3/DDR4: program this to tZQoper/2 and round it up to the next int
+ * eger value. LPDDR2/LPDDR3: program this to tZQCL/2 and round it up to th
+ * e next integer value. LPDDR4: program this to tZQCAL/2 and round it up t
+ * o the next integer value. Unit: Clock cycles. This is only present for d
+ * esigns supporting DDR3/DDR4 or LPDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_ZQCTL0_T_ZQ_LONG_NOP 0x100
+
+ * tZQCS for DDR3/DD4/LPDDR2/LPDDR3, tZQLAT for LPDDR4: Number of cycles of
+ * NOP required after a ZQCS (ZQ calibration short)/MPC(ZQ Latch) command
+ * is issued to SDRAM. For configurations with MEMC_FREQ_RATIO=2, program t
+ * his to tZQCS/2 and round it up to the next integer value. Unit: Clock cy
+ * cles. This is only present for designs supporting DDR3/DDR4 or LPDDR2/LP
+ * DDR3/LPDDR4 devices.
+ * PSU_DDRC_ZQCTL0_T_ZQ_SHORT_NOP 0x40
+
+ * ZQ Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070180, 0xF7FF03FFU ,0x81000040U)
+ */
+ PSU_Mask_Write(DDRC_ZQCTL0_OFFSET, 0xF7FF03FFU, 0x81000040U);
+/*##################################################################### */
+
+ /*
+ * Register : ZQCTL1 @ 0XFD070184
+
+ * tZQReset: Number of cycles of NOP required after a ZQReset (ZQ calibrati
+ * on Reset) command is issued to SDRAM. For configurations with MEMC_FREQ_
+ * RATIO=2, program this to tZQReset/2 and round it up to the next integer
+ * value. Unit: Clock cycles. This is only present for designs supporting L
+ * PDDR2/LPDDR3/LPDDR4 devices.
+ * PSU_DDRC_ZQCTL1_T_ZQ_RESET_NOP 0x20
+
+ * Average interval to wait between automatically issuing ZQCS (ZQ calibrat
+ * ion short)/MPC(ZQ calibration) commands to DDR3/DDR4/LPDDR2/LPDDR3/LPDDR
+ * 4 devices. Meaningless, if ZQCTL0.dis_auto_zq=1. Unit: 1024 clock cycles
+ * . This is only present for designs supporting DDR3/DDR4 or LPDDR2/LPDDR3
+ * /LPDDR4 devices.
+ * PSU_DDRC_ZQCTL1_T_ZQ_SHORT_INTERVAL_X1024 0x196dc
+
+ * ZQ Control Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070184, 0x3FFFFFFFU ,0x020196DCU)
+ */
+ PSU_Mask_Write(DDRC_ZQCTL1_OFFSET, 0x3FFFFFFFU, 0x020196DCU);
+/*##################################################################### */
+
+ /*
+ * Register : DFITMG0 @ 0XFD070190
+
+ * Specifies the number of DFI clock cycles after an assertion or de-assert
+ * ion of the DFI control signals that the control signals at the PHY-DRAM
+ * interface reflect the assertion or de-assertion. If the DFI clock and th
+ * e memory clock are not phase-aligned, this timing parameter should be ro
+ * unded up to the next integer value. Note that if using RDIMM, it is nece
+ * ssary to increment this parameter by RDIMM's extra cycle of latency in t
+ * erms of DFI clock.
+ * PSU_DDRC_DFITMG0_DFI_T_CTRL_DELAY 0x4
+
+ * Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated u
+ * sing HDR or SDR values Selects whether value in DFITMG0.dfi_t_rddata_en
+ * is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles
+ * - 1 in terms of SDR clock cycles Refer to PHY specification for correct
+ * value.
+ * PSU_DDRC_DFITMG0_DFI_RDDATA_USE_SDR 0x1
+
+ * Time from the assertion of a read command on the DFI interface to the as
+ * sertion of the dfi_rddata_en signal. Refer to PHY specification for corr
+ * ect value. This corresponds to the DFI parameter trddata_en. Note that,
+ * depending on the PHY, if using RDIMM, it may be necessary to use the val
+ * ue (CL + 1) in the calculation of trddata_en. This is to compensate for
+ * the extra cycle of latency through the RDIMM. Unit: Clocks
+ * PSU_DDRC_DFITMG0_DFI_T_RDDATA_EN 0xb
+
+ * Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated us
+ * ing HDR or SDR values Selects whether value in DFITMG0.dfi_tphy_wrlat is
+ * in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.df
+ * i_tphy_wrdata is in terms of SDR or HDR clock cycles - 0 in terms of HDR
+ * clock cycles - 1 in terms of SDR clock cycles Refer to PHY specificatio
+ * n for correct value.
+ * PSU_DDRC_DFITMG0_DFI_WRDATA_USE_SDR 0x1
+
+ * Specifies the number of clock cycles between when dfi_wrdata_en is asser
+ * ted to when the associated write data is driven on the dfi_wrdata signal
+ * . This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY
+ * specification for correct value. Note, max supported value is 8. Unit:
+ * Clocks
+ * PSU_DDRC_DFITMG0_DFI_TPHY_WRDATA 0x2
+
+ * Write latency Number of clocks from the write command to write data enab
+ * le (dfi_wrdata_en). This corresponds to the DFI timing parameter tphy_wr
+ * lat. Refer to PHY specification for correct value.Note that, depending o
+ * n the PHY, if using RDIMM, it may be necessary to use the value (CL + 1)
+ * in the calculation of tphy_wrlat. This is to compensate for the extra c
+ * ycle of latency through the RDIMM.
+ * PSU_DDRC_DFITMG0_DFI_TPHY_WRLAT 0xb
+
+ * DFI Timing Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070190, 0x1FBFBF3FU ,0x048B820BU)
+ */
+ PSU_Mask_Write(DDRC_DFITMG0_OFFSET, 0x1FBFBF3FU, 0x048B820BU);
+/*##################################################################### */
+
+ /*
+ * Register : DFITMG1 @ 0XFD070194
+
+ * Specifies the number of DFI PHY clocks between when the dfi_cs signal is
+ * asserted and when the associated command is driven. This field is used
+ * for CAL mode, should be set to '0' or the value which matches the CAL mo
+ * de register setting in the DRAM. If the PHY can add the latency for CAL
+ * mode, this should be set to '0'. Valid Range: 0, 3, 4, 5, 6, and 8
+ * PSU_DDRC_DFITMG1_DFI_T_CMD_LAT 0x0
+
+ * Specifies the number of DFI PHY clocks between when the dfi_cs signal is
+ * asserted and when the associated dfi_parity_in signal is driven.
+ * PSU_DDRC_DFITMG1_DFI_T_PARIN_LAT 0x0
+
+ * Specifies the number of DFI clocks between when the dfi_wrdata_en signal
+ * is asserted and when the corresponding write data transfer is completed
+ * on the DRAM bus. This corresponds to the DFI timing parameter twrdata_d
+ * elay. Refer to PHY specification for correct value. For DFI 3.0 PHY, set
+ * to twrdata_delay, a new timing parameter introduced in DFI 3.0. For DFI
+ * 2.1 PHY, set to tphy_wrdata + (delay of DFI write data to the DRAM). Va
+ * lue to be programmed is in terms of DFI clocks, not PHY clocks. In FREQ_
+ * RATIO=2, divide PHY's value by 2 and round up to next integer. If using
+ * DFITMG0.dfi_wrdata_use_sdr=1, add 1 to the value. Unit: Clocks
+ * PSU_DDRC_DFITMG1_DFI_T_WRDATA_DELAY 0x3
+
+ * Specifies the number of DFI clock cycles from the assertion of the dfi_d
+ * ram_clk_disable signal on the DFI until the clock to the DRAM memory dev
+ * ices, at the PHY-DRAM boundary, maintains a low value. If the DFI clock
+ * and the memory clock are not phase aligned, this timing parameter should
+ * be rounded up to the next integer value.
+ * PSU_DDRC_DFITMG1_DFI_T_DRAM_CLK_DISABLE 0x3
+
+ * Specifies the number of DFI clock cycles from the de-assertion of the df
+ * i_dram_clk_disable signal on the DFI until the first valid rising edge o
+ * f the clock to the DRAM memory devices, at the PHY-DRAM boundary. If the
+ * DFI clock and the memory clock are not phase aligned, this timing param
+ * eter should be rounded up to the next integer value.
+ * PSU_DDRC_DFITMG1_DFI_T_DRAM_CLK_ENABLE 0x4
+
+ * DFI Timing Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070194, 0xF31F0F0FU ,0x00030304U)
+ */
+ PSU_Mask_Write(DDRC_DFITMG1_OFFSET, 0xF31F0F0FU, 0x00030304U);
+/*##################################################################### */
+
+ /*
+ * Register : DFILPCFG0 @ 0XFD070198
+
+ * Setting for DFI's tlp_resp time. Same value is used for both Power Down,
+ * Self Refresh, Deep Power Down and Maximum Power Saving modes. DFI 2.1 s
+ * pecification onwards, recommends using a fixed value of 7 always.
+ * PSU_DDRC_DFILPCFG0_DFI_TLP_RESP 0x7
+
+ * Value to drive on dfi_lp_wakeup signal when Deep Power Down mode is ente
+ * red. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycles - 0x1 - 32
+ * cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 5
+ * 12 cycles - 0x6 - 1024 cycles - 0x7 - 2048 cycles - 0x8 - 4096 cycles -
+ * 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 6553
+ * 6 cycles - 0xD - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimited T
+ * his is only present for designs supporting mDDR or LPDDR2/LPDDR3 devices
+ * .
+ * PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_DPD 0x0
+
+ * Enables DFI Low Power interface handshaking during Deep Power Down Entry
+ * /Exit. - 0 - Disabled - 1 - Enabled This is only present for designs sup
+ * porting mDDR or LPDDR2/LPDDR3 devices.
+ * PSU_DDRC_DFILPCFG0_DFI_LP_EN_DPD 0x0
+
+ * Value to drive on dfi_lp_wakeup signal when Self Refresh mode is entered
+ * . Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycles - 0x1 - 32 cyc
+ * les - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512
+ * cycles - 0x6 - 1024 cycles - 0x7 - 2048 cycles - 0x8 - 4096 cycles - 0x9
+ * - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 c
+ * ycles - 0xD - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimited
+ * PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_SR 0x0
+
+ * Enables DFI Low Power interface handshaking during Self Refresh Entry/Ex
+ * it. - 0 - Disabled - 1 - Enabled
+ * PSU_DDRC_DFILPCFG0_DFI_LP_EN_SR 0x1
+
+ * Value to drive on dfi_lp_wakeup signal when Power Down mode is entered.
+ * Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycles - 0x1 - 32 cycle
+ * s - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x5 - 512 cy
+ * cles - 0x6 - 1024 cycles - 0x7 - 2048 cycles - 0x8 - 4096 cycles - 0x9 -
+ * 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC - 65536 cyc
+ * les - 0xD - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimited
+ * PSU_DDRC_DFILPCFG0_DFI_LP_WAKEUP_PD 0x0
+
+ * Enables DFI Low Power interface handshaking during Power Down Entry/Exit
+ * . - 0 - Disabled - 1 - Enabled
+ * PSU_DDRC_DFILPCFG0_DFI_LP_EN_PD 0x1
+
+ * DFI Low Power Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070198, 0x0FF1F1F1U ,0x07000101U)
+ */
+ PSU_Mask_Write(DDRC_DFILPCFG0_OFFSET, 0x0FF1F1F1U, 0x07000101U);
+/*##################################################################### */
+
+ /*
+ * Register : DFILPCFG1 @ 0XFD07019C
+
+ * Value to drive on dfi_lp_wakeup signal when Maximum Power Saving Mode is
+ * entered. Determines the DFI's tlp_wakeup time: - 0x0 - 16 cycles - 0x1
+ * - 32 cycles - 0x2 - 64 cycles - 0x3 - 128 cycles - 0x4 - 256 cycles - 0x
+ * 5 - 512 cycles - 0x6 - 1024 cycles - 0x7 - 2048 cycles - 0x8 - 4096 cycl
+ * es - 0x9 - 8192 cycles - 0xA - 16384 cycles - 0xB - 32768 cycles - 0xC -
+ * 65536 cycles - 0xD - 131072 cycles - 0xE - 262144 cycles - 0xF - Unlimi
+ * ted This is only present for designs supporting DDR4 devices.
+ * PSU_DDRC_DFILPCFG1_DFI_LP_WAKEUP_MPSM 0x2
+
+ * Enables DFI Low Power interface handshaking during Maximum Power Saving
+ * Mode Entry/Exit. - 0 - Disabled - 1 - Enabled This is only present for d
+ * esigns supporting DDR4 devices.
+ * PSU_DDRC_DFILPCFG1_DFI_LP_EN_MPSM 0x1
+
+ * DFI Low Power Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD07019C, 0x000000F1U ,0x00000021U)
+ */
+ PSU_Mask_Write(DDRC_DFILPCFG1_OFFSET, 0x000000F1U, 0x00000021U);
+/*##################################################################### */
+
+ /*
+ * Register : DFIUPD0 @ 0XFD0701A0
+
+ * When '1', disable the automatic dfi_ctrlupd_req generation by the uMCTL2
+ * . The core must issue the dfi_ctrlupd_req signal using register reg_ddrc
+ * _ctrlupd. When '0', uMCTL2 issues dfi_ctrlupd_req periodically.
+ * PSU_DDRC_DFIUPD0_DIS_AUTO_CTRLUPD 0x0
+
+ * When '1', disable the automatic dfi_ctrlupd_req generation by the uMCTL2
+ * following a self-refresh exit. The core must issue the dfi_ctrlupd_req
+ * signal using register reg_ddrc_ctrlupd. When '0', uMCTL2 issues a dfi_ct
+ * rlupd_req after exiting self-refresh.
+ * PSU_DDRC_DFIUPD0_DIS_AUTO_CTRLUPD_SRX 0x0
+
+ * Specifies the maximum number of clock cycles that the dfi_ctrlupd_req si
+ * gnal can assert. Lowest value to assign to this variable is 0x40. Unit:
+ * Clocks
+ * PSU_DDRC_DFIUPD0_DFI_T_CTRLUP_MAX 0x40
+
+ * Specifies the minimum number of clock cycles that the dfi_ctrlupd_req si
+ * gnal must be asserted. The uMCTL2 expects the PHY to respond within this
+ * time. If the PHY does not respond, the uMCTL2 will de-assert dfi_ctrlup
+ * d_req after dfi_t_ctrlup_min + 2 cycles. Lowest value to assign to this
+ * variable is 0x3. Unit: Clocks
+ * PSU_DDRC_DFIUPD0_DFI_T_CTRLUP_MIN 0x3
+
+ * DFI Update Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0701A0, 0xC3FF03FFU ,0x00400003U)
+ */
+ PSU_Mask_Write(DDRC_DFIUPD0_OFFSET, 0xC3FF03FFU, 0x00400003U);
+/*##################################################################### */
+
+ /*
+ * Register : DFIUPD1 @ 0XFD0701A4
+
+ * This is the minimum amount of time between uMCTL2 initiated DFI update r
+ * equests (which is executed whenever the uMCTL2 is idle). Set this number
+ * higher to reduce the frequency of update requests, which can have a sma
+ * ll impact on the latency of the first read request when the uMCTL2 is id
+ * le. Unit: 1024 clocks
+ * PSU_DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MIN_X1024 0x41
+
+ * This is the maximum amount of time between uMCTL2 initiated DFI update r
+ * equests. This timer resets with each update request; when the timer expi
+ * res dfi_ctrlupd_req is sent and traffic is blocked until the dfi_ctrlupd
+ * _ackx is received. PHY can use this idle time to recalibrate the delay l
+ * ines to the DLLs. The DFI controller update is also used to reset PHY FI
+ * FO pointers in case of data capture errors. Updates are required to main
+ * tain calibration over PVT, but frequent updates may impact performance.
+ * Note: Value programmed for DFIUPD1.dfi_t_ctrlupd_interval_max_x1024 must
+ * be greater than DFIUPD1.dfi_t_ctrlupd_interval_min_x1024. Unit: 1024 cl
+ * ocks
+ * PSU_DDRC_DFIUPD1_DFI_T_CTRLUPD_INTERVAL_MAX_X1024 0xe1
+
+ * DFI Update Register 1
+ * (OFFSET, MASK, VALUE) (0XFD0701A4, 0x00FF00FFU ,0x004100E1U)
+ */
+ PSU_Mask_Write(DDRC_DFIUPD1_OFFSET, 0x00FF00FFU, 0x004100E1U);
+/*##################################################################### */
+
+ /*
+ * Register : DFIMISC @ 0XFD0701B0
+
+ * Defines polarity of dfi_wrdata_cs and dfi_rddata_cs signals. - 0: Signal
+ * s are active low - 1: Signals are active high
+ * PSU_DDRC_DFIMISC_DFI_DATA_CS_POLARITY 0x0
+
+ * DBI implemented in DDRC or PHY. - 0 - DDRC implements DBI functionality.
+ * - 1 - PHY implements DBI functionality. Present only in designs configu
+ * red to support DDR4 and LPDDR4.
+ * PSU_DDRC_DFIMISC_PHY_DBI_MODE 0x0
+
+ * PHY initialization complete enable signal. When asserted the dfi_init_co
+ * mplete signal can be used to trigger SDRAM initialisation
+ * PSU_DDRC_DFIMISC_DFI_INIT_COMPLETE_EN 0x0
+
+ * DFI Miscellaneous Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0701B0, 0x00000007U ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DFIMISC_OFFSET, 0x00000007U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DFITMG2 @ 0XFD0701B4
+
+ * >Number of clocks between when a read command is sent on the DFI control
+ * interface and when the associated dfi_rddata_cs signal is asserted. Thi
+ * s corresponds to the DFI timing parameter tphy_rdcslat. Refer to PHY spe
+ * cification for correct value.
+ * PSU_DDRC_DFITMG2_DFI_TPHY_RDCSLAT 0x9
+
+ * Number of clocks between when a write command is sent on the DFI control
+ * interface and when the associated dfi_wrdata_cs signal is asserted. Thi
+ * s corresponds to the DFI timing parameter tphy_wrcslat. Refer to PHY spe
+ * cification for correct value.
+ * PSU_DDRC_DFITMG2_DFI_TPHY_WRCSLAT 0x6
+
+ * DFI Timing Register 2
+ * (OFFSET, MASK, VALUE) (0XFD0701B4, 0x00003F3FU ,0x00000906U)
+ */
+ PSU_Mask_Write(DDRC_DFITMG2_OFFSET, 0x00003F3FU, 0x00000906U);
+/*##################################################################### */
+
+ /*
+ * Register : DBICTL @ 0XFD0701C0
+
+ * Read DBI enable signal in DDRC. - 0 - Read DBI is disabled. - 1 - Read D
+ * BI is enabled. This signal must be set the same value as DRAM's mode reg
+ * ister. - DDR4: MR5 bit A12. When x4 devices are used, this signal must b
+ * e set to 0. - LPDDR4: MR3[6]
+ * PSU_DDRC_DBICTL_RD_DBI_EN 0x0
+
+ * Write DBI enable signal in DDRC. - 0 - Write DBI is disabled. - 1 - Writ
+ * e DBI is enabled. This signal must be set the same value as DRAM's mode
+ * register. - DDR4: MR5 bit A11. When x4 devices are used, this signal mus
+ * t be set to 0. - LPDDR4: MR3[7]
+ * PSU_DDRC_DBICTL_WR_DBI_EN 0x0
+
+ * DM enable signal in DDRC. - 0 - DM is disabled. - 1 - DM is enabled. Thi
+ * s signal must be set the same logical value as DRAM's mode register. - D
+ * DR4: Set this to same value as MR5 bit A10. When x4 devices are used, th
+ * is signal must be set to 0. - LPDDR4: Set this to inverted value of MR13
+ * [5] which is opposite polarity from this signal
+ * PSU_DDRC_DBICTL_DM_EN 0x1
+
+ * DM/DBI Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0701C0, 0x00000007U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_DBICTL_OFFSET, 0x00000007U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP0 @ 0XFD070200
+
+ * Selects the HIF address bit used as rank address bit 0. Valid Range: 0 t
+ * o 27, and 31 Internal Base: 6 The selected HIF address bit is determined
+ * by adding the internal base to the value of this field. If set to 31, r
+ * ank address bit 0 is set to 0.
+ * PSU_DDRC_ADDRMAP0_ADDRMAP_CS_BIT0 0x1f
+
+ * Address Map Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070200, 0x0000001FU ,0x0000001FU)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP0_OFFSET, 0x0000001FU, 0x0000001FU);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP1 @ 0XFD070204
+
+ * Selects the HIF address bit used as bank address bit 2. Valid Range: 0 t
+ * o 29 and 31 Internal Base: 4 The selected HIF address bit is determined
+ * by adding the internal base to the value of this field. If set to 31, ba
+ * nk address bit 2 is set to 0.
+ * PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B2 0x1f
+
+ * Selects the HIF address bits used as bank address bit 1. Valid Range: 0
+ * to 30 Internal Base: 3 The selected HIF address bit for each of the bank
+ * address bits is determined by adding the internal base to the value of
+ * this field.
+ * PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B1 0xa
+
+ * Selects the HIF address bits used as bank address bit 0. Valid Range: 0
+ * to 30 Internal Base: 2 The selected HIF address bit for each of the bank
+ * address bits is determined by adding the internal base to the value of
+ * this field.
+ * PSU_DDRC_ADDRMAP1_ADDRMAP_BANK_B0 0xa
+
+ * Address Map Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070204, 0x001F1F1FU ,0x001F0A0AU)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP1_OFFSET, 0x001F1F1FU, 0x001F0A0AU);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP2 @ 0XFD070208
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 5. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 6. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 7 . Valid Range: 0 to 7, and 15 Internal Base
+ * : 5 The selected HIF address bit is determined by adding the internal ba
+ * se to the value of this field. If set to 15, this column address bit is
+ * set to 0.
+ * PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B5 0x0
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 4. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 5. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 6. Valid Range: 0 to 7, and 15 Internal Base:
+ * 4 The selected HIF address bit is determined by adding the internal bas
+ * e to the value of this field. If set to 15, this column address bit is s
+ * et to 0.
+ * PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B4 0x0
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 3. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 4. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 5. Valid Range: 0 to 7 Internal Base: 3 The s
+ * elected HIF address bit is determined by adding the internal base to the
+ * value of this field. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=1
+ * 6, it is required to program this to 0, hence register does not exist in
+ * this case.
+ * PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B3 0x0
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 2. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 3. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 4. Valid Range: 0 to 7 Internal Base: 2 The s
+ * elected HIF address bit is determined by adding the internal base to the
+ * value of this field. Note, if UMCTL2_INCL_ARB=1 and MEMC_BURST_LENGTH=8
+ * or 16, it is required to program this to 0.
+ * PSU_DDRC_ADDRMAP2_ADDRMAP_COL_B2 0x0
+
+ * Address Map Register 2
+ * (OFFSET, MASK, VALUE) (0XFD070208, 0x0F0F0F0FU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP2_OFFSET, 0x0F0F0F0FU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP3 @ 0XFD07020C
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 9. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 11 (10 in LPDDR2/LPDDR3 mode). - Quarter bus width mode:
+ * Selects the HIF address bit used as column address bit 13 (11 in LPDDR2/
+ * LPDDR3 mode). Valid Range: 0 to 7, and 15 Internal Base: 9 The selected
+ * HIF address bit is determined by adding the internal base to the value o
+ * f this field. If set to 15, this column address bit is set to 0. Note: P
+ * er JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved fo
+ * r indicating auto-precharge, and hence no source address bit can be mapp
+ * ed to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit
+ * for auto-precharge in the CA bus and hence column bit 10 is used.
+ * PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B9 0x0
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 8. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 9. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 11 (10 in LPDDR2/LPDDR3 mode). Valid Range: 0
+ * to 7, and 15 Internal Base: 8 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * this column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specifi
+ * cation, column address bit 10 is reserved for indicating auto-precharge,
+ * and hence no source address bit can be mapped to column address bit 10.
+ * In LPDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA
+ * bus and hence column bit 10 is used.
+ * PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B8 0x0
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 7. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 8. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 9. Valid Range: 0 to 7, and 15 Internal Base:
+ * 7 The selected HIF address bit is determined by adding the internal bas
+ * e to the value of this field. If set to 15, this column address bit is s
+ * et to 0.
+ * PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B7 0x0
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 6. - Half bus width mode: Selects the HIF address bit used as colu
+ * mn address bit 7. - Quarter bus width mode: Selects the HIF address bit
+ * used as column address bit 8. Valid Range: 0 to 7, and 15 Internal Base:
+ * 6 The selected HIF address bit is determined by adding the internal bas
+ * e to the value of this field. If set to 15, this column address bit is s
+ * et to 0.
+ * PSU_DDRC_ADDRMAP3_ADDRMAP_COL_B6 0x0
+
+ * Address Map Register 3
+ * (OFFSET, MASK, VALUE) (0XFD07020C, 0x0F0F0F0FU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP3_OFFSET, 0x0F0F0F0FU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP4 @ 0XFD070210
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 13 (11 in LPDDR2/LPDDR3 mode). - Half bus width mode: Unused. To m
+ * ake it unused, this should be tied to 4'hF. - Quarter bus width mode: Un
+ * used. To make it unused, this must be tied to 4'hF. Valid Range: 0 to 7,
+ * and 15 Internal Base: 11 The selected HIF address bit is determined by
+ * adding the internal base to the value of this field. If set to 15, this
+ * column address bit is set to 0. Note: Per JEDEC DDR2/3/mDDR specificatio
+ * n, column address bit 10 is reserved for indicating auto-precharge, and
+ * hence no source address bit can be mapped to column address bit 10. In L
+ * PDDR2/LPDDR3, there is a dedicated bit for auto-precharge in the CA bus
+ * and hence column bit 10 is used.
+ * PSU_DDRC_ADDRMAP4_ADDRMAP_COL_B11 0xf
+
+ * - Full bus width mode: Selects the HIF address bit used as column addres
+ * s bit 11 (10 in LPDDR2/LPDDR3 mode). - Half bus width mode: Selects the
+ * HIF address bit used as column address bit 13 (11 in LPDDR2/LPDDR3 mode)
+ * . - Quarter bus width mode: UNUSED. To make it unused, this must be tied
+ * to 4'hF. Valid Range: 0 to 7, and 15 Internal Base: 10 The selected HIF
+ * address bit is determined by adding the internal base to the value of t
+ * his field. If set to 15, this column address bit is set to 0. Note: Per
+ * JEDEC DDR2/3/mDDR specification, column address bit 10 is reserved for i
+ * ndicating auto-precharge, and hence no source address bit can be mapped
+ * to column address bit 10. In LPDDR2/LPDDR3, there is a dedicated bit for
+ * auto-precharge in the CA bus and hence column bit 10 is used.
+ * PSU_DDRC_ADDRMAP4_ADDRMAP_COL_B10 0xf
+
+ * Address Map Register 4
+ * (OFFSET, MASK, VALUE) (0XFD070210, 0x00000F0FU ,0x00000F0FU)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP4_OFFSET, 0x00000F0FU, 0x00000F0FU);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP5 @ 0XFD070214
+
+ * Selects the HIF address bit used as row address bit 11. Valid Range: 0 t
+ * o 11, and 15 Internal Base: 17 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 11 is set to 0.
+ * PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B11 0x8
+
+ * Selects the HIF address bits used as row address bits 2 to 10. Valid Ran
+ * ge: 0 to 11, and 15 Internal Base: 8 (for row address bit 2), 9 (for row
+ * address bit 3), 10 (for row address bit 4) etc increasing to 16 (for ro
+ * w address bit 10) The selected HIF address bit for each of the row addre
+ * ss bits is determined by adding the internal base to the value of this f
+ * ield. When value 15 is used the values of row address bits 2 to 10 are d
+ * efined by registers ADDRMAP9, ADDRMAP10, ADDRMAP11.
+ * PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B2_10 0xf
+
+ * Selects the HIF address bits used as row address bit 1. Valid Range: 0 t
+ * o 11 Internal Base: 7 The selected HIF address bit for each of the row a
+ * ddress bits is determined by adding the internal base to the value of th
+ * is field.
+ * PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B1 0x8
+
+ * Selects the HIF address bits used as row address bit 0. Valid Range: 0 t
+ * o 11 Internal Base: 6 The selected HIF address bit for each of the row a
+ * ddress bits is determined by adding the internal base to the value of th
+ * is field.
+ * PSU_DDRC_ADDRMAP5_ADDRMAP_ROW_B0 0x8
+
+ * Address Map Register 5
+ * (OFFSET, MASK, VALUE) (0XFD070214, 0x0F0F0F0FU ,0x080F0808U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP5_OFFSET, 0x0F0F0F0FU, 0x080F0808U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP6 @ 0XFD070218
+
+ * Set this to 1 if there is an LPDDR3 SDRAM 6Gb or 12Gb device in use. - 1
+ * - LPDDR3 SDRAM 6Gb/12Gb device in use. Every address having row[14:13]=
+ * =2'b11 is considered as invalid - 0 - non-LPDDR3 6Gb/12Gb device in use.
+ * All addresses are valid Present only in designs configured to support L
+ * PDDR3.
+ * PSU_DDRC_ADDRMAP6_LPDDR3_6GB_12GB 0x0
+
+ * Selects the HIF address bit used as row address bit 15. Valid Range: 0 t
+ * o 11, and 15 Internal Base: 21 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 15 is set to 0.
+ * PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B15 0xf
+
+ * Selects the HIF address bit used as row address bit 14. Valid Range: 0 t
+ * o 11, and 15 Internal Base: 20 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 14 is set to 0.
+ * PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B14 0x8
+
+ * Selects the HIF address bit used as row address bit 13. Valid Range: 0 t
+ * o 11, and 15 Internal Base: 19 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 13 is set to 0.
+ * PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B13 0x8
+
+ * Selects the HIF address bit used as row address bit 12. Valid Range: 0 t
+ * o 11, and 15 Internal Base: 18 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 12 is set to 0.
+ * PSU_DDRC_ADDRMAP6_ADDRMAP_ROW_B12 0x8
+
+ * Address Map Register 6
+ * (OFFSET, MASK, VALUE) (0XFD070218, 0x8F0F0F0FU ,0x0F080808U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP6_OFFSET, 0x8F0F0F0FU, 0x0F080808U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP7 @ 0XFD07021C
+
+ * Selects the HIF address bit used as row address bit 17. Valid Range: 0 t
+ * o 10, and 15 Internal Base: 23 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 17 is set to 0.
+ * PSU_DDRC_ADDRMAP7_ADDRMAP_ROW_B17 0xf
+
+ * Selects the HIF address bit used as row address bit 16. Valid Range: 0 t
+ * o 11, and 15 Internal Base: 22 The selected HIF address bit is determine
+ * d by adding the internal base to the value of this field. If set to 15,
+ * row address bit 16 is set to 0.
+ * PSU_DDRC_ADDRMAP7_ADDRMAP_ROW_B16 0xf
+
+ * Address Map Register 7
+ * (OFFSET, MASK, VALUE) (0XFD07021C, 0x00000F0FU ,0x00000F0FU)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP7_OFFSET, 0x00000F0FU, 0x00000F0FU);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP8 @ 0XFD070220
+
+ * Selects the HIF address bits used as bank group address bit 1. Valid Ran
+ * ge: 0 to 30, and 31 Internal Base: 3 The selected HIF address bit for ea
+ * ch of the bank group address bits is determined by adding the internal b
+ * ase to the value of this field. If set to 31, bank group address bit 1 i
+ * s set to 0.
+ * PSU_DDRC_ADDRMAP8_ADDRMAP_BG_B1 0x8
+
+ * Selects the HIF address bits used as bank group address bit 0. Valid Ran
+ * ge: 0 to 30 Internal Base: 2 The selected HIF address bit for each of th
+ * e bank group address bits is determined by adding the internal base to t
+ * he value of this field.
+ * PSU_DDRC_ADDRMAP8_ADDRMAP_BG_B0 0x8
+
+ * Address Map Register 8
+ * (OFFSET, MASK, VALUE) (0XFD070220, 0x00001F1FU ,0x00000808U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP8_OFFSET, 0x00001F1FU, 0x00000808U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP9 @ 0XFD070224
+
+ * Selects the HIF address bits used as row address bit 5. Valid Range: 0 t
+ * o 11 Internal Base: 11 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of t
+ * his field. This register field is used only when ADDRMAP5.addrmap_row_b2
+ * _10 is set to value 15.
+ * PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B5 0x8
+
+ * Selects the HIF address bits used as row address bit 4. Valid Range: 0 t
+ * o 11 Internal Base: 10 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of t
+ * his field. This register field is used only when ADDRMAP5.addrmap_row_b2
+ * _10 is set to value 15.
+ * PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B4 0x8
+
+ * Selects the HIF address bits used as row address bit 3. Valid Range: 0 t
+ * o 11 Internal Base: 9 The selected HIF address bit for each of the row a
+ * ddress bits is determined by adding the internal base to the value of th
+ * is field. This register field is used only when ADDRMAP5.addrmap_row_b2_
+ * 10 is set to value 15.
+ * PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B3 0x8
+
+ * Selects the HIF address bits used as row address bit 2. Valid Range: 0 t
+ * o 11 Internal Base: 8 The selected HIF address bit for each of the row a
+ * ddress bits is determined by adding the internal base to the value of th
+ * is field. This register field is used only when ADDRMAP5.addrmap_row_b2_
+ * 10 is set to value 15.
+ * PSU_DDRC_ADDRMAP9_ADDRMAP_ROW_B2 0x8
+
+ * Address Map Register 9
+ * (OFFSET, MASK, VALUE) (0XFD070224, 0x0F0F0F0FU ,0x08080808U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP9_OFFSET, 0x0F0F0F0FU, 0x08080808U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP10 @ 0XFD070228
+
+ * Selects the HIF address bits used as row address bit 9. Valid Range: 0 t
+ * o 11 Internal Base: 15 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of t
+ * his field. This register field is used only when ADDRMAP5.addrmap_row_b2
+ * _10 is set to value 15.
+ * PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B9 0x8
+
+ * Selects the HIF address bits used as row address bit 8. Valid Range: 0 t
+ * o 11 Internal Base: 14 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of t
+ * his field. This register field is used only when ADDRMAP5.addrmap_row_b2
+ * _10 is set to value 15.
+ * PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B8 0x8
+
+ * Selects the HIF address bits used as row address bit 7. Valid Range: 0 t
+ * o 11 Internal Base: 13 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of t
+ * his field. This register field is used only when ADDRMAP5.addrmap_row_b2
+ * _10 is set to value 15.
+ * PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B7 0x8
+
+ * Selects the HIF address bits used as row address bit 6. Valid Range: 0 t
+ * o 11 Internal Base: 12 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of t
+ * his field. This register field is used only when ADDRMAP5.addrmap_row_b2
+ * _10 is set to value 15.
+ * PSU_DDRC_ADDRMAP10_ADDRMAP_ROW_B6 0x8
+
+ * Address Map Register 10
+ * (OFFSET, MASK, VALUE) (0XFD070228, 0x0F0F0F0FU ,0x08080808U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP10_OFFSET, 0x0F0F0F0FU, 0x08080808U);
+/*##################################################################### */
+
+ /*
+ * Register : ADDRMAP11 @ 0XFD07022C
+
+ * Selects the HIF address bits used as row address bit 10. Valid Range: 0
+ * to 11 Internal Base: 16 The selected HIF address bit for each of the row
+ * address bits is determined by adding the internal base to the value of
+ * this field. This register field is used only when ADDRMAP5.addrmap_row_b
+ * 2_10 is set to value 15.
+ * PSU_DDRC_ADDRMAP11_ADDRMAP_ROW_B10 0x8
+
+ * Address Map Register 11
+ * (OFFSET, MASK, VALUE) (0XFD07022C, 0x0000000FU ,0x00000008U)
+ */
+ PSU_Mask_Write(DDRC_ADDRMAP11_OFFSET, 0x0000000FU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : ODTCFG @ 0XFD070240
+
+ * Cycles to hold ODT for a write command. The minimum supported value is 2
+ * . Recommended values: DDR2: - BL8: 0x5 (DDR2-400/533/667), 0x6 (DDR2-800
+ * ), 0x7 (DDR2-1066) - BL4: 0x3 (DDR2-400/533/667), 0x4 (DDR2-800), 0x5 (D
+ * DR2-1066) DDR3: - BL8: 0x6 DDR4: - BL8: 5 + WR_PREAMBLE + CRC_MODE WR_PR
+ * EAMBLE = 1 (1tCK write preamble), 2 (2tCK write preamble) CRC_MODE = 0 (
+ * not CRC mode), 1 (CRC mode) LPDDR3: - BL8: 7 + RU(tODTon(max)/tCK)
+ * PSU_DDRC_ODTCFG_WR_ODT_HOLD 0x6
+
+ * The delay, in clock cycles, from issuing a write command to setting ODT
+ * values associated with that command. ODT setting must remain constant fo
+ * r the entire time that DQS is driven by the uMCTL2. Recommended values:
+ * DDR2: - CWL + AL - 3 (DDR2-400/533/667), CWL + AL - 4 (DDR2-800), CWL +
+ * AL - 5 (DDR2-1066) If (CWL + AL - 3 < 0), uMCTL2 does not support ODT fo
+ * r write operation. DDR3: - 0x0 DDR4: - DFITMG1.dfi_t_cmd_lat (to adjust
+ * for CAL mode) LPDDR3: - WL - 1 - RU(tODTon(max)/tCK))
+ * PSU_DDRC_ODTCFG_WR_ODT_DELAY 0x0
+
+ * Cycles to hold ODT for a read command. The minimum supported value is 2.
+ * Recommended values: DDR2: - BL8: 0x6 (not DDR2-1066), 0x7 (DDR2-1066) -
+ * BL4: 0x4 (not DDR2-1066), 0x5 (DDR2-1066) DDR3: - BL8 - 0x6 DDR4: - BL8
+ * : 5 + RD_PREAMBLE RD_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write p
+ * reamble) LPDDR3: - BL8: 5 + RU(tDQSCK(max)/tCK) - RD(tDQSCK(min)/tCK) +
+ * RU(tODTon(max)/tCK)
+ * PSU_DDRC_ODTCFG_RD_ODT_HOLD 0x6
+
+ * The delay, in clock cycles, from issuing a read command to setting ODT v
+ * alues associated with that command. ODT setting must remain constant for
+ * the entire time that DQS is driven by the uMCTL2. Recommended values: D
+ * DR2: - CL + AL - 4 (not DDR2-1066), CL + AL - 5 (DDR2-1066) If (CL + AL
+ * - 4 < 0), uMCTL2 does not support ODT for read operation. DDR3: - CL - C
+ * WL DDR4: - CL - CWL - RD_PREAMBLE + WR_PREAMBLE + DFITMG1.dfi_t_cmd_lat
+ * (to adjust for CAL mode) WR_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK
+ * write preamble) RD_PREAMBLE = 1 (1tCK write preamble), 2 (2tCK write pre
+ * amble) If (CL - CWL - RD_PREAMBLE + WR_PREAMBLE) < 0, uMCTL2 does not su
+ * pport ODT for read operation. LPDDR3: - RL + RD(tDQSCK(min)/tCK) - 1 - R
+ * U(tODTon(max)/tCK)
+ * PSU_DDRC_ODTCFG_RD_ODT_DELAY 0x0
+
+ * ODT Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD070240, 0x0F1F0F7CU ,0x06000600U)
+ */
+ PSU_Mask_Write(DDRC_ODTCFG_OFFSET, 0x0F1F0F7CU, 0x06000600U);
+/*##################################################################### */
+
+ /*
+ * Register : ODTMAP @ 0XFD070244
+
+ * Indicates which remote ODTs must be turned on during a read from rank 1.
+ * Each rank has a remote ODT (in the SDRAM) which can be turned on by set
+ * ting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 i
+ * s controlled by bit next to the LSB, etc. For each rank, set its bit to
+ * 1 to enable its ODT. Present only in configurations that have 2 or more
+ * ranks
+ * PSU_DDRC_ODTMAP_RANK1_RD_ODT 0x0
+
+ * Indicates which remote ODTs must be turned on during a write to rank 1.
+ * Each rank has a remote ODT (in the SDRAM) which can be turned on by sett
+ * ing the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is
+ * controlled by bit next to the LSB, etc. For each rank, set its bit to 1
+ * to enable its ODT. Present only in configurations that have 2 or more r
+ * anks
+ * PSU_DDRC_ODTMAP_RANK1_WR_ODT 0x0
+
+ * Indicates which remote ODTs must be turned on during a read from rank 0.
+ * Each rank has a remote ODT (in the SDRAM) which can be turned on by set
+ * ting the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 i
+ * s controlled by bit next to the LSB, etc. For each rank, set its bit to
+ * 1 to enable its ODT.
+ * PSU_DDRC_ODTMAP_RANK0_RD_ODT 0x0
+
+ * Indicates which remote ODTs must be turned on during a write to rank 0.
+ * Each rank has a remote ODT (in the SDRAM) which can be turned on by sett
+ * ing the appropriate bit here. Rank 0 is controlled by the LSB; rank 1 is
+ * controlled by bit next to the LSB, etc. For each rank, set its bit to 1
+ * to enable its ODT.
+ * PSU_DDRC_ODTMAP_RANK0_WR_ODT 0x1
+
+ * ODT/Rank Map Register
+ * (OFFSET, MASK, VALUE) (0XFD070244, 0x00003333U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_ODTMAP_OFFSET, 0x00003333U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : SCHED @ 0XFD070250
+
+ * When the preferred transaction store is empty for these many clock cycle
+ * s, switch to the alternate transaction store if it is non-empty. The rea
+ * d transaction store (both high and low priority) is the default preferre
+ * d transaction store and the write transaction store is the alternative s
+ * tore. When prefer write over read is set this is reversed. 0x0 is a lega
+ * l value for this register. When set to 0x0, the transaction store switch
+ * ing will happen immediately when the switching conditions become true. F
+ * OR PERFORMANCE ONLY
+ * PSU_DDRC_SCHED_RDWR_IDLE_GAP 0x1
+
+ * UNUSED
+ * PSU_DDRC_SCHED_GO2CRITICAL_HYSTERESIS 0x0
+
+ * Number of entries in the low priority transaction store is this value +
+ * 1. (MEMC_NO_OF_ENTRY - (SCHED.lpr_num_entries + 1)) is the number of ent
+ * ries available for the high priority transaction store. Setting this to
+ * maximum value allocates all entries to low priority transaction store. S
+ * etting this to 0 allocates 1 entry to low priority transaction store and
+ * the rest to high priority transaction store. Note: In ECC configuration
+ * s, the numbers of write and low priority read credits issued is one less
+ * than in the non-ECC case. One entry each is reserved in the write and l
+ * ow-priority read CAMs for storing the RMW requests arising out of single
+ * bit error correction RMW operation.
+ * PSU_DDRC_SCHED_LPR_NUM_ENTRIES 0x20
+
+ * If true, bank is kept open only while there are page hit transactions av
+ * ailable in the CAM to that bank. The last read or write command in the C
+ * AM with a bank and page hit will be executed with auto-precharge if SCHE
+ * D1.pageclose_timer=0. Even if this register set to 1 and SCHED1.pageclos
+ * e_timer is set to 0, explicit precharge (and not auto-precharge) may be
+ * issued in some cases where there is a mode switch between Write and Read
+ * or between LPR and HPR. The Read and Write commands that are executed a
+ * s part of the ECC scrub requests are also executed without auto-precharg
+ * e. If false, the bank remains open until there is a need to close it (to
+ * open a different page, or for page timeout or refresh timeout) - also k
+ * nown as open page policy. The open page policy can be overridden by sett
+ * ing the per-command-autopre bit on the HIF interface (hif_cmd_autopre).
+ * The pageclose feature provids a midway between Open and Close page polic
+ * ies. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_SCHED_PAGECLOSE 0x0
+
+ * If set then the bank selector prefers writes over reads. FOR DEBUG ONLY.
+ * PSU_DDRC_SCHED_PREFER_WRITE 0x0
+
+ * Active low signal. When asserted ('0'), all incoming transactions are fo
+ * rced to low priority. This implies that all High Priority Read (HPR) and
+ * Variable Priority Read commands (VPR) will be treated as Low Priority R
+ * ead (LPR) commands. On the write side, all Variable Priority Write (VPW)
+ * commands will be treated as Normal Priority Write (NPW) commands. Forci
+ * ng the incoming transactions to low priority implicitly turns off Bypass
+ * path for read commands. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_SCHED_FORCE_LOW_PRI_N 0x1
+
+ * Scheduler Control Register
+ * (OFFSET, MASK, VALUE) (0XFD070250, 0x7FFF3F07U ,0x01002001U)
+ */
+ PSU_Mask_Write(DDRC_SCHED_OFFSET, 0x7FFF3F07U, 0x01002001U);
+/*##################################################################### */
+
+ /*
+ * Register : PERFLPR1 @ 0XFD070264
+
+ * Number of transactions that are serviced once the LPR queue goes critica
+ * l is the smaller of: - (a) This number - (b) Number of transactions avai
+ * lable. Unit: Transaction. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PERFLPR1_LPR_XACT_RUN_LENGTH 0x8
+
+ * Number of clocks that the LPR queue can be starved before it goes critic
+ * al. The minimum valid functional value for this register is 0x1. Program
+ * ming it to 0x0 will disable the starvation functionality; during normal
+ * operation, this function should not be disabled as it will cause excessi
+ * ve latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PERFLPR1_LPR_MAX_STARVE 0x40
+
+ * Low Priority Read CAM Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070264, 0xFF00FFFFU ,0x08000040U)
+ */
+ PSU_Mask_Write(DDRC_PERFLPR1_OFFSET, 0xFF00FFFFU, 0x08000040U);
+/*##################################################################### */
+
+ /*
+ * Register : PERFWR1 @ 0XFD07026C
+
+ * Number of transactions that are serviced once the WR queue goes critical
+ * is the smaller of: - (a) This number - (b) Number of transactions avail
+ * able. Unit: Transaction. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PERFWR1_W_XACT_RUN_LENGTH 0x8
+
+ * Number of clocks that the WR queue can be starved before it goes critica
+ * l. The minimum valid functional value for this register is 0x1. Programm
+ * ing it to 0x0 will disable the starvation functionality; during normal o
+ * peration, this function should not be disabled as it will cause excessiv
+ * e latencies. Unit: Clock cycles. FOR PERFORMANCE ONLY.
+ * PSU_DDRC_PERFWR1_W_MAX_STARVE 0x40
+
+ * Write CAM Register 1
+ * (OFFSET, MASK, VALUE) (0XFD07026C, 0xFF00FFFFU ,0x08000040U)
+ */
+ PSU_Mask_Write(DDRC_PERFWR1_OFFSET, 0xFF00FFFFU, 0x08000040U);
+/*##################################################################### */
+
+ /*
+ * Register : DQMAP0 @ 0XFD070280
+
+ * DQ nibble map for DQ bits [12-15] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP0_DQ_NIBBLE_MAP_12_15 0x0
+
+ * DQ nibble map for DQ bits [8-11] Present only in designs configured to s
+ * upport DDR4.
+ * PSU_DDRC_DQMAP0_DQ_NIBBLE_MAP_8_11 0x0
+
+ * DQ nibble map for DQ bits [4-7] Present only in designs configured to su
+ * pport DDR4.
+ * PSU_DDRC_DQMAP0_DQ_NIBBLE_MAP_4_7 0x0
+
+ * DQ nibble map for DQ bits [0-3] Present only in designs configured to su
+ * pport DDR4.
+ * PSU_DDRC_DQMAP0_DQ_NIBBLE_MAP_0_3 0x0
+
+ * DQ Map Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070280, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DQMAP0_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DQMAP1 @ 0XFD070284
+
+ * DQ nibble map for DQ bits [28-31] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP1_DQ_NIBBLE_MAP_28_31 0x0
+
+ * DQ nibble map for DQ bits [24-27] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP1_DQ_NIBBLE_MAP_24_27 0x0
+
+ * DQ nibble map for DQ bits [20-23] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP1_DQ_NIBBLE_MAP_20_23 0x0
+
+ * DQ nibble map for DQ bits [16-19] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP1_DQ_NIBBLE_MAP_16_19 0x0
+
+ * DQ Map Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070284, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DQMAP1_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DQMAP2 @ 0XFD070288
+
+ * DQ nibble map for DQ bits [44-47] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP2_DQ_NIBBLE_MAP_44_47 0x0
+
+ * DQ nibble map for DQ bits [40-43] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP2_DQ_NIBBLE_MAP_40_43 0x0
+
+ * DQ nibble map for DQ bits [36-39] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP2_DQ_NIBBLE_MAP_36_39 0x0
+
+ * DQ nibble map for DQ bits [32-35] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP2_DQ_NIBBLE_MAP_32_35 0x0
+
+ * DQ Map Register 2
+ * (OFFSET, MASK, VALUE) (0XFD070288, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DQMAP2_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DQMAP3 @ 0XFD07028C
+
+ * DQ nibble map for DQ bits [60-63] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP3_DQ_NIBBLE_MAP_60_63 0x0
+
+ * DQ nibble map for DQ bits [56-59] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP3_DQ_NIBBLE_MAP_56_59 0x0
+
+ * DQ nibble map for DQ bits [52-55] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP3_DQ_NIBBLE_MAP_52_55 0x0
+
+ * DQ nibble map for DQ bits [48-51] Present only in designs configured to
+ * support DDR4.
+ * PSU_DDRC_DQMAP3_DQ_NIBBLE_MAP_48_51 0x0
+
+ * DQ Map Register 3
+ * (OFFSET, MASK, VALUE) (0XFD07028C, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DQMAP3_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DQMAP4 @ 0XFD070290
+
+ * DQ nibble map for DIMM ECC check bits [4-7] Present only in designs conf
+ * igured to support DDR4.
+ * PSU_DDRC_DQMAP4_DQ_NIBBLE_MAP_CB_4_7 0x0
+
+ * DQ nibble map for DIMM ECC check bits [0-3] Present only in designs conf
+ * igured to support DDR4.
+ * PSU_DDRC_DQMAP4_DQ_NIBBLE_MAP_CB_0_3 0x0
+
+ * DQ Map Register 4
+ * (OFFSET, MASK, VALUE) (0XFD070290, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DQMAP4_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DQMAP5 @ 0XFD070294
+
+ * All even ranks have the same DQ mapping controled by DQMAP0-4 register a
+ * s rank 0. This register provides DQ swap function for all odd ranks to s
+ * upport CRC feature. rank based DQ swapping is: swap bit 0 with 1, swap b
+ * it 2 with 3, swap bit 4 with 5 and swap bit 6 with 7. 1: Disable rank ba
+ * sed DQ swapping 0: Enable rank based DQ swapping Present only in designs
+ * configured to support DDR4.
+ * PSU_DDRC_DQMAP5_DIS_DQ_RANK_SWAP 0x1
+
+ * DQ Map Register 5
+ * (OFFSET, MASK, VALUE) (0XFD070294, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_DQMAP5_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : DBG0 @ 0XFD070300
+
+ * When this is set to '0', auto-precharge is disabled for the flushed comm
+ * and in a collision case. Collision cases are write followed by read to s
+ * ame address, read followed by write to same address, or write followed b
+ * y write to same address with DBG0.dis_wc bit = 1 (where same address com
+ * parisons exclude the two address bits representing critical word). FOR D
+ * EBUG ONLY.
+ * PSU_DDRC_DBG0_DIS_COLLISION_PAGE_OPT 0x0
+
+ * When 1, disable write combine. FOR DEBUG ONLY
+ * PSU_DDRC_DBG0_DIS_WC 0x0
+
+ * Debug Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070300, 0x00000011U ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DBG0_OFFSET, 0x00000011U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DBGCMD @ 0XFD07030C
+
+ * Setting this register bit to 1 allows refresh and ZQCS commands to be tr
+ * iggered from hardware via the IOs ext_*. If set to 1, the fields DBGCMD.
+ * zq_calib_short and DBGCMD.rank*_refresh have no function, and are ignore
+ * d by the uMCTL2 logic. Setting this register bit to 0 allows refresh and
+ * ZQCS to be triggered from software, via the fields DBGCMD.zq_calib_shor
+ * t and DBGCMD.rank*_refresh. If set to 0, the hardware pins ext_* have no
+ * function, and are ignored by the uMCTL2 logic. This register is static,
+ * and may only be changed when the DDRC reset signal, core_ddrc_rstn, is
+ * asserted (0).
+ * PSU_DDRC_DBGCMD_HW_REF_ZQ_EN 0x0
+
+ * Setting this register bit to 1 indicates to the uMCTL2 to issue a dfi_ct
+ * rlupd_req to the PHY. When this request is stored in the uMCTL2, the bit
+ * is automatically cleared. This operation must only be performed when DF
+ * IUPD0.dis_auto_ctrlupd=1.
+ * PSU_DDRC_DBGCMD_CTRLUPD 0x0
+
+ * Setting this register bit to 1 indicates to the uMCTL2 to issue a ZQCS (
+ * ZQ calibration short)/MPC(ZQ calibration) command to the SDRAM. When thi
+ * s request is stored in the uMCTL2, the bit is automatically cleared. Thi
+ * s operation can be performed only when ZQCTL0.dis_auto_zq=1. It is recom
+ * mended NOT to set this register bit if in Init operating mode. This regi
+ * ster bit is ignored when in Self-Refresh(except LPDDR4) and SR-Powerdown
+ * (LPDDR4) and Deep power-down operating modes and Maximum Power Saving Mo
+ * de.
+ * PSU_DDRC_DBGCMD_ZQ_CALIB_SHORT 0x0
+
+ * Setting this register bit to 1 indicates to the uMCTL2 to issue a refres
+ * h to rank 1. Writing to this bit causes DBGSTAT.rank1_refresh_busy to be
+ * set. When DBGSTAT.rank1_refresh_busy is cleared, the command has been s
+ * tored in uMCTL2. This operation can be performed only when RFSHCTL3.dis_
+ * auto_refresh=1. It is recommended NOT to set this register bit if in Ini
+ * t or Deep power-down operating modes or Maximum Power Saving Mode.
+ * PSU_DDRC_DBGCMD_RANK1_REFRESH 0x0
+
+ * Setting this register bit to 1 indicates to the uMCTL2 to issue a refres
+ * h to rank 0. Writing to this bit causes DBGSTAT.rank0_refresh_busy to be
+ * set. When DBGSTAT.rank0_refresh_busy is cleared, the command has been s
+ * tored in uMCTL2. This operation can be performed only when RFSHCTL3.dis_
+ * auto_refresh=1. It is recommended NOT to set this register bit if in Ini
+ * t or Deep power-down operating modes or Maximum Power Saving Mode.
+ * PSU_DDRC_DBGCMD_RANK0_REFRESH 0x0
+
+ * Command Debug Register
+ * (OFFSET, MASK, VALUE) (0XFD07030C, 0x80000033U ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_DBGCMD_OFFSET, 0x80000033U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : SWCTL @ 0XFD070320
+
+ * Enable quasi-dynamic register programming outside reset. Program registe
+ * r to 0 to enable quasi-dynamic programming. Set back register to 1 once
+ * programming is done.
+ * PSU_DDRC_SWCTL_SW_DONE 0x0
+
+ * Software register programming control enable
+ * (OFFSET, MASK, VALUE) (0XFD070320, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_SWCTL_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : PCCFG @ 0XFD070400
+
+ * Burst length expansion mode. By default (i.e. bl_exp_mode==0) XPI expand
+ * s every AXI burst into multiple HIF commands, using the memory burst len
+ * gth as a unit. If set to 1, then XPI will use half of the memory burst l
+ * ength as a unit. This applies to both reads and writes. When MSTR.data_b
+ * us_width==00, setting bl_exp_mode to 1 has no effect. This can be used i
+ * n cases where Partial Writes is enabled (UMCTL2_PARTIAL_WR=1) and DBG0.d
+ * is_wc=1, in order to avoid or minimize t_ccd_l penalty in DDR4 and t_ccd
+ * _mw penalty in LPDDR4. Note that if DBICTL.reg_ddrc_dm_en=0, functionali
+ * ty is not supported in the following cases: - UMCTL2_PARTIAL_WR=0 - UMCT
+ * L2_PARTIAL_WR=1, MSTR.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=8 an
+ * d MSTR.reg_ddrc_burst_rdwr=1000 (LPDDR4 only) - UMCTL2_PARTIAL_WR=1, MST
+ * R.reg_ddrc_data_bus_width=01, MEMC_BURST_LENGTH=4 and MSTR.reg_ddrc_burs
+ * t_rdwr=0100 (DDR4 only), with either MSTR.reg_ddrc_burstchop=0 or CRCPAR
+ * CTL1.reg_ddrc_crc_enable=1 Functionality is also not supported if Shared
+ * -AC is enabled
+ * PSU_DDRC_PCCFG_BL_EXP_MODE 0x0
+
+ * Page match four limit. If set to 1, limits the number of consecutive sam
+ * e page DDRC transactions that can be granted by the Port Arbiter to four
+ * when Page Match feature is enabled. If set to 0, there is no limit impo
+ * sed on number of consecutive same page DDRC transactions.
+ * PSU_DDRC_PCCFG_PAGEMATCH_LIMIT 0x0
+
+ * If set to 1 (enabled), sets co_gs_go2critical_wr and co_gs_go2critical_l
+ * pr/co_gs_go2critical_hpr signals going to DDRC based on urgent input (aw
+ * urgent, arurgent) coming from AXI master. If set to 0 (disabled), co_gs_
+ * go2critical_wr and co_gs_go2critical_lpr/co_gs_go2critical_hpr signals a
+ * t DDRC are driven to 1b'0.
+ * PSU_DDRC_PCCFG_GO2CRITICAL_EN 0x1
+
+ * Port Common Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD070400, 0x00000111U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCCFG_OFFSET, 0x00000111U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGR_0 @ 0XFD070404
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGR_0_RD_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (arurgent). When ena
+ * bled and arurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DD
+ * RC is asserted if enabled in PCCFG.go2critical_en register. Note that ar
+ * urgent signal can be asserted anytime and as long as required which is i
+ * ndependent of address handshaking (it is not associated with any particu
+ * lar command).
+ * PSU_DDRC_PCFGR_0_RD_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the read channel of the port.
+ * PSU_DDRC_PCFGR_0_RD_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of read aging counters. These counters
+ * will be parallel loaded after reset, or after each grant to the corresp
+ * onding port. The aging counters down-count every clock cycle where the p
+ * ort is requesting but not granted. The higher significant 5-bits of the
+ * read aging counter sets the priority of the read channel of a given port
+ * . Port's priority will increase as the higher significant 5-bits of the
+ * counter starts to decrease. When the aging counter becomes 0, the corres
+ * ponding port channel will have the highest priority level (timeout condi
+ * tion - Priority0). For multi-port configurations, the aging counters can
+ * not be used to set port priorities when external dynamic priority inputs
+ * (arqos) are enabled (timeout is still applicable). For single port conf
+ * igurations, the aging counters are only used when they timeout (become 0
+ * ) to force read-write direction switching. In this case, external dynami
+ * c priority input, arqos (for reads only) can still be used to set the DD
+ * RC read priority (2 priority levels: low priority read - LPR, high prior
+ * ity read - HPR) on a command by command basis. Note: The two LSBs of thi
+ * s register field are tied internally to 2'b00.
+ * PSU_DDRC_PCFGR_0_RD_PORT_PRIORITY 0xf
+
+ * Port n Configuration Read Register
+ * (OFFSET, MASK, VALUE) (0XFD070404, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGR_0_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGW_0 @ 0XFD070408
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGW_0_WR_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (awurgent). When ena
+ * bled and awurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_wr signal to DDRC is asserted if enabl
+ * ed in PCCFG.go2critical_en register. Note that awurgent signal can be as
+ * serted anytime and as long as required which is independent of address h
+ * andshaking (it is not associated with any particular command).
+ * PSU_DDRC_PCFGW_0_WR_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the write channel of the port.
+ * PSU_DDRC_PCFGW_0_WR_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of write aging counters. These counter
+ * s will be parallel loaded after reset, or after each grant to the corres
+ * ponding port. The aging counters down-count every clock cycle where the
+ * port is requesting but not granted. The higher significant 5-bits of the
+ * write aging counter sets the initial priority of the write channel of a
+ * given port. Port's priority will increase as the higher significant 5-b
+ * its of the counter starts to decrease. When the aging counter becomes 0,
+ * the corresponding port channel will have the highest priority level. Fo
+ * r multi-port configurations, the aging counters cannot be used to set po
+ * rt priorities when external dynamic priority inputs (awqos) are enabled
+ * (timeout is still applicable). For single port configurations, the aging
+ * counters are only used when they timeout (become 0) to force read-write
+ * direction switching. Note: The two LSBs of this register field are tied
+ * internally to 2'b00.
+ * PSU_DDRC_PCFGW_0_WR_PORT_PRIORITY 0xf
+
+ * Port n Configuration Write Register
+ * (OFFSET, MASK, VALUE) (0XFD070408, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGW_0_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCTRL_0 @ 0XFD070490
+
+ * Enables port n.
+ * PSU_DDRC_PCTRL_0_PORT_EN 0x1
+
+ * Port n Control Register
+ * (OFFSET, MASK, VALUE) (0XFD070490, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCTRL_0_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS0_0 @ 0XFD070494
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0 : LPR, 1: VPR, 2: HPR. For dual address queue configurations, region1
+ * maps to the blue address queue. In this case, valid values are 0: LPR a
+ * nd 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tra
+ * ffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_0_RQOS_MAP_REGION1 0x2
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: LPR, 1: VPR, 2: HPR. For dual address queue configurations, region 0
+ * maps to the blue address queue. In this case, valid values are: 0: LPR
+ * and 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_0_RQOS_MAP_REGION0 0x0
+
+ * Separation level1 indicating the end of region0 mapping; start of region
+ * 0 is 0. Possible values for level1 are 0 to 13 (for dual RAQ) or 0 to 14
+ * (for single RAQ) which corresponds to arqos. Note that for PA, arqos va
+ * lues are used directly as port priorities, where the higher the value co
+ * rresponds to higher port priority. All of the map_level* registers must
+ * be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_0_RQOS_MAP_LEVEL1 0xb
+
+ * Port n Read QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070494, 0x0033000FU ,0x0020000BU)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS0_0_OFFSET, 0x0033000FU, 0x0020000BU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS1_0 @ 0XFD070498
+
+ * Specifies the timeout value for transactions mapped to the red address q
+ * ueue.
+ * PSU_DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTR 0x0
+
+ * Specifies the timeout value for transactions mapped to the blue address
+ * queue.
+ * PSU_DDRC_PCFGQOS1_0_RQOS_MAP_TIMEOUTB 0x0
+
+ * Port n Read QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070498, 0x07FF07FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS1_0_OFFSET, 0x07FF07FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGR_1 @ 0XFD0704B4
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGR_1_RD_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (arurgent). When ena
+ * bled and arurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DD
+ * RC is asserted if enabled in PCCFG.go2critical_en register. Note that ar
+ * urgent signal can be asserted anytime and as long as required which is i
+ * ndependent of address handshaking (it is not associated with any particu
+ * lar command).
+ * PSU_DDRC_PCFGR_1_RD_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the read channel of the port.
+ * PSU_DDRC_PCFGR_1_RD_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of read aging counters. These counters
+ * will be parallel loaded after reset, or after each grant to the corresp
+ * onding port. The aging counters down-count every clock cycle where the p
+ * ort is requesting but not granted. The higher significant 5-bits of the
+ * read aging counter sets the priority of the read channel of a given port
+ * . Port's priority will increase as the higher significant 5-bits of the
+ * counter starts to decrease. When the aging counter becomes 0, the corres
+ * ponding port channel will have the highest priority level (timeout condi
+ * tion - Priority0). For multi-port configurations, the aging counters can
+ * not be used to set port priorities when external dynamic priority inputs
+ * (arqos) are enabled (timeout is still applicable). For single port conf
+ * igurations, the aging counters are only used when they timeout (become 0
+ * ) to force read-write direction switching. In this case, external dynami
+ * c priority input, arqos (for reads only) can still be used to set the DD
+ * RC read priority (2 priority levels: low priority read - LPR, high prior
+ * ity read - HPR) on a command by command basis. Note: The two LSBs of thi
+ * s register field are tied internally to 2'b00.
+ * PSU_DDRC_PCFGR_1_RD_PORT_PRIORITY 0xf
+
+ * Port n Configuration Read Register
+ * (OFFSET, MASK, VALUE) (0XFD0704B4, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGR_1_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGW_1 @ 0XFD0704B8
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGW_1_WR_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (awurgent). When ena
+ * bled and awurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_wr signal to DDRC is asserted if enabl
+ * ed in PCCFG.go2critical_en register. Note that awurgent signal can be as
+ * serted anytime and as long as required which is independent of address h
+ * andshaking (it is not associated with any particular command).
+ * PSU_DDRC_PCFGW_1_WR_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the write channel of the port.
+ * PSU_DDRC_PCFGW_1_WR_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of write aging counters. These counter
+ * s will be parallel loaded after reset, or after each grant to the corres
+ * ponding port. The aging counters down-count every clock cycle where the
+ * port is requesting but not granted. The higher significant 5-bits of the
+ * write aging counter sets the initial priority of the write channel of a
+ * given port. Port's priority will increase as the higher significant 5-b
+ * its of the counter starts to decrease. When the aging counter becomes 0,
+ * the corresponding port channel will have the highest priority level. Fo
+ * r multi-port configurations, the aging counters cannot be used to set po
+ * rt priorities when external dynamic priority inputs (awqos) are enabled
+ * (timeout is still applicable). For single port configurations, the aging
+ * counters are only used when they timeout (become 0) to force read-write
+ * direction switching. Note: The two LSBs of this register field are tied
+ * internally to 2'b00.
+ * PSU_DDRC_PCFGW_1_WR_PORT_PRIORITY 0xf
+
+ * Port n Configuration Write Register
+ * (OFFSET, MASK, VALUE) (0XFD0704B8, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGW_1_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCTRL_1 @ 0XFD070540
+
+ * Enables port n.
+ * PSU_DDRC_PCTRL_1_PORT_EN 0x1
+
+ * Port n Control Register
+ * (OFFSET, MASK, VALUE) (0XFD070540, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCTRL_1_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS0_1 @ 0XFD070544
+
+ * This bitfield indicates the traffic class of region2. For dual address q
+ * ueue configurations, region2 maps to the red address queue. Valid values
+ * are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN
+ * = 0) and traffic class of region2 is set to 1 (VPR), VPR traffic is ali
+ * ased to LPR traffic.
+ * PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION2 0x2
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0 : LPR, 1: VPR, 2: HPR. For dual address queue configurations, region1
+ * maps to the blue address queue. In this case, valid values are 0: LPR a
+ * nd 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tra
+ * ffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION1 0x0
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: LPR, 1: VPR, 2: HPR. For dual address queue configurations, region 0
+ * maps to the blue address queue. In this case, valid values are: 0: LPR
+ * and 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_1_RQOS_MAP_REGION0 0x0
+
+ * Separation level2 indicating the end of region1 mapping; start of region
+ * 1 is (level1 + 1). Possible values for level2 are (level1 + 1) to 14 whi
+ * ch corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note
+ * that for PA, arqos values are used directly as port priorities, where t
+ * he higher the value corresponds to higher port priority. All of the map_
+ * level* registers must be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL2 0xb
+
+ * Separation level1 indicating the end of region0 mapping; start of region
+ * 0 is 0. Possible values for level1 are 0 to 13 (for dual RAQ) or 0 to 14
+ * (for single RAQ) which corresponds to arqos. Note that for PA, arqos va
+ * lues are used directly as port priorities, where the higher the value co
+ * rresponds to higher port priority. All of the map_level* registers must
+ * be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_1_RQOS_MAP_LEVEL1 0x3
+
+ * Port n Read QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070544, 0x03330F0FU ,0x02000B03U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS0_1_OFFSET, 0x03330F0FU, 0x02000B03U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS1_1 @ 0XFD070548
+
+ * Specifies the timeout value for transactions mapped to the red address q
+ * ueue.
+ * PSU_DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTR 0x0
+
+ * Specifies the timeout value for transactions mapped to the blue address
+ * queue.
+ * PSU_DDRC_PCFGQOS1_1_RQOS_MAP_TIMEOUTB 0x0
+
+ * Port n Read QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070548, 0x07FF07FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS1_1_OFFSET, 0x07FF07FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGR_2 @ 0XFD070564
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGR_2_RD_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (arurgent). When ena
+ * bled and arurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DD
+ * RC is asserted if enabled in PCCFG.go2critical_en register. Note that ar
+ * urgent signal can be asserted anytime and as long as required which is i
+ * ndependent of address handshaking (it is not associated with any particu
+ * lar command).
+ * PSU_DDRC_PCFGR_2_RD_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the read channel of the port.
+ * PSU_DDRC_PCFGR_2_RD_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of read aging counters. These counters
+ * will be parallel loaded after reset, or after each grant to the corresp
+ * onding port. The aging counters down-count every clock cycle where the p
+ * ort is requesting but not granted. The higher significant 5-bits of the
+ * read aging counter sets the priority of the read channel of a given port
+ * . Port's priority will increase as the higher significant 5-bits of the
+ * counter starts to decrease. When the aging counter becomes 0, the corres
+ * ponding port channel will have the highest priority level (timeout condi
+ * tion - Priority0). For multi-port configurations, the aging counters can
+ * not be used to set port priorities when external dynamic priority inputs
+ * (arqos) are enabled (timeout is still applicable). For single port conf
+ * igurations, the aging counters are only used when they timeout (become 0
+ * ) to force read-write direction switching. In this case, external dynami
+ * c priority input, arqos (for reads only) can still be used to set the DD
+ * RC read priority (2 priority levels: low priority read - LPR, high prior
+ * ity read - HPR) on a command by command basis. Note: The two LSBs of thi
+ * s register field are tied internally to 2'b00.
+ * PSU_DDRC_PCFGR_2_RD_PORT_PRIORITY 0xf
+
+ * Port n Configuration Read Register
+ * (OFFSET, MASK, VALUE) (0XFD070564, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGR_2_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGW_2 @ 0XFD070568
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGW_2_WR_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (awurgent). When ena
+ * bled and awurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_wr signal to DDRC is asserted if enabl
+ * ed in PCCFG.go2critical_en register. Note that awurgent signal can be as
+ * serted anytime and as long as required which is independent of address h
+ * andshaking (it is not associated with any particular command).
+ * PSU_DDRC_PCFGW_2_WR_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the write channel of the port.
+ * PSU_DDRC_PCFGW_2_WR_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of write aging counters. These counter
+ * s will be parallel loaded after reset, or after each grant to the corres
+ * ponding port. The aging counters down-count every clock cycle where the
+ * port is requesting but not granted. The higher significant 5-bits of the
+ * write aging counter sets the initial priority of the write channel of a
+ * given port. Port's priority will increase as the higher significant 5-b
+ * its of the counter starts to decrease. When the aging counter becomes 0,
+ * the corresponding port channel will have the highest priority level. Fo
+ * r multi-port configurations, the aging counters cannot be used to set po
+ * rt priorities when external dynamic priority inputs (awqos) are enabled
+ * (timeout is still applicable). For single port configurations, the aging
+ * counters are only used when they timeout (become 0) to force read-write
+ * direction switching. Note: The two LSBs of this register field are tied
+ * internally to 2'b00.
+ * PSU_DDRC_PCFGW_2_WR_PORT_PRIORITY 0xf
+
+ * Port n Configuration Write Register
+ * (OFFSET, MASK, VALUE) (0XFD070568, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGW_2_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCTRL_2 @ 0XFD0705F0
+
+ * Enables port n.
+ * PSU_DDRC_PCTRL_2_PORT_EN 0x1
+
+ * Port n Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0705F0, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCTRL_2_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS0_2 @ 0XFD0705F4
+
+ * This bitfield indicates the traffic class of region2. For dual address q
+ * ueue configurations, region2 maps to the red address queue. Valid values
+ * are 1: VPR and 2: HPR only. When VPR support is disabled (UMCTL2_VPR_EN
+ * = 0) and traffic class of region2 is set to 1 (VPR), VPR traffic is ali
+ * ased to LPR traffic.
+ * PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION2 0x2
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0 : LPR, 1: VPR, 2: HPR. For dual address queue configurations, region1
+ * maps to the blue address queue. In this case, valid values are 0: LPR a
+ * nd 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tra
+ * ffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION1 0x0
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: LPR, 1: VPR, 2: HPR. For dual address queue configurations, region 0
+ * maps to the blue address queue. In this case, valid values are: 0: LPR
+ * and 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_2_RQOS_MAP_REGION0 0x0
+
+ * Separation level2 indicating the end of region1 mapping; start of region
+ * 1 is (level1 + 1). Possible values for level2 are (level1 + 1) to 14 whi
+ * ch corresponds to arqos. Region2 starts from (level2 + 1) up to 15. Note
+ * that for PA, arqos values are used directly as port priorities, where t
+ * he higher the value corresponds to higher port priority. All of the map_
+ * level* registers must be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL2 0xb
+
+ * Separation level1 indicating the end of region0 mapping; start of region
+ * 0 is 0. Possible values for level1 are 0 to 13 (for dual RAQ) or 0 to 14
+ * (for single RAQ) which corresponds to arqos. Note that for PA, arqos va
+ * lues are used directly as port priorities, where the higher the value co
+ * rresponds to higher port priority. All of the map_level* registers must
+ * be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_2_RQOS_MAP_LEVEL1 0x3
+
+ * Port n Read QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0705F4, 0x03330F0FU ,0x02000B03U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS0_2_OFFSET, 0x03330F0FU, 0x02000B03U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS1_2 @ 0XFD0705F8
+
+ * Specifies the timeout value for transactions mapped to the red address q
+ * ueue.
+ * PSU_DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTR 0x0
+
+ * Specifies the timeout value for transactions mapped to the blue address
+ * queue.
+ * PSU_DDRC_PCFGQOS1_2_RQOS_MAP_TIMEOUTB 0x0
+
+ * Port n Read QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD0705F8, 0x07FF07FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS1_2_OFFSET, 0x07FF07FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGR_3 @ 0XFD070614
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGR_3_RD_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (arurgent). When ena
+ * bled and arurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DD
+ * RC is asserted if enabled in PCCFG.go2critical_en register. Note that ar
+ * urgent signal can be asserted anytime and as long as required which is i
+ * ndependent of address handshaking (it is not associated with any particu
+ * lar command).
+ * PSU_DDRC_PCFGR_3_RD_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the read channel of the port.
+ * PSU_DDRC_PCFGR_3_RD_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of read aging counters. These counters
+ * will be parallel loaded after reset, or after each grant to the corresp
+ * onding port. The aging counters down-count every clock cycle where the p
+ * ort is requesting but not granted. The higher significant 5-bits of the
+ * read aging counter sets the priority of the read channel of a given port
+ * . Port's priority will increase as the higher significant 5-bits of the
+ * counter starts to decrease. When the aging counter becomes 0, the corres
+ * ponding port channel will have the highest priority level (timeout condi
+ * tion - Priority0). For multi-port configurations, the aging counters can
+ * not be used to set port priorities when external dynamic priority inputs
+ * (arqos) are enabled (timeout is still applicable). For single port conf
+ * igurations, the aging counters are only used when they timeout (become 0
+ * ) to force read-write direction switching. In this case, external dynami
+ * c priority input, arqos (for reads only) can still be used to set the DD
+ * RC read priority (2 priority levels: low priority read - LPR, high prior
+ * ity read - HPR) on a command by command basis. Note: The two LSBs of thi
+ * s register field are tied internally to 2'b00.
+ * PSU_DDRC_PCFGR_3_RD_PORT_PRIORITY 0xf
+
+ * Port n Configuration Read Register
+ * (OFFSET, MASK, VALUE) (0XFD070614, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGR_3_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGW_3 @ 0XFD070618
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGW_3_WR_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (awurgent). When ena
+ * bled and awurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_wr signal to DDRC is asserted if enabl
+ * ed in PCCFG.go2critical_en register. Note that awurgent signal can be as
+ * serted anytime and as long as required which is independent of address h
+ * andshaking (it is not associated with any particular command).
+ * PSU_DDRC_PCFGW_3_WR_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the write channel of the port.
+ * PSU_DDRC_PCFGW_3_WR_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of write aging counters. These counter
+ * s will be parallel loaded after reset, or after each grant to the corres
+ * ponding port. The aging counters down-count every clock cycle where the
+ * port is requesting but not granted. The higher significant 5-bits of the
+ * write aging counter sets the initial priority of the write channel of a
+ * given port. Port's priority will increase as the higher significant 5-b
+ * its of the counter starts to decrease. When the aging counter becomes 0,
+ * the corresponding port channel will have the highest priority level. Fo
+ * r multi-port configurations, the aging counters cannot be used to set po
+ * rt priorities when external dynamic priority inputs (awqos) are enabled
+ * (timeout is still applicable). For single port configurations, the aging
+ * counters are only used when they timeout (become 0) to force read-write
+ * direction switching. Note: The two LSBs of this register field are tied
+ * internally to 2'b00.
+ * PSU_DDRC_PCFGW_3_WR_PORT_PRIORITY 0xf
+
+ * Port n Configuration Write Register
+ * (OFFSET, MASK, VALUE) (0XFD070618, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGW_3_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCTRL_3 @ 0XFD0706A0
+
+ * Enables port n.
+ * PSU_DDRC_PCTRL_3_PORT_EN 0x1
+
+ * Port n Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0706A0, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCTRL_3_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS0_3 @ 0XFD0706A4
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0 : LPR, 1: VPR, 2: HPR. For dual address queue configurations, region1
+ * maps to the blue address queue. In this case, valid values are 0: LPR a
+ * nd 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tra
+ * ffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_3_RQOS_MAP_REGION1 0x1
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: LPR, 1: VPR, 2: HPR. For dual address queue configurations, region 0
+ * maps to the blue address queue. In this case, valid values are: 0: LPR
+ * and 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_3_RQOS_MAP_REGION0 0x0
+
+ * Separation level1 indicating the end of region0 mapping; start of region
+ * 0 is 0. Possible values for level1 are 0 to 13 (for dual RAQ) or 0 to 14
+ * (for single RAQ) which corresponds to arqos. Note that for PA, arqos va
+ * lues are used directly as port priorities, where the higher the value co
+ * rresponds to higher port priority. All of the map_level* registers must
+ * be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_3_RQOS_MAP_LEVEL1 0x3
+
+ * Port n Read QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0706A4, 0x0033000FU ,0x00100003U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS0_3_OFFSET, 0x0033000FU, 0x00100003U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS1_3 @ 0XFD0706A8
+
+ * Specifies the timeout value for transactions mapped to the red address q
+ * ueue.
+ * PSU_DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTR 0x0
+
+ * Specifies the timeout value for transactions mapped to the blue address
+ * queue.
+ * PSU_DDRC_PCFGQOS1_3_RQOS_MAP_TIMEOUTB 0x4f
+
+ * Port n Read QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD0706A8, 0x07FF07FFU ,0x0000004FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS1_3_OFFSET, 0x07FF07FFU, 0x0000004FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGWQOS0_3 @ 0XFD0706AC
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2_VPW_EN = 0) and tr
+ * affic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW
+ * traffic.
+ * PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_REGION1 0x1
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2_VPW_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW
+ * traffic.
+ * PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_REGION0 0x0
+
+ * Separation level indicating the end of region0 mapping; start of region0
+ * is 0. Possible values for level1 are 0 to 14 which corresponds to awqos
+ * . Note that for PA, awqos values are used directly as port priorities, w
+ * here the higher the value corresponds to higher port priority.
+ * PSU_DDRC_PCFGWQOS0_3_WQOS_MAP_LEVEL 0x3
+
+ * Port n Write QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0706AC, 0x0033000FU ,0x00100003U)
+ */
+ PSU_Mask_Write(DDRC_PCFGWQOS0_3_OFFSET, 0x0033000FU, 0x00100003U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGWQOS1_3 @ 0XFD0706B0
+
+ * Specifies the timeout value for write transactions.
+ * PSU_DDRC_PCFGWQOS1_3_WQOS_MAP_TIMEOUT 0x4f
+
+ * Port n Write QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD0706B0, 0x000007FFU ,0x0000004FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGWQOS1_3_OFFSET, 0x000007FFU, 0x0000004FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGR_4 @ 0XFD0706C4
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGR_4_RD_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (arurgent). When ena
+ * bled and arurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DD
+ * RC is asserted if enabled in PCCFG.go2critical_en register. Note that ar
+ * urgent signal can be asserted anytime and as long as required which is i
+ * ndependent of address handshaking (it is not associated with any particu
+ * lar command).
+ * PSU_DDRC_PCFGR_4_RD_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the read channel of the port.
+ * PSU_DDRC_PCFGR_4_RD_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of read aging counters. These counters
+ * will be parallel loaded after reset, or after each grant to the corresp
+ * onding port. The aging counters down-count every clock cycle where the p
+ * ort is requesting but not granted. The higher significant 5-bits of the
+ * read aging counter sets the priority of the read channel of a given port
+ * . Port's priority will increase as the higher significant 5-bits of the
+ * counter starts to decrease. When the aging counter becomes 0, the corres
+ * ponding port channel will have the highest priority level (timeout condi
+ * tion - Priority0). For multi-port configurations, the aging counters can
+ * not be used to set port priorities when external dynamic priority inputs
+ * (arqos) are enabled (timeout is still applicable). For single port conf
+ * igurations, the aging counters are only used when they timeout (become 0
+ * ) to force read-write direction switching. In this case, external dynami
+ * c priority input, arqos (for reads only) can still be used to set the DD
+ * RC read priority (2 priority levels: low priority read - LPR, high prior
+ * ity read - HPR) on a command by command basis. Note: The two LSBs of thi
+ * s register field are tied internally to 2'b00.
+ * PSU_DDRC_PCFGR_4_RD_PORT_PRIORITY 0xf
+
+ * Port n Configuration Read Register
+ * (OFFSET, MASK, VALUE) (0XFD0706C4, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGR_4_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGW_4 @ 0XFD0706C8
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGW_4_WR_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (awurgent). When ena
+ * bled and awurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_wr signal to DDRC is asserted if enabl
+ * ed in PCCFG.go2critical_en register. Note that awurgent signal can be as
+ * serted anytime and as long as required which is independent of address h
+ * andshaking (it is not associated with any particular command).
+ * PSU_DDRC_PCFGW_4_WR_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the write channel of the port.
+ * PSU_DDRC_PCFGW_4_WR_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of write aging counters. These counter
+ * s will be parallel loaded after reset, or after each grant to the corres
+ * ponding port. The aging counters down-count every clock cycle where the
+ * port is requesting but not granted. The higher significant 5-bits of the
+ * write aging counter sets the initial priority of the write channel of a
+ * given port. Port's priority will increase as the higher significant 5-b
+ * its of the counter starts to decrease. When the aging counter becomes 0,
+ * the corresponding port channel will have the highest priority level. Fo
+ * r multi-port configurations, the aging counters cannot be used to set po
+ * rt priorities when external dynamic priority inputs (awqos) are enabled
+ * (timeout is still applicable). For single port configurations, the aging
+ * counters are only used when they timeout (become 0) to force read-write
+ * direction switching. Note: The two LSBs of this register field are tied
+ * internally to 2'b00.
+ * PSU_DDRC_PCFGW_4_WR_PORT_PRIORITY 0xf
+
+ * Port n Configuration Write Register
+ * (OFFSET, MASK, VALUE) (0XFD0706C8, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGW_4_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCTRL_4 @ 0XFD070750
+
+ * Enables port n.
+ * PSU_DDRC_PCTRL_4_PORT_EN 0x1
+
+ * Port n Control Register
+ * (OFFSET, MASK, VALUE) (0XFD070750, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCTRL_4_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS0_4 @ 0XFD070754
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0 : LPR, 1: VPR, 2: HPR. For dual address queue configurations, region1
+ * maps to the blue address queue. In this case, valid values are 0: LPR a
+ * nd 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tra
+ * ffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_4_RQOS_MAP_REGION1 0x1
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: LPR, 1: VPR, 2: HPR. For dual address queue configurations, region 0
+ * maps to the blue address queue. In this case, valid values are: 0: LPR
+ * and 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_4_RQOS_MAP_REGION0 0x0
+
+ * Separation level1 indicating the end of region0 mapping; start of region
+ * 0 is 0. Possible values for level1 are 0 to 13 (for dual RAQ) or 0 to 14
+ * (for single RAQ) which corresponds to arqos. Note that for PA, arqos va
+ * lues are used directly as port priorities, where the higher the value co
+ * rresponds to higher port priority. All of the map_level* registers must
+ * be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_4_RQOS_MAP_LEVEL1 0x3
+
+ * Port n Read QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070754, 0x0033000FU ,0x00100003U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS0_4_OFFSET, 0x0033000FU, 0x00100003U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS1_4 @ 0XFD070758
+
+ * Specifies the timeout value for transactions mapped to the red address q
+ * ueue.
+ * PSU_DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTR 0x0
+
+ * Specifies the timeout value for transactions mapped to the blue address
+ * queue.
+ * PSU_DDRC_PCFGQOS1_4_RQOS_MAP_TIMEOUTB 0x4f
+
+ * Port n Read QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070758, 0x07FF07FFU ,0x0000004FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS1_4_OFFSET, 0x07FF07FFU, 0x0000004FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGWQOS0_4 @ 0XFD07075C
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2_VPW_EN = 0) and tr
+ * affic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW
+ * traffic.
+ * PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_REGION1 0x1
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2_VPW_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW
+ * traffic.
+ * PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_REGION0 0x0
+
+ * Separation level indicating the end of region0 mapping; start of region0
+ * is 0. Possible values for level1 are 0 to 14 which corresponds to awqos
+ * . Note that for PA, awqos values are used directly as port priorities, w
+ * here the higher the value corresponds to higher port priority.
+ * PSU_DDRC_PCFGWQOS0_4_WQOS_MAP_LEVEL 0x3
+
+ * Port n Write QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD07075C, 0x0033000FU ,0x00100003U)
+ */
+ PSU_Mask_Write(DDRC_PCFGWQOS0_4_OFFSET, 0x0033000FU, 0x00100003U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGWQOS1_4 @ 0XFD070760
+
+ * Specifies the timeout value for write transactions.
+ * PSU_DDRC_PCFGWQOS1_4_WQOS_MAP_TIMEOUT 0x4f
+
+ * Port n Write QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070760, 0x000007FFU ,0x0000004FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGWQOS1_4_OFFSET, 0x000007FFU, 0x0000004FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGR_5 @ 0XFD070774
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGR_5_RD_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (arurgent). When ena
+ * bled and arurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_lpr/co_gs_go2critical_hpr signal to DD
+ * RC is asserted if enabled in PCCFG.go2critical_en register. Note that ar
+ * urgent signal can be asserted anytime and as long as required which is i
+ * ndependent of address handshaking (it is not associated with any particu
+ * lar command).
+ * PSU_DDRC_PCFGR_5_RD_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the read channel of the port.
+ * PSU_DDRC_PCFGR_5_RD_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of read aging counters. These counters
+ * will be parallel loaded after reset, or after each grant to the corresp
+ * onding port. The aging counters down-count every clock cycle where the p
+ * ort is requesting but not granted. The higher significant 5-bits of the
+ * read aging counter sets the priority of the read channel of a given port
+ * . Port's priority will increase as the higher significant 5-bits of the
+ * counter starts to decrease. When the aging counter becomes 0, the corres
+ * ponding port channel will have the highest priority level (timeout condi
+ * tion - Priority0). For multi-port configurations, the aging counters can
+ * not be used to set port priorities when external dynamic priority inputs
+ * (arqos) are enabled (timeout is still applicable). For single port conf
+ * igurations, the aging counters are only used when they timeout (become 0
+ * ) to force read-write direction switching. In this case, external dynami
+ * c priority input, arqos (for reads only) can still be used to set the DD
+ * RC read priority (2 priority levels: low priority read - LPR, high prior
+ * ity read - HPR) on a command by command basis. Note: The two LSBs of thi
+ * s register field are tied internally to 2'b00.
+ * PSU_DDRC_PCFGR_5_RD_PORT_PRIORITY 0xf
+
+ * Port n Configuration Read Register
+ * (OFFSET, MASK, VALUE) (0XFD070774, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGR_5_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGW_5 @ 0XFD070778
+
+ * If set to 1, enables the Page Match feature. If enabled, once a requesti
+ * ng port is granted, the port is continued to be granted if the following
+ * immediate commands are to the same memory page (same bank and same row)
+ * . See also related PCCFG.pagematch_limit register.
+ * PSU_DDRC_PCFGW_5_WR_PORT_PAGEMATCH_EN 0x0
+
+ * If set to 1, enables the AXI urgent sideband signal (awurgent). When ena
+ * bled and awurgent is asserted by the master, that port becomes the highe
+ * st priority and co_gs_go2critical_wr signal to DDRC is asserted if enabl
+ * ed in PCCFG.go2critical_en register. Note that awurgent signal can be as
+ * serted anytime and as long as required which is independent of address h
+ * andshaking (it is not associated with any particular command).
+ * PSU_DDRC_PCFGW_5_WR_PORT_URGENT_EN 0x1
+
+ * If set to 1, enables aging function for the write channel of the port.
+ * PSU_DDRC_PCFGW_5_WR_PORT_AGING_EN 0x0
+
+ * Determines the initial load value of write aging counters. These counter
+ * s will be parallel loaded after reset, or after each grant to the corres
+ * ponding port. The aging counters down-count every clock cycle where the
+ * port is requesting but not granted. The higher significant 5-bits of the
+ * write aging counter sets the initial priority of the write channel of a
+ * given port. Port's priority will increase as the higher significant 5-b
+ * its of the counter starts to decrease. When the aging counter becomes 0,
+ * the corresponding port channel will have the highest priority level. Fo
+ * r multi-port configurations, the aging counters cannot be used to set po
+ * rt priorities when external dynamic priority inputs (awqos) are enabled
+ * (timeout is still applicable). For single port configurations, the aging
+ * counters are only used when they timeout (become 0) to force read-write
+ * direction switching. Note: The two LSBs of this register field are tied
+ * internally to 2'b00.
+ * PSU_DDRC_PCFGW_5_WR_PORT_PRIORITY 0xf
+
+ * Port n Configuration Write Register
+ * (OFFSET, MASK, VALUE) (0XFD070778, 0x000073FFU ,0x0000200FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGW_5_OFFSET, 0x000073FFU, 0x0000200FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCTRL_5 @ 0XFD070800
+
+ * Enables port n.
+ * PSU_DDRC_PCTRL_5_PORT_EN 0x1
+
+ * Port n Control Register
+ * (OFFSET, MASK, VALUE) (0XFD070800, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(DDRC_PCTRL_5_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS0_5 @ 0XFD070804
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0 : LPR, 1: VPR, 2: HPR. For dual address queue configurations, region1
+ * maps to the blue address queue. In this case, valid values are 0: LPR a
+ * nd 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tra
+ * ffic class of region 1 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_5_RQOS_MAP_REGION1 0x1
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: LPR, 1: VPR, 2: HPR. For dual address queue configurations, region 0
+ * maps to the blue address queue. In this case, valid values are: 0: LPR
+ * and 1: VPR only. When VPR support is disabled (UMCTL2_VPR_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPR), VPR traffic is aliased to LPR
+ * traffic.
+ * PSU_DDRC_PCFGQOS0_5_RQOS_MAP_REGION0 0x0
+
+ * Separation level1 indicating the end of region0 mapping; start of region
+ * 0 is 0. Possible values for level1 are 0 to 13 (for dual RAQ) or 0 to 14
+ * (for single RAQ) which corresponds to arqos. Note that for PA, arqos va
+ * lues are used directly as port priorities, where the higher the value co
+ * rresponds to higher port priority. All of the map_level* registers must
+ * be set to distinct values.
+ * PSU_DDRC_PCFGQOS0_5_RQOS_MAP_LEVEL1 0x3
+
+ * Port n Read QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD070804, 0x0033000FU ,0x00100003U)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS0_5_OFFSET, 0x0033000FU, 0x00100003U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGQOS1_5 @ 0XFD070808
+
+ * Specifies the timeout value for transactions mapped to the red address q
+ * ueue.
+ * PSU_DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTR 0x0
+
+ * Specifies the timeout value for transactions mapped to the blue address
+ * queue.
+ * PSU_DDRC_PCFGQOS1_5_RQOS_MAP_TIMEOUTB 0x4f
+
+ * Port n Read QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070808, 0x07FF07FFU ,0x0000004FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGQOS1_5_OFFSET, 0x07FF07FFU, 0x0000004FU);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGWQOS0_5 @ 0XFD07080C
+
+ * This bitfield indicates the traffic class of region 1. Valid values are:
+ * 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2_VPW_EN = 0) and tr
+ * affic class of region 1 is set to 1 (VPW), VPW traffic is aliased to LPW
+ * traffic.
+ * PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_REGION1 0x1
+
+ * This bitfield indicates the traffic class of region 0. Valid values are:
+ * 0: NPW, 1: VPW. When VPW support is disabled (UMCTL2_VPW_EN = 0) and tr
+ * affic class of region0 is set to 1 (VPW), VPW traffic is aliased to NPW
+ * traffic.
+ * PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_REGION0 0x0
+
+ * Separation level indicating the end of region0 mapping; start of region0
+ * is 0. Possible values for level1 are 0 to 14 which corresponds to awqos
+ * . Note that for PA, awqos values are used directly as port priorities, w
+ * here the higher the value corresponds to higher port priority.
+ * PSU_DDRC_PCFGWQOS0_5_WQOS_MAP_LEVEL 0x3
+
+ * Port n Write QoS Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD07080C, 0x0033000FU ,0x00100003U)
+ */
+ PSU_Mask_Write(DDRC_PCFGWQOS0_5_OFFSET, 0x0033000FU, 0x00100003U);
+/*##################################################################### */
+
+ /*
+ * Register : PCFGWQOS1_5 @ 0XFD070810
+
+ * Specifies the timeout value for write transactions.
+ * PSU_DDRC_PCFGWQOS1_5_WQOS_MAP_TIMEOUT 0x4f
+
+ * Port n Write QoS Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD070810, 0x000007FFU ,0x0000004FU)
+ */
+ PSU_Mask_Write(DDRC_PCFGWQOS1_5_OFFSET, 0x000007FFU, 0x0000004FU);
+/*##################################################################### */
+
+ /*
+ * Register : SARBASE0 @ 0XFD070F04
+
+ * Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x
+ * ] and araddr[UMCTL2_A_ADDRW-1:x] where x is determined by the minimum bl
+ * ock size parameter UMCTL2_SARMINSIZE: (x=log2(block size)).
+ * PSU_DDRC_SARBASE0_BASE_ADDR 0x0
+
+ * SAR Base Address Register n
+ * (OFFSET, MASK, VALUE) (0XFD070F04, 0x000001FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_SARBASE0_OFFSET, 0x000001FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : SARSIZE0 @ 0XFD070F08
+
+ * Number of blocks for address region n. This register determines the tota
+ * l size of the region in multiples of minimum block size as specified by
+ * the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded
+ * as number of blocks = nblocks + 1. For example, if register is programme
+ * d to 0, region will have 1 block.
+ * PSU_DDRC_SARSIZE0_NBLOCKS 0x0
+
+ * SAR Size Register n
+ * (OFFSET, MASK, VALUE) (0XFD070F08, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDRC_SARSIZE0_OFFSET, 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : SARBASE1 @ 0XFD070F0C
+
+ * Base address for address region n specified as awaddr[UMCTL2_A_ADDRW-1:x
+ * ] and araddr[UMCTL2_A_ADDRW-1:x] where x is determined by the minimum bl
+ * ock size parameter UMCTL2_SARMINSIZE: (x=log2(block size)).
+ * PSU_DDRC_SARBASE1_BASE_ADDR 0x10
+
+ * SAR Base Address Register n
+ * (OFFSET, MASK, VALUE) (0XFD070F0C, 0x000001FFU ,0x00000010U)
+ */
+ PSU_Mask_Write(DDRC_SARBASE1_OFFSET, 0x000001FFU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : SARSIZE1 @ 0XFD070F10
+
+ * Number of blocks for address region n. This register determines the tota
+ * l size of the region in multiples of minimum block size as specified by
+ * the hardware parameter UMCTL2_SARMINSIZE. The register value is encoded
+ * as number of blocks = nblocks + 1. For example, if register is programme
+ * d to 0, region will have 1 block.
+ * PSU_DDRC_SARSIZE1_NBLOCKS 0xf
+
+ * SAR Size Register n
+ * (OFFSET, MASK, VALUE) (0XFD070F10, 0x000000FFU ,0x0000000FU)
+ */
+ PSU_Mask_Write(DDRC_SARSIZE1_OFFSET, 0x000000FFU, 0x0000000FU);
+/*##################################################################### */
+
+ /*
+ * Register : DFITMG0_SHADOW @ 0XFD072190
+
+ * Specifies the number of DFI clock cycles after an assertion or de-assert
+ * ion of the DFI control signals that the control signals at the PHY-DRAM
+ * interface reflect the assertion or de-assertion. If the DFI clock and th
+ * e memory clock are not phase-aligned, this timing parameter should be ro
+ * unded up to the next integer value. Note that if using RDIMM, it is nece
+ * ssary to increment this parameter by RDIMM's extra cycle of latency in t
+ * erms of DFI clock.
+ * PSU_DDRC_DFITMG0_SHADOW_DFI_T_CTRL_DELAY 0x7
+
+ * Defines whether dfi_rddata_en/dfi_rddata/dfi_rddata_valid is generated u
+ * sing HDR or SDR values Selects whether value in DFITMG0.dfi_t_rddata_en
+ * is in terms of SDR or HDR clock cycles: - 0 in terms of HDR clock cycles
+ * - 1 in terms of SDR clock cycles Refer to PHY specification for correct
+ * value.
+ * PSU_DDRC_DFITMG0_SHADOW_DFI_RDDATA_USE_SDR 0x1
+
+ * Time from the assertion of a read command on the DFI interface to the as
+ * sertion of the dfi_rddata_en signal. Refer to PHY specification for corr
+ * ect value. This corresponds to the DFI parameter trddata_en. Note that,
+ * depending on the PHY, if using RDIMM, it may be necessary to use the val
+ * ue (CL + 1) in the calculation of trddata_en. This is to compensate for
+ * the extra cycle of latency through the RDIMM. Unit: Clocks
+ * PSU_DDRC_DFITMG0_SHADOW_DFI_T_RDDATA_EN 0x2
+
+ * Defines whether dfi_wrdata_en/dfi_wrdata/dfi_wrdata_mask is generated us
+ * ing HDR or SDR values Selects whether value in DFITMG0.dfi_tphy_wrlat is
+ * in terms of SDR or HDR clock cycles Selects whether value in DFITMG0.df
+ * i_tphy_wrdata is in terms of SDR or HDR clock cycles - 0 in terms of HDR
+ * clock cycles - 1 in terms of SDR clock cycles Refer to PHY specificatio
+ * n for correct value.
+ * PSU_DDRC_DFITMG0_SHADOW_DFI_WRDATA_USE_SDR 0x1
+
+ * Specifies the number of clock cycles between when dfi_wrdata_en is asser
+ * ted to when the associated write data is driven on the dfi_wrdata signal
+ * . This corresponds to the DFI timing parameter tphy_wrdata. Refer to PHY
+ * specification for correct value. Note, max supported value is 8. Unit:
+ * Clocks
+ * PSU_DDRC_DFITMG0_SHADOW_DFI_TPHY_WRDATA 0x0
+
+ * Write latency Number of clocks from the write command to write data enab
+ * le (dfi_wrdata_en). This corresponds to the DFI timing parameter tphy_wr
+ * lat. Refer to PHY specification for correct value.Note that, depending o
+ * n the PHY, if using RDIMM, it may be necessary to use the value (CL + 1)
+ * in the calculation of tphy_wrlat. This is to compensate for the extra c
+ * ycle of latency through the RDIMM.
+ * PSU_DDRC_DFITMG0_SHADOW_DFI_TPHY_WRLAT 0x2
+
+ * DFI Timing Shadow Register 0
+ * (OFFSET, MASK, VALUE) (0XFD072190, 0x1FBFBF3FU ,0x07828002U)
+ */
+ PSU_Mask_Write(DDRC_DFITMG0_SHADOW_OFFSET, 0x1FBFBF3FU, 0x07828002U);
+/*##################################################################### */
+
+ /*
+ * DDR CONTROLLER RESET
+ */
+ /*
+ * Register : RST_DDR_SS @ 0XFD1A0108
+
+ * DDR block level reset inside of the DDR Sub System
+ * PSU_CRF_APB_RST_DDR_SS_DDR_RESET 0X0
+
+ * APM block level reset inside of the DDR Sub System
+ * PSU_CRF_APB_RST_DDR_SS_APM_RESET 0X0
+
+ * DDR sub system block level reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0108, 0x0000000CU ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_DDR_SS_OFFSET, 0x0000000CU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * DDR PHY
+ */
+ /*
+ * Register : PGCR0 @ 0XFD080010
+
+ * Address Copy
+ * PSU_DDR_PHY_PGCR0_ADCP 0x0
+
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_PGCR0_RESERVED_30_27 0x0
+
+ * PHY FIFO Reset
+ * PSU_DDR_PHY_PGCR0_PHYFRST 0x1
+
+ * Oscillator Mode Address/Command Delay Line Select
+ * PSU_DDR_PHY_PGCR0_OSCACDL 0x3
+
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_PGCR0_RESERVED_23_19 0x0
+
+ * Digital Test Output Select
+ * PSU_DDR_PHY_PGCR0_DTOSEL 0x0
- Control delayed or non-delayed clock to CS_N/ODT?CKE AC slices.
- PSU_DDR_PHY_ACIOCR0_ACRANKCLKSEL 0x0
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_PGCR0_RESERVED_13 0x0
- AC I/O Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080500, 0xFFFFFFFFU ,0x30000028U)
- RegMask = (DDR_PHY_ACIOCR0_ACSR_MASK | DDR_PHY_ACIOCR0_RSTIOM_MASK | DDR_PHY_ACIOCR0_RSTPDR_MASK | DDR_PHY_ACIOCR0_RESERVED_27_MASK | DDR_PHY_ACIOCR0_RSTODT_MASK | DDR_PHY_ACIOCR0_RESERVED_25_10_MASK | DDR_PHY_ACIOCR0_CKDCC_MASK | DDR_PHY_ACIOCR0_ACPDRMODE_MASK | DDR_PHY_ACIOCR0_ACODTMODE_MASK | DDR_PHY_ACIOCR0_RESERVED_1_MASK | DDR_PHY_ACIOCR0_ACRANKCLKSEL_MASK | 0 );
+ * Oscillator Mode Division
+ * PSU_DDR_PHY_PGCR0_OSCDIV 0xf
- RegVal = ((0x00000000U << DDR_PHY_ACIOCR0_ACSR_SHIFT
- | 0x00000001U << DDR_PHY_ACIOCR0_RSTIOM_SHIFT
- | 0x00000001U << DDR_PHY_ACIOCR0_RSTPDR_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR0_RESERVED_27_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR0_RSTODT_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR0_RESERVED_25_10_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR0_CKDCC_SHIFT
- | 0x00000002U << DDR_PHY_ACIOCR0_ACPDRMODE_SHIFT
- | 0x00000002U << DDR_PHY_ACIOCR0_ACODTMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR0_RESERVED_1_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR0_ACRANKCLKSEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACIOCR0_OFFSET ,0xFFFFFFFFU ,0x30000028U);
- /*############################################################################################################################ */
+ * Oscillator Enable
+ * PSU_DDR_PHY_PGCR0_OSCEN 0x0
- /*Register : ACIOCR2 @ 0XFD080508</p>
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_PGCR0_RESERVED_7_0 0x0
- Clock gating for glue logic inside CLKGEN and glue logic inside CONTROL slice
- PSU_DDR_PHY_ACIOCR2_CLKGENCLKGATE 0x0
+ * PHY General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080010, 0xFFFFFFFFU ,0x07001E00U)
+ */
+ PSU_Mask_Write(DDR_PHY_PGCR0_OFFSET, 0xFFFFFFFFU, 0x07001E00U);
+/*##################################################################### */
- Clock gating for Output Enable D slices [0]
- PSU_DDR_PHY_ACIOCR2_ACOECLKGATE0 0x0
+ /*
+ * Register : PGCR2 @ 0XFD080018
- Clock gating for Power Down Receiver D slices [0]
- PSU_DDR_PHY_ACIOCR2_ACPDRCLKGATE0 0x0
+ * Clear Training Status Registers
+ * PSU_DDR_PHY_PGCR2_CLRTSTAT 0x0
- Clock gating for Termination Enable D slices [0]
- PSU_DDR_PHY_ACIOCR2_ACTECLKGATE0 0x0
+ * Clear Impedance Calibration
+ * PSU_DDR_PHY_PGCR2_CLRZCAL 0x0
- Clock gating for CK# D slices [1:0]
- PSU_DDR_PHY_ACIOCR2_CKNCLKGATE0 0x2
+ * Clear Parity Error
+ * PSU_DDR_PHY_PGCR2_CLRPERR 0x0
- Clock gating for CK D slices [1:0]
- PSU_DDR_PHY_ACIOCR2_CKCLKGATE0 0x2
+ * Initialization Complete Pin Configuration
+ * PSU_DDR_PHY_PGCR2_ICPC 0x0
- Clock gating for AC D slices [23:0]
- PSU_DDR_PHY_ACIOCR2_ACCLKGATE0 0x0
+ * Data Training PUB Mode Exit Timer
+ * PSU_DDR_PHY_PGCR2_DTPMXTMR 0xf
- AC I/O Configuration Register 2
- (OFFSET, MASK, VALUE) (0XFD080508, 0xFFFFFFFFU ,0x0A000000U)
- RegMask = (DDR_PHY_ACIOCR2_CLKGENCLKGATE_MASK | DDR_PHY_ACIOCR2_ACOECLKGATE0_MASK | DDR_PHY_ACIOCR2_ACPDRCLKGATE0_MASK | DDR_PHY_ACIOCR2_ACTECLKGATE0_MASK | DDR_PHY_ACIOCR2_CKNCLKGATE0_MASK | DDR_PHY_ACIOCR2_CKCLKGATE0_MASK | DDR_PHY_ACIOCR2_ACCLKGATE0_MASK | 0 );
+ * Initialization Bypass
+ * PSU_DDR_PHY_PGCR2_INITFSMBYP 0x0
- RegVal = ((0x00000000U << DDR_PHY_ACIOCR2_CLKGENCLKGATE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR2_ACOECLKGATE0_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR2_ACPDRCLKGATE0_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR2_ACTECLKGATE0_SHIFT
- | 0x00000002U << DDR_PHY_ACIOCR2_CKNCLKGATE0_SHIFT
- | 0x00000002U << DDR_PHY_ACIOCR2_CKCLKGATE0_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR2_ACCLKGATE0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACIOCR2_OFFSET ,0xFFFFFFFFU ,0x0A000000U);
- /*############################################################################################################################ */
+ * PLL FSM Bypass
+ * PSU_DDR_PHY_PGCR2_PLLFSMBYP 0x0
- /*Register : ACIOCR3 @ 0XFD08050C</p>
+ * Refresh Period
+ * PSU_DDR_PHY_PGCR2_TREFPRD 0x10010
- SDRAM Parity Output Enable (OE) Mode Selection
- PSU_DDR_PHY_ACIOCR3_PAROEMODE 0x0
+ * PHY General Configuration Register 2
+ * (OFFSET, MASK, VALUE) (0XFD080018, 0xFFFFFFFFU ,0x00F10010U)
+ */
+ PSU_Mask_Write(DDR_PHY_PGCR2_OFFSET, 0xFFFFFFFFU, 0x00F10010U);
+/*##################################################################### */
- SDRAM Bank Group Output Enable (OE) Mode Selection
- PSU_DDR_PHY_ACIOCR3_BGOEMODE 0x0
+ /*
+ * Register : PGCR3 @ 0XFD08001C
- SDRAM Bank Address Output Enable (OE) Mode Selection
- PSU_DDR_PHY_ACIOCR3_BAOEMODE 0x0
+ * CKN Enable
+ * PSU_DDR_PHY_PGCR3_CKNEN 0x55
- SDRAM A[17] Output Enable (OE) Mode Selection
- PSU_DDR_PHY_ACIOCR3_A17OEMODE 0x0
+ * CK Enable
+ * PSU_DDR_PHY_PGCR3_CKEN 0xaa
- SDRAM A[16] / RAS_n Output Enable (OE) Mode Selection
- PSU_DDR_PHY_ACIOCR3_A16OEMODE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_PGCR3_RESERVED_15 0x0
- SDRAM ACT_n Output Enable (OE) Mode Selection (DDR4 only)
- PSU_DDR_PHY_ACIOCR3_ACTOEMODE 0x0
+ * Enable Clock Gating for AC [0] ctl_rd_clk
+ * PSU_DDR_PHY_PGCR3_GATEACRDCLK 0x2
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACIOCR3_RESERVED_15_8 0x0
+ * Enable Clock Gating for AC [0] ddr_clk
+ * PSU_DDR_PHY_PGCR3_GATEACDDRCLK 0x2
- Reserved. Return zeros on reads.
- PSU_DDR_PHY_ACIOCR3_CKOEMODE_RSVD 0x0
+ * Enable Clock Gating for AC [0] ctl_clk
+ * PSU_DDR_PHY_PGCR3_GATEACCTLCLK 0x2
- SDRAM CK Output Enable (OE) Mode Selection.
- PSU_DDR_PHY_ACIOCR3_CKOEMODE 0x9
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_PGCR3_RESERVED_8 0x0
- AC I/O Configuration Register 3
- (OFFSET, MASK, VALUE) (0XFD08050C, 0xFFFFFFFFU ,0x00000009U)
- RegMask = (DDR_PHY_ACIOCR3_PAROEMODE_MASK | DDR_PHY_ACIOCR3_BGOEMODE_MASK | DDR_PHY_ACIOCR3_BAOEMODE_MASK | DDR_PHY_ACIOCR3_A17OEMODE_MASK | DDR_PHY_ACIOCR3_A16OEMODE_MASK | DDR_PHY_ACIOCR3_ACTOEMODE_MASK | DDR_PHY_ACIOCR3_RESERVED_15_8_MASK | DDR_PHY_ACIOCR3_CKOEMODE_RSVD_MASK | DDR_PHY_ACIOCR3_CKOEMODE_MASK | 0 );
+ * Controls DDL Bypass Modes
+ * PSU_DDR_PHY_PGCR3_DDLBYPMODE 0x2
- RegVal = ((0x00000000U << DDR_PHY_ACIOCR3_PAROEMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_BGOEMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_BAOEMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_A17OEMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_A16OEMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_ACTOEMODE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_RESERVED_15_8_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR3_CKOEMODE_RSVD_SHIFT
- | 0x00000009U << DDR_PHY_ACIOCR3_CKOEMODE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACIOCR3_OFFSET ,0xFFFFFFFFU ,0x00000009U);
- /*############################################################################################################################ */
+ * IO Loop-Back Select
+ * PSU_DDR_PHY_PGCR3_IOLB 0x0
- /*Register : ACIOCR4 @ 0XFD080510</p>
+ * AC Receive FIFO Read Mode
+ * PSU_DDR_PHY_PGCR3_RDMODE 0x0
- Clock gating for AC LB slices and loopback read valid slices
- PSU_DDR_PHY_ACIOCR4_LBCLKGATE 0x0
+ * Read FIFO Reset Disable
+ * PSU_DDR_PHY_PGCR3_DISRST 0x0
- Clock gating for Output Enable D slices [1]
- PSU_DDR_PHY_ACIOCR4_ACOECLKGATE1 0x0
+ * Clock Level when Clock Gating
+ * PSU_DDR_PHY_PGCR3_CLKLEVEL 0x0
- Clock gating for Power Down Receiver D slices [1]
- PSU_DDR_PHY_ACIOCR4_ACPDRCLKGATE1 0x0
+ * PHY General Configuration Register 3
+ * (OFFSET, MASK, VALUE) (0XFD08001C, 0xFFFFFFFFU ,0x55AA5480U)
+ */
+ PSU_Mask_Write(DDR_PHY_PGCR3_OFFSET, 0xFFFFFFFFU, 0x55AA5480U);
+/*##################################################################### */
- Clock gating for Termination Enable D slices [1]
- PSU_DDR_PHY_ACIOCR4_ACTECLKGATE1 0x0
+ /*
+ * Register : PGCR5 @ 0XFD080024
- Clock gating for CK# D slices [3:2]
- PSU_DDR_PHY_ACIOCR4_CKNCLKGATE1 0x2
+ * Frequency B Ratio Term
+ * PSU_DDR_PHY_PGCR5_FRQBT 0x1
- Clock gating for CK D slices [3:2]
- PSU_DDR_PHY_ACIOCR4_CKCLKGATE1 0x2
+ * Frequency A Ratio Term
+ * PSU_DDR_PHY_PGCR5_FRQAT 0x1
- Clock gating for AC D slices [47:24]
- PSU_DDR_PHY_ACIOCR4_ACCLKGATE1 0x0
+ * DFI Disconnect Time Period
+ * PSU_DDR_PHY_PGCR5_DISCNPERIOD 0x0
- AC I/O Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080510, 0xFFFFFFFFU ,0x0A000000U)
- RegMask = (DDR_PHY_ACIOCR4_LBCLKGATE_MASK | DDR_PHY_ACIOCR4_ACOECLKGATE1_MASK | DDR_PHY_ACIOCR4_ACPDRCLKGATE1_MASK | DDR_PHY_ACIOCR4_ACTECLKGATE1_MASK | DDR_PHY_ACIOCR4_CKNCLKGATE1_MASK | DDR_PHY_ACIOCR4_CKCLKGATE1_MASK | DDR_PHY_ACIOCR4_ACCLKGATE1_MASK | 0 );
+ * Receiver bias core side control
+ * PSU_DDR_PHY_PGCR5_VREF_RBCTRL 0xf
- RegVal = ((0x00000000U << DDR_PHY_ACIOCR4_LBCLKGATE_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR4_ACOECLKGATE1_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR4_ACPDRCLKGATE1_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR4_ACTECLKGATE1_SHIFT
- | 0x00000002U << DDR_PHY_ACIOCR4_CKNCLKGATE1_SHIFT
- | 0x00000002U << DDR_PHY_ACIOCR4_CKCLKGATE1_SHIFT
- | 0x00000000U << DDR_PHY_ACIOCR4_ACCLKGATE1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACIOCR4_OFFSET ,0xFFFFFFFFU ,0x0A000000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_PGCR5_RESERVED_3 0x0
- /*Register : IOVCR0 @ 0XFD080520</p>
+ * Internal VREF generator REFSEL ragne select
+ * PSU_DDR_PHY_PGCR5_DXREFISELRANGE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_IOVCR0_RESERVED_31_29 0x0
+ * DDL Page Read Write select
+ * PSU_DDR_PHY_PGCR5_DDLPGACT 0x0
- Address/command lane VREF Pad Enable
- PSU_DDR_PHY_IOVCR0_ACREFPEN 0x0
+ * DDL Page Read Write select
+ * PSU_DDR_PHY_PGCR5_DDLPGRW 0x0
- Address/command lane Internal VREF Enable
- PSU_DDR_PHY_IOVCR0_ACREFEEN 0x0
+ * PHY General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080024, 0xFFFFFFFFU ,0x010100F4U)
+ */
+ PSU_Mask_Write(DDR_PHY_PGCR5_OFFSET, 0xFFFFFFFFU, 0x010100F4U);
+/*##################################################################### */
- Address/command lane Single-End VREF Enable
- PSU_DDR_PHY_IOVCR0_ACREFSEN 0x1
+ /*
+ * Register : PTR0 @ 0XFD080040
- Address/command lane Internal VREF Enable
- PSU_DDR_PHY_IOVCR0_ACREFIEN 0x1
+ * PLL Power-Down Time
+ * PSU_DDR_PHY_PTR0_TPLLPD 0x56
- External VREF generato REFSEL range select
- PSU_DDR_PHY_IOVCR0_ACREFESELRANGE 0x0
+ * PLL Gear Shift Time
+ * PSU_DDR_PHY_PTR0_TPLLGS 0x2155
- Address/command lane External VREF Select
- PSU_DDR_PHY_IOVCR0_ACREFESEL 0x0
+ * PHY Reset Time
+ * PSU_DDR_PHY_PTR0_TPHYRST 0x10
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_IOVCR0_ACREFSSELRANGE 0x1
+ * PHY Timing Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080040, 0xFFFFFFFFU ,0x0AC85550U)
+ */
+ PSU_Mask_Write(DDR_PHY_PTR0_OFFSET, 0xFFFFFFFFU, 0x0AC85550U);
+/*##################################################################### */
- Address/command lane Single-End VREF Select
- PSU_DDR_PHY_IOVCR0_ACREFSSEL 0x30
+ /*
+ * Register : PTR1 @ 0XFD080044
- Internal VREF generator REFSEL ragne select
- PSU_DDR_PHY_IOVCR0_ACVREFISELRANGE 0x1
+ * PLL Lock Time
+ * PSU_DDR_PHY_PTR1_TPLLLOCK 0x4141
- REFSEL Control for internal AC IOs
- PSU_DDR_PHY_IOVCR0_ACVREFISEL 0x30
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_PTR1_RESERVED_15_13 0x0
- IO VREF Control Register 0
- (OFFSET, MASK, VALUE) (0XFD080520, 0xFFFFFFFFU ,0x0300B0B0U)
- RegMask = (DDR_PHY_IOVCR0_RESERVED_31_29_MASK | DDR_PHY_IOVCR0_ACREFPEN_MASK | DDR_PHY_IOVCR0_ACREFEEN_MASK | DDR_PHY_IOVCR0_ACREFSEN_MASK | DDR_PHY_IOVCR0_ACREFIEN_MASK | DDR_PHY_IOVCR0_ACREFESELRANGE_MASK | DDR_PHY_IOVCR0_ACREFESEL_MASK | DDR_PHY_IOVCR0_ACREFSSELRANGE_MASK | DDR_PHY_IOVCR0_ACREFSSEL_MASK | DDR_PHY_IOVCR0_ACVREFISELRANGE_MASK | DDR_PHY_IOVCR0_ACVREFISEL_MASK | 0 );
+ * PLL Reset Time
+ * PSU_DDR_PHY_PTR1_TPLLRST 0xaff
- RegVal = ((0x00000000U << DDR_PHY_IOVCR0_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_IOVCR0_ACREFPEN_SHIFT
- | 0x00000000U << DDR_PHY_IOVCR0_ACREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_IOVCR0_ACREFSEN_SHIFT
- | 0x00000001U << DDR_PHY_IOVCR0_ACREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_IOVCR0_ACREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_IOVCR0_ACREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_IOVCR0_ACREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_IOVCR0_ACREFSSEL_SHIFT
- | 0x00000001U << DDR_PHY_IOVCR0_ACVREFISELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_IOVCR0_ACVREFISEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_IOVCR0_OFFSET ,0xFFFFFFFFU ,0x0300B0B0U);
- /*############################################################################################################################ */
+ * PHY Timing Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080044, 0xFFFFFFFFU ,0x41410AFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_PTR1_OFFSET, 0xFFFFFFFFU, 0x41410AFFU);
+/*##################################################################### */
- /*Register : VTCR0 @ 0XFD080528</p>
+ /*
+ * Register : PLLCR0 @ 0XFD080068
- Number of ctl_clk required to meet (> 150ns) timing requirements during DRAM DQ VREF training
- PSU_DDR_PHY_VTCR0_TVREF 0x7
+ * PLL Bypass
+ * PSU_DDR_PHY_PLLCR0_PLLBYP 0x0
- DRM DQ VREF training Enable
- PSU_DDR_PHY_VTCR0_DVEN 0x1
+ * PLL Reset
+ * PSU_DDR_PHY_PLLCR0_PLLRST 0x0
- Per Device Addressability Enable
- PSU_DDR_PHY_VTCR0_PDAEN 0x1
+ * PLL Power Down
+ * PSU_DDR_PHY_PLLCR0_PLLPD 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_VTCR0_RESERVED_26 0x0
+ * Reference Stop Mode
+ * PSU_DDR_PHY_PLLCR0_RSTOPM 0x0
- VREF Word Count
- PSU_DDR_PHY_VTCR0_VWCR 0x4
+ * PLL Frequency Select
+ * PSU_DDR_PHY_PLLCR0_FRQSEL 0x1
- DRAM DQ VREF step size used during DRAM VREF training
- PSU_DDR_PHY_VTCR0_DVSS 0x0
+ * Relock Mode
+ * PSU_DDR_PHY_PLLCR0_RLOCKM 0x0
- Maximum VREF limit value used during DRAM VREF training
- PSU_DDR_PHY_VTCR0_DVMAX 0x32
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_PLLCR0_CPPC 0x8
- Minimum VREF limit value used during DRAM VREF training
- PSU_DDR_PHY_VTCR0_DVMIN 0x0
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_PLLCR0_CPIC 0x0
- Initial DRAM DQ VREF value used during DRAM VREF training
- PSU_DDR_PHY_VTCR0_DVINIT 0x19
+ * Gear Shift
+ * PSU_DDR_PHY_PLLCR0_GSHIFT 0x0
- VREF Training Control Register 0
- (OFFSET, MASK, VALUE) (0XFD080528, 0xFFFFFFFFU ,0xF9032019U)
- RegMask = (DDR_PHY_VTCR0_TVREF_MASK | DDR_PHY_VTCR0_DVEN_MASK | DDR_PHY_VTCR0_PDAEN_MASK | DDR_PHY_VTCR0_RESERVED_26_MASK | DDR_PHY_VTCR0_VWCR_MASK | DDR_PHY_VTCR0_DVSS_MASK | DDR_PHY_VTCR0_DVMAX_MASK | DDR_PHY_VTCR0_DVMIN_MASK | DDR_PHY_VTCR0_DVINIT_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_PLLCR0_RESERVED_11_9 0x0
- RegVal = ((0x00000007U << DDR_PHY_VTCR0_TVREF_SHIFT
- | 0x00000001U << DDR_PHY_VTCR0_DVEN_SHIFT
- | 0x00000001U << DDR_PHY_VTCR0_PDAEN_SHIFT
- | 0x00000000U << DDR_PHY_VTCR0_RESERVED_26_SHIFT
- | 0x00000004U << DDR_PHY_VTCR0_VWCR_SHIFT
- | 0x00000000U << DDR_PHY_VTCR0_DVSS_SHIFT
- | 0x00000032U << DDR_PHY_VTCR0_DVMAX_SHIFT
- | 0x00000000U << DDR_PHY_VTCR0_DVMIN_SHIFT
- | 0x00000019U << DDR_PHY_VTCR0_DVINIT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_VTCR0_OFFSET ,0xFFFFFFFFU ,0xF9032019U);
- /*############################################################################################################################ */
+ * Analog Test Enable
+ * PSU_DDR_PHY_PLLCR0_ATOEN 0x0
- /*Register : VTCR1 @ 0XFD08052C</p>
+ * Analog Test Control
+ * PSU_DDR_PHY_PLLCR0_ATC 0x0
- Host VREF step size used during VREF training. The register value of N indicates step size of (N+1)
- PSU_DDR_PHY_VTCR1_HVSS 0x0
+ * Digital Test Control
+ * PSU_DDR_PHY_PLLCR0_DTC 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_VTCR1_RESERVED_27 0x0
+ * PLL Control Register 0 (Type B PLL Only)
+ * (OFFSET, MASK, VALUE) (0XFD080068, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_PLLCR0_OFFSET, 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
- Maximum VREF limit value used during DRAM VREF training.
- PSU_DDR_PHY_VTCR1_HVMAX 0x7f
+ /*
+ * Register : DSGCR @ 0XFD080090
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_VTCR1_RESERVED_19 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DSGCR_RESERVED_31_28 0x0
- Minimum VREF limit value used during DRAM VREF training.
- PSU_DDR_PHY_VTCR1_HVMIN 0x0
+ * When RDBI enabled, this bit is used to select RDBI CL calculation, if it
+ * is 1b1, calculation will use RDBICL, otherwise use default calculation.
+ * PSU_DDR_PHY_DSGCR_RDBICLSEL 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_VTCR1_RESERVED_11 0x0
+ * When RDBI enabled, if RDBICLSEL is asserted, RDBI CL adjust using this v
+ * alue.
+ * PSU_DDR_PHY_DSGCR_RDBICL 0x2
- Static Host Vref Rank Value
- PSU_DDR_PHY_VTCR1_SHRNK 0x0
+ * PHY Impedance Update Enable
+ * PSU_DDR_PHY_DSGCR_PHYZUEN 0x1
- Static Host Vref Rank Enable
- PSU_DDR_PHY_VTCR1_SHREN 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DSGCR_RESERVED_22 0x0
- Number of ctl_clk required to meet (> 200ns) VREF Settling timing requirements during Host IO VREF training
- PSU_DDR_PHY_VTCR1_TVREFIO 0x7
+ * SDRAM Reset Output Enable
+ * PSU_DDR_PHY_DSGCR_RSTOE 0x1
- Eye LCDL Offset value for VREF training
- PSU_DDR_PHY_VTCR1_EOFF 0x0
+ * Single Data Rate Mode
+ * PSU_DDR_PHY_DSGCR_SDRMODE 0x0
- Number of LCDL Eye points for which VREF training is repeated
- PSU_DDR_PHY_VTCR1_ENUM 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DSGCR_RESERVED_18 0x0
- HOST (IO) internal VREF training Enable
- PSU_DDR_PHY_VTCR1_HVEN 0x1
+ * ATO Analog Test Enable
+ * PSU_DDR_PHY_DSGCR_ATOAE 0x0
- Host IO Type Control
- PSU_DDR_PHY_VTCR1_HVIO 0x1
+ * DTO Output Enable
+ * PSU_DDR_PHY_DSGCR_DTOOE 0x0
- VREF Training Control Register 1
- (OFFSET, MASK, VALUE) (0XFD08052C, 0xFFFFFFFFU ,0x07F001E3U)
- RegMask = (DDR_PHY_VTCR1_HVSS_MASK | DDR_PHY_VTCR1_RESERVED_27_MASK | DDR_PHY_VTCR1_HVMAX_MASK | DDR_PHY_VTCR1_RESERVED_19_MASK | DDR_PHY_VTCR1_HVMIN_MASK | DDR_PHY_VTCR1_RESERVED_11_MASK | DDR_PHY_VTCR1_SHRNK_MASK | DDR_PHY_VTCR1_SHREN_MASK | DDR_PHY_VTCR1_TVREFIO_MASK | DDR_PHY_VTCR1_EOFF_MASK | DDR_PHY_VTCR1_ENUM_MASK | DDR_PHY_VTCR1_HVEN_MASK | DDR_PHY_VTCR1_HVIO_MASK | 0 );
+ * DTO I/O Mode
+ * PSU_DDR_PHY_DSGCR_DTOIOM 0x0
- RegVal = ((0x00000000U << DDR_PHY_VTCR1_HVSS_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_RESERVED_27_SHIFT
- | 0x0000007FU << DDR_PHY_VTCR1_HVMAX_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_RESERVED_19_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_HVMIN_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_RESERVED_11_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_SHRNK_SHIFT
- | 0x00000001U << DDR_PHY_VTCR1_SHREN_SHIFT
- | 0x00000007U << DDR_PHY_VTCR1_TVREFIO_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_EOFF_SHIFT
- | 0x00000000U << DDR_PHY_VTCR1_ENUM_SHIFT
- | 0x00000001U << DDR_PHY_VTCR1_HVEN_SHIFT
- | 0x00000001U << DDR_PHY_VTCR1_HVIO_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_VTCR1_OFFSET ,0xFFFFFFFFU ,0x07F001E3U);
- /*############################################################################################################################ */
+ * DTO Power Down Receiver
+ * PSU_DDR_PHY_DSGCR_DTOPDR 0x1
- /*Register : ACBDLR1 @ 0XFD080544</p>
+ * Reserved. Return zeroes on reads
+ * PSU_DDR_PHY_DSGCR_RESERVED_13 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR1_RESERVED_31_30 0x0
+ * DTO On-Die Termination
+ * PSU_DDR_PHY_DSGCR_DTOODT 0x0
- Delay select for the BDL on Parity.
- PSU_DDR_PHY_ACBDLR1_PARBD 0x0
+ * PHY Update Acknowledge Delay
+ * PSU_DDR_PHY_DSGCR_PUAD 0x5
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR1_RESERVED_23_22 0x0
+ * Controller Update Acknowledge Enable
+ * PSU_DDR_PHY_DSGCR_CUAEN 0x1
- Delay select for the BDL on Address A[16]. In DDR3 mode this pin is connected to WE.
- PSU_DDR_PHY_ACBDLR1_A16BD 0x0
+ * Reserved. Return zeroes on reads
+ * PSU_DDR_PHY_DSGCR_RESERVED_4_3 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR1_RESERVED_15_14 0x0
+ * Controller Impedance Update Enable
+ * PSU_DDR_PHY_DSGCR_CTLZUEN 0x0
- Delay select for the BDL on Address A[17]. When not in DDR4 modemode this pin is connected to CAS.
- PSU_DDR_PHY_ACBDLR1_A17BD 0x0
+ * Reserved. Return zeroes on reads
+ * PSU_DDR_PHY_DSGCR_RESERVED_1 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR1_RESERVED_7_6 0x0
+ * PHY Update Request Enable
+ * PSU_DDR_PHY_DSGCR_PUREN 0x1
- Delay select for the BDL on ACTN.
- PSU_DDR_PHY_ACBDLR1_ACTBD 0x0
+ * DDR System General Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD080090, 0xFFFFFFFFU ,0x02A04161U)
+ */
+ PSU_Mask_Write(DDR_PHY_DSGCR_OFFSET, 0xFFFFFFFFU, 0x02A04161U);
+/*##################################################################### */
- AC Bit Delay Line Register 1
- (OFFSET, MASK, VALUE) (0XFD080544, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_ACBDLR1_RESERVED_31_30_MASK | DDR_PHY_ACBDLR1_PARBD_MASK | DDR_PHY_ACBDLR1_RESERVED_23_22_MASK | DDR_PHY_ACBDLR1_A16BD_MASK | DDR_PHY_ACBDLR1_RESERVED_15_14_MASK | DDR_PHY_ACBDLR1_A17BD_MASK | DDR_PHY_ACBDLR1_RESERVED_7_6_MASK | DDR_PHY_ACBDLR1_ACTBD_MASK | 0 );
+ /*
+ * Register : GPR0 @ 0XFD0800C0
- RegVal = ((0x00000000U << DDR_PHY_ACBDLR1_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_PARBD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_RESERVED_23_22_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_A16BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_A17BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_RESERVED_7_6_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR1_ACTBD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACBDLR1_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * General Purpose Register 0
+ * PSU_DDR_PHY_GPR0_GPR0 0xd3
- /*Register : ACBDLR2 @ 0XFD080548</p>
+ * General Purpose Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0800C0, 0xFFFFFFFFU ,0x000000D3U)
+ */
+ PSU_Mask_Write(DDR_PHY_GPR0_OFFSET, 0xFFFFFFFFU, 0x000000D3U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR2_RESERVED_31_30 0x0
+ /*
+ * Register : DCR @ 0XFD080100
- Delay select for the BDL on BG[1].
- PSU_DDR_PHY_ACBDLR2_BG1BD 0x0
+ * DDR4 Gear Down Timing.
+ * PSU_DDR_PHY_DCR_GEARDN 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR2_RESERVED_23_22 0x0
+ * Un-used Bank Group
+ * PSU_DDR_PHY_DCR_UBG 0x0
- Delay select for the BDL on BG[0].
- PSU_DDR_PHY_ACBDLR2_BG0BD 0x0
+ * Un-buffered DIMM Address Mirroring
+ * PSU_DDR_PHY_DCR_UDIMM 0x0
- Reser.ved Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR2_RESERVED_15_14 0x0
+ * DDR 2T Timing
+ * PSU_DDR_PHY_DCR_DDR2T 0x0
- Delay select for the BDL on BA[1].
- PSU_DDR_PHY_ACBDLR2_BA1BD 0x0
+ * No Simultaneous Rank Access
+ * PSU_DDR_PHY_DCR_NOSRA 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR2_RESERVED_7_6 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DCR_RESERVED_26_18 0x0
- Delay select for the BDL on BA[0].
- PSU_DDR_PHY_ACBDLR2_BA0BD 0x0
+ * Byte Mask
+ * PSU_DDR_PHY_DCR_BYTEMASK 0x1
- AC Bit Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080548, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_ACBDLR2_RESERVED_31_30_MASK | DDR_PHY_ACBDLR2_BG1BD_MASK | DDR_PHY_ACBDLR2_RESERVED_23_22_MASK | DDR_PHY_ACBDLR2_BG0BD_MASK | DDR_PHY_ACBDLR2_RESERVED_15_14_MASK | DDR_PHY_ACBDLR2_BA1BD_MASK | DDR_PHY_ACBDLR2_RESERVED_7_6_MASK | DDR_PHY_ACBDLR2_BA0BD_MASK | 0 );
+ * DDR Type
+ * PSU_DDR_PHY_DCR_DDRTYPE 0x0
- RegVal = ((0x00000000U << DDR_PHY_ACBDLR2_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_BG1BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_RESERVED_23_22_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_BG0BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_BA1BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_RESERVED_7_6_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR2_BA0BD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACBDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Multi-Purpose Register (MPR) DQ (DDR3 Only)
+ * PSU_DDR_PHY_DCR_MPRDQ 0x0
- /*Register : ACBDLR6 @ 0XFD080558</p>
+ * Primary DQ (DDR3 Only)
+ * PSU_DDR_PHY_DCR_PDQ 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR6_RESERVED_31_30 0x0
+ * DDR 8-Bank
+ * PSU_DDR_PHY_DCR_DDR8BNK 0x1
- Delay select for the BDL on Address A[3].
- PSU_DDR_PHY_ACBDLR6_A03BD 0x0
+ * DDR Mode
+ * PSU_DDR_PHY_DCR_DDRMD 0x4
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR6_RESERVED_23_22 0x0
+ * DRAM Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD080100, 0xFFFFFFFFU ,0x0800040CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DCR_OFFSET, 0xFFFFFFFFU, 0x0800040CU);
+/*##################################################################### */
- Delay select for the BDL on Address A[2].
- PSU_DDR_PHY_ACBDLR6_A02BD 0x0
+ /*
+ * Register : DTPR0 @ 0XFD080110
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR6_RESERVED_15_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR0_RESERVED_31_29 0x0
- Delay select for the BDL on Address A[1].
- PSU_DDR_PHY_ACBDLR6_A01BD 0x0
+ * Activate to activate command delay (different banks)
+ * PSU_DDR_PHY_DTPR0_TRRD 0x6
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR6_RESERVED_7_6 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR0_RESERVED_23 0x0
- Delay select for the BDL on Address A[0].
- PSU_DDR_PHY_ACBDLR6_A00BD 0x0
+ * Activate to precharge command delay
+ * PSU_DDR_PHY_DTPR0_TRAS 0x24
- AC Bit Delay Line Register 6
- (OFFSET, MASK, VALUE) (0XFD080558, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_ACBDLR6_RESERVED_31_30_MASK | DDR_PHY_ACBDLR6_A03BD_MASK | DDR_PHY_ACBDLR6_RESERVED_23_22_MASK | DDR_PHY_ACBDLR6_A02BD_MASK | DDR_PHY_ACBDLR6_RESERVED_15_14_MASK | DDR_PHY_ACBDLR6_A01BD_MASK | DDR_PHY_ACBDLR6_RESERVED_7_6_MASK | DDR_PHY_ACBDLR6_A00BD_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR0_RESERVED_15 0x0
- RegVal = ((0x00000000U << DDR_PHY_ACBDLR6_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_A03BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_RESERVED_23_22_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_A02BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_A01BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_RESERVED_7_6_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR6_A00BD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACBDLR6_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Precharge command period
+ * PSU_DDR_PHY_DTPR0_TRP 0xf
- /*Register : ACBDLR7 @ 0XFD08055C</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR0_RESERVED_7_5 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR7_RESERVED_31_30 0x0
+ * Internal read to precharge command delay
+ * PSU_DDR_PHY_DTPR0_TRTP 0x8
- Delay select for the BDL on Address A[7].
- PSU_DDR_PHY_ACBDLR7_A07BD 0x0
+ * DRAM Timing Parameters Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080110, 0xFFFFFFFFU ,0x06240F08U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR0_OFFSET, 0xFFFFFFFFU, 0x06240F08U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR7_RESERVED_23_22 0x0
+ /*
+ * Register : DTPR1 @ 0XFD080114
- Delay select for the BDL on Address A[6].
- PSU_DDR_PHY_ACBDLR7_A06BD 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR1_RESERVED_31 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR7_RESERVED_15_14 0x0
+ * Minimum delay from when write leveling mode is programmed to the first D
+ * QS/DQS# rising edge.
+ * PSU_DDR_PHY_DTPR1_TWLMRD 0x28
- Delay select for the BDL on Address A[5].
- PSU_DDR_PHY_ACBDLR7_A05BD 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR1_RESERVED_23 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR7_RESERVED_7_6 0x0
+ * 4-bank activate period
+ * PSU_DDR_PHY_DTPR1_TFAW 0x20
- Delay select for the BDL on Address A[4].
- PSU_DDR_PHY_ACBDLR7_A04BD 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR1_RESERVED_15_11 0x0
- AC Bit Delay Line Register 7
- (OFFSET, MASK, VALUE) (0XFD08055C, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_ACBDLR7_RESERVED_31_30_MASK | DDR_PHY_ACBDLR7_A07BD_MASK | DDR_PHY_ACBDLR7_RESERVED_23_22_MASK | DDR_PHY_ACBDLR7_A06BD_MASK | DDR_PHY_ACBDLR7_RESERVED_15_14_MASK | DDR_PHY_ACBDLR7_A05BD_MASK | DDR_PHY_ACBDLR7_RESERVED_7_6_MASK | DDR_PHY_ACBDLR7_A04BD_MASK | 0 );
+ * Load mode update delay (DDR4 and DDR3 only)
+ * PSU_DDR_PHY_DTPR1_TMOD 0x0
- RegVal = ((0x00000000U << DDR_PHY_ACBDLR7_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_A07BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_RESERVED_23_22_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_A06BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_A05BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_RESERVED_7_6_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR7_A04BD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACBDLR7_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR1_RESERVED_7_5 0x0
- /*Register : ACBDLR8 @ 0XFD080560</p>
+ * Load mode cycle time
+ * PSU_DDR_PHY_DTPR1_TMRD 0x8
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR8_RESERVED_31_30 0x0
+ * DRAM Timing Parameters Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080114, 0xFFFFFFFFU ,0x28200008U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR1_OFFSET, 0xFFFFFFFFU, 0x28200008U);
+/*##################################################################### */
- Delay select for the BDL on Address A[11].
- PSU_DDR_PHY_ACBDLR8_A11BD 0x0
+ /*
+ * Register : DTPR2 @ 0XFD080118
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR8_RESERVED_23_22 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR2_RESERVED_31_29 0x0
- Delay select for the BDL on Address A[10].
- PSU_DDR_PHY_ACBDLR8_A10BD 0x0
+ * Read to Write command delay. Valid values are
+ * PSU_DDR_PHY_DTPR2_TRTW 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR8_RESERVED_15_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR2_RESERVED_27_25 0x0
- Delay select for the BDL on Address A[9].
- PSU_DDR_PHY_ACBDLR8_A09BD 0x0
+ * Read to ODT delay (DDR3 only)
+ * PSU_DDR_PHY_DTPR2_TRTODT 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR8_RESERVED_7_6 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR2_RESERVED_23_20 0x0
- Delay select for the BDL on Address A[8].
- PSU_DDR_PHY_ACBDLR8_A08BD 0x0
+ * CKE minimum pulse width
+ * PSU_DDR_PHY_DTPR2_TCKE 0x7
- AC Bit Delay Line Register 8
- (OFFSET, MASK, VALUE) (0XFD080560, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_ACBDLR8_RESERVED_31_30_MASK | DDR_PHY_ACBDLR8_A11BD_MASK | DDR_PHY_ACBDLR8_RESERVED_23_22_MASK | DDR_PHY_ACBDLR8_A10BD_MASK | DDR_PHY_ACBDLR8_RESERVED_15_14_MASK | DDR_PHY_ACBDLR8_A09BD_MASK | DDR_PHY_ACBDLR8_RESERVED_7_6_MASK | DDR_PHY_ACBDLR8_A08BD_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR2_RESERVED_15_10 0x0
- RegVal = ((0x00000000U << DDR_PHY_ACBDLR8_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_A11BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_RESERVED_23_22_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_A10BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_A09BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_RESERVED_7_6_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR8_A08BD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACBDLR8_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Self refresh exit delay
+ * PSU_DDR_PHY_DTPR2_TXS 0x300
- /*Register : ACBDLR9 @ 0XFD080564</p>
+ * DRAM Timing Parameters Register 2
+ * (OFFSET, MASK, VALUE) (0XFD080118, 0xFFFFFFFFU ,0x00070300U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR2_OFFSET, 0xFFFFFFFFU, 0x00070300U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR9_RESERVED_31_30 0x0
+ /*
+ * Register : DTPR3 @ 0XFD08011C
- Delay select for the BDL on Address A[15].
- PSU_DDR_PHY_ACBDLR9_A15BD 0x0
+ * ODT turn-off delay extension
+ * PSU_DDR_PHY_DTPR3_TOFDX 0x4
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR9_RESERVED_23_22 0x0
+ * Read to read and write to write command delay
+ * PSU_DDR_PHY_DTPR3_TCCD 0x0
- Delay select for the BDL on Address A[14].
- PSU_DDR_PHY_ACBDLR9_A14BD 0x0
+ * DLL locking time
+ * PSU_DDR_PHY_DTPR3_TDLLK 0x300
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR9_RESERVED_15_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR3_RESERVED_15_12 0x0
- Delay select for the BDL on Address A[13].
- PSU_DDR_PHY_ACBDLR9_A13BD 0x0
+ * Maximum DQS output access time from CK/CK# (LPDDR2/3 only)
+ * PSU_DDR_PHY_DTPR3_TDQSCKMAX 0x8
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ACBDLR9_RESERVED_7_6 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR3_RESERVED_7_3 0x0
- Delay select for the BDL on Address A[12].
- PSU_DDR_PHY_ACBDLR9_A12BD 0x0
+ * DQS output access time from CK/CK# (LPDDR2/3 only)
+ * PSU_DDR_PHY_DTPR3_TDQSCK 0x0
- AC Bit Delay Line Register 9
- (OFFSET, MASK, VALUE) (0XFD080564, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_ACBDLR9_RESERVED_31_30_MASK | DDR_PHY_ACBDLR9_A15BD_MASK | DDR_PHY_ACBDLR9_RESERVED_23_22_MASK | DDR_PHY_ACBDLR9_A14BD_MASK | DDR_PHY_ACBDLR9_RESERVED_15_14_MASK | DDR_PHY_ACBDLR9_A13BD_MASK | DDR_PHY_ACBDLR9_RESERVED_7_6_MASK | DDR_PHY_ACBDLR9_A12BD_MASK | 0 );
+ * DRAM Timing Parameters Register 3
+ * (OFFSET, MASK, VALUE) (0XFD08011C, 0xFFFFFFFFU ,0x83000800U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR3_OFFSET, 0xFFFFFFFFU, 0x83000800U);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_ACBDLR9_RESERVED_31_30_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_A15BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_RESERVED_23_22_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_A14BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_RESERVED_15_14_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_A13BD_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_RESERVED_7_6_SHIFT
- | 0x00000000U << DDR_PHY_ACBDLR9_A12BD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ACBDLR9_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ /*
+ * Register : DTPR4 @ 0XFD080120
- /*Register : ZQCR @ 0XFD080680</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR4_RESERVED_31_30 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_ZQCR_RESERVED_31_26 0x0
+ * ODT turn-on/turn-off delays (DDR2 only)
+ * PSU_DDR_PHY_DTPR4_TAOND_TAOFD 0x0
- ZQ VREF Range
- PSU_DDR_PHY_ZQCR_ZQREFISELRANGE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR4_RESERVED_27_26 0x0
- Programmable Wait for Frequency B
- PSU_DDR_PHY_ZQCR_PGWAIT_FRQB 0x11
+ * Refresh-to-Refresh
+ * PSU_DDR_PHY_DTPR4_TRFC 0x116
- Programmable Wait for Frequency A
- PSU_DDR_PHY_ZQCR_PGWAIT_FRQA 0x11
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR4_RESERVED_15_14 0x0
- ZQ VREF Pad Enable
- PSU_DDR_PHY_ZQCR_ZQREFPEN 0x0
+ * Write leveling output delay
+ * PSU_DDR_PHY_DTPR4_TWLO 0x2b
- ZQ Internal VREF Enable
- PSU_DDR_PHY_ZQCR_ZQREFIEN 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR4_RESERVED_7_5 0x0
- Choice of termination mode
- PSU_DDR_PHY_ZQCR_ODT_MODE 0x1
+ * Power down exit delay
+ * PSU_DDR_PHY_DTPR4_TXP 0x7
- Force ZCAL VT update
- PSU_DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE 0x0
+ * DRAM Timing Parameters Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080120, 0xFFFFFFFFU ,0x01162B07U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR4_OFFSET, 0xFFFFFFFFU, 0x01162B07U);
+/*##################################################################### */
- IO VT Drift Limit
- PSU_DDR_PHY_ZQCR_IODLMT 0x2
+ /*
+ * Register : DTPR5 @ 0XFD080124
- Averaging algorithm enable, if set, enables averaging algorithm
- PSU_DDR_PHY_ZQCR_AVGEN 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR5_RESERVED_31_24 0x0
- Maximum number of averaging rounds to be used by averaging algorithm
- PSU_DDR_PHY_ZQCR_AVGMAX 0x2
+ * Activate to activate command delay (same bank)
+ * PSU_DDR_PHY_DTPR5_TRC 0x33
- ZQ Calibration Type
- PSU_DDR_PHY_ZQCR_ZCALT 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR5_RESERVED_15 0x0
- ZQ Power Down
- PSU_DDR_PHY_ZQCR_ZQPD 0x0
+ * Activate to read or write delay
+ * PSU_DDR_PHY_DTPR5_TRCD 0xf
- ZQ Impedance Control Register
- (OFFSET, MASK, VALUE) (0XFD080680, 0xFFFFFFFFU ,0x008A2A58U)
- RegMask = (DDR_PHY_ZQCR_RESERVED_31_26_MASK | DDR_PHY_ZQCR_ZQREFISELRANGE_MASK | DDR_PHY_ZQCR_PGWAIT_FRQB_MASK | DDR_PHY_ZQCR_PGWAIT_FRQA_MASK | DDR_PHY_ZQCR_ZQREFPEN_MASK | DDR_PHY_ZQCR_ZQREFIEN_MASK | DDR_PHY_ZQCR_ODT_MODE_MASK | DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_MASK | DDR_PHY_ZQCR_IODLMT_MASK | DDR_PHY_ZQCR_AVGEN_MASK | DDR_PHY_ZQCR_AVGMAX_MASK | DDR_PHY_ZQCR_ZCALT_MASK | DDR_PHY_ZQCR_ZQPD_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR5_RESERVED_7_5 0x0
- RegVal = ((0x00000000U << DDR_PHY_ZQCR_RESERVED_31_26_SHIFT
- | 0x00000000U << DDR_PHY_ZQCR_ZQREFISELRANGE_SHIFT
- | 0x00000011U << DDR_PHY_ZQCR_PGWAIT_FRQB_SHIFT
- | 0x00000011U << DDR_PHY_ZQCR_PGWAIT_FRQA_SHIFT
- | 0x00000000U << DDR_PHY_ZQCR_ZQREFPEN_SHIFT
- | 0x00000001U << DDR_PHY_ZQCR_ZQREFIEN_SHIFT
- | 0x00000001U << DDR_PHY_ZQCR_ODT_MODE_SHIFT
- | 0x00000000U << DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE_SHIFT
- | 0x00000002U << DDR_PHY_ZQCR_IODLMT_SHIFT
- | 0x00000001U << DDR_PHY_ZQCR_AVGEN_SHIFT
- | 0x00000002U << DDR_PHY_ZQCR_AVGMAX_SHIFT
- | 0x00000000U << DDR_PHY_ZQCR_ZCALT_SHIFT
- | 0x00000000U << DDR_PHY_ZQCR_ZQPD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ZQCR_OFFSET ,0xFFFFFFFFU ,0x008A2A58U);
- /*############################################################################################################################ */
+ * Internal write to read command delay
+ * PSU_DDR_PHY_DTPR5_TWTR 0x8
- /*Register : ZQ0PR0 @ 0XFD080684</p>
+ * DRAM Timing Parameters Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080124, 0xFFFFFFFFU ,0x00330F08U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR5_OFFSET, 0xFFFFFFFFU, 0x00330F08U);
+/*##################################################################### */
- Pull-down drive strength ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ0PR0_PD_DRV_ZDEN 0x0
+ /*
+ * Register : DTPR6 @ 0XFD080128
- Pull-up drive strength ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ0PR0_PU_DRV_ZDEN 0x0
+ * PUB Write Latency Enable
+ * PSU_DDR_PHY_DTPR6_PUBWLEN 0x0
- Pull-down termination ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ0PR0_PD_ODT_ZDEN 0x0
+ * PUB Read Latency Enable
+ * PSU_DDR_PHY_DTPR6_PUBRLEN 0x0
- Pull-up termination ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ0PR0_PU_ODT_ZDEN 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR6_RESERVED_29_14 0x0
- Calibration segment bypass
- PSU_DDR_PHY_ZQ0PR0_ZSEGBYP 0x0
+ * Write Latency
+ * PSU_DDR_PHY_DTPR6_PUBWL 0xe
- VREF latch mode controls the mode in which the ZLE pin of the PVREF cell is driven by the PUB
- PSU_DDR_PHY_ZQ0PR0_ZLE_MODE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTPR6_RESERVED_7_6 0x0
- Termination adjustment
- PSU_DDR_PHY_ZQ0PR0_ODT_ADJUST 0x0
+ * Read Latency
+ * PSU_DDR_PHY_DTPR6_PUBRL 0xf
- Pulldown drive strength adjustment
- PSU_DDR_PHY_ZQ0PR0_PD_DRV_ADJUST 0x0
+ * DRAM Timing Parameters Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080128, 0xFFFFFFFFU ,0x00000E0FU)
+ */
+ PSU_Mask_Write(DDR_PHY_DTPR6_OFFSET, 0xFFFFFFFFU, 0x00000E0FU);
+/*##################################################################### */
- Pullup drive strength adjustment
- PSU_DDR_PHY_ZQ0PR0_PU_DRV_ADJUST 0x0
+ /*
+ * Register : RDIMMGCR0 @ 0XFD080140
- DRAM Impedance Divide Ratio
- PSU_DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT 0x7
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RESERVED_31 0x0
- HOST Impedance Divide Ratio
- PSU_DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT 0x7
+ * RDMIMM Quad CS Enable
+ * PSU_DDR_PHY_RDIMMGCR0_QCSEN 0x0
- Impedance Divide Ratio (pulldown drive calibration during asymmetric drive strength calibration)
- PSU_DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD 0xd
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RESERVED_29_28 0x0
- Impedance Divide Ratio (pullup drive calibration during asymmetric drive strength calibration)
- PSU_DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU 0xd
+ * RDIMM Outputs I/O Mode
+ * PSU_DDR_PHY_RDIMMGCR0_RDIMMIOM 0x1
- ZQ n Impedance Control Program Register 0
- (OFFSET, MASK, VALUE) (0XFD080684, 0xFFFFFFFFU ,0x000077DDU)
- RegMask = (DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_MASK | DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_MASK | DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_MASK | DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_MASK | DDR_PHY_ZQ0PR0_ZSEGBYP_MASK | DDR_PHY_ZQ0PR0_ZLE_MODE_MASK | DDR_PHY_ZQ0PR0_ODT_ADJUST_MASK | DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_MASK | DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_MASK | DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_MASK | DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_MASK | DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_MASK | DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RESERVED_26_24 0x0
- RegVal = ((0x00000000U << DDR_PHY_ZQ0PR0_PD_DRV_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_PU_DRV_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_PD_ODT_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_PU_ODT_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_ZSEGBYP_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_ZLE_MODE_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_ODT_ADJUST_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_PD_DRV_ADJUST_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0PR0_PU_DRV_ADJUST_SHIFT
- | 0x00000007U << DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT_SHIFT
- | 0x00000007U << DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT_SHIFT
- | 0x0000000DU << DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD_SHIFT
- | 0x0000000DU << DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ZQ0PR0_OFFSET ,0xFFFFFFFFU ,0x000077DDU);
- /*############################################################################################################################ */
+ * ERROUT# Output Enable
+ * PSU_DDR_PHY_RDIMMGCR0_ERROUTOE 0x0
- /*Register : ZQ0OR0 @ 0XFD080694</p>
+ * ERROUT# I/O Mode
+ * PSU_DDR_PHY_RDIMMGCR0_ERROUTIOM 0x1
- Reserved. Return zeros on reads.
- PSU_DDR_PHY_ZQ0OR0_RESERVED_31_26 0x0
+ * ERROUT# Power Down Receiver
+ * PSU_DDR_PHY_RDIMMGCR0_ERROUTPDR 0x0
- Override value for the pull-up output impedance
- PSU_DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD 0x1e1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RESERVED_20 0x0
- Reserved. Return zeros on reads.
- PSU_DDR_PHY_ZQ0OR0_RESERVED_15_10 0x0
+ * ERROUT# On-Die Termination
+ * PSU_DDR_PHY_RDIMMGCR0_ERROUTODT 0x0
- Override value for the pull-down output impedance
- PSU_DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD 0x210
+ * Load Reduced DIMM
+ * PSU_DDR_PHY_RDIMMGCR0_LRDIMM 0x0
- ZQ n Impedance Control Override Data Register 0
- (OFFSET, MASK, VALUE) (0XFD080694, 0xFFFFFFFFU ,0x01E10210U)
- RegMask = (DDR_PHY_ZQ0OR0_RESERVED_31_26_MASK | DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_MASK | DDR_PHY_ZQ0OR0_RESERVED_15_10_MASK | DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_ZQ0OR0_RESERVED_31_26_SHIFT
- | 0x000001E1U << DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0OR0_RESERVED_15_10_SHIFT
- | 0x00000210U << DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ZQ0OR0_OFFSET ,0xFFFFFFFFU ,0x01E10210U);
- /*############################################################################################################################ */
+ * PAR_IN I/O Mode
+ * PSU_DDR_PHY_RDIMMGCR0_PARINIOM 0x0
- /*Register : ZQ0OR1 @ 0XFD080698</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RESERVED_16_8 0x0
- Reserved. Return zeros on reads.
- PSU_DDR_PHY_ZQ0OR1_RESERVED_31_26 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RNKMRREN_RSVD 0x0
- Override value for the pull-up termination
- PSU_DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD 0x1e1
+ * Rank Mirror Enable.
+ * PSU_DDR_PHY_RDIMMGCR0_RNKMRREN 0x2
- Reserved. Return zeros on reads.
- PSU_DDR_PHY_ZQ0OR1_RESERVED_15_10 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR0_RESERVED_3 0x0
- Override value for the pull-down termination
- PSU_DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD 0x0
+ * Stop on Parity Error
+ * PSU_DDR_PHY_RDIMMGCR0_SOPERR 0x0
- ZQ n Impedance Control Override Data Register 1
- (OFFSET, MASK, VALUE) (0XFD080698, 0xFFFFFFFFU ,0x01E10000U)
- RegMask = (DDR_PHY_ZQ0OR1_RESERVED_31_26_MASK | DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_MASK | DDR_PHY_ZQ0OR1_RESERVED_15_10_MASK | DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_MASK | 0 );
+ * Parity Error No Registering
+ * PSU_DDR_PHY_RDIMMGCR0_ERRNOREG 0x0
- RegVal = ((0x00000000U << DDR_PHY_ZQ0OR1_RESERVED_31_26_SHIFT
- | 0x000001E1U << DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0OR1_RESERVED_15_10_SHIFT
- | 0x00000000U << DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ZQ0OR1_OFFSET ,0xFFFFFFFFU ,0x01E10000U);
- /*############################################################################################################################ */
+ * Registered DIMM
+ * PSU_DDR_PHY_RDIMMGCR0_RDIMM 0x0
- /*Register : ZQ1PR0 @ 0XFD0806A4</p>
+ * RDIMM General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080140, 0xFFFFFFFFU ,0x08400020U)
+ */
+ PSU_Mask_Write(DDR_PHY_RDIMMGCR0_OFFSET, 0xFFFFFFFFU, 0x08400020U);
+/*##################################################################### */
- Pull-down drive strength ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ1PR0_PD_DRV_ZDEN 0x0
+ /*
+ * Register : RDIMMGCR1 @ 0XFD080144
- Pull-up drive strength ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ1PR0_PU_DRV_ZDEN 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR1_RESERVED_31_29 0x0
- Pull-down termination ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ1PR0_PD_ODT_ZDEN 0x0
+ * Address [17] B-side Inversion Disable
+ * PSU_DDR_PHY_RDIMMGCR1_A17BID 0x0
- Pull-up termination ZCTRL over-ride enable
- PSU_DDR_PHY_ZQ1PR0_PU_ODT_ZDEN 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR1_RESERVED_27 0x0
- Calibration segment bypass
- PSU_DDR_PHY_ZQ1PR0_ZSEGBYP 0x0
+ * Command word to command word programming delay
+ * PSU_DDR_PHY_RDIMMGCR1_TBCMRD_L2 0x0
- VREF latch mode controls the mode in which the ZLE pin of the PVREF cell is driven by the PUB
- PSU_DDR_PHY_ZQ1PR0_ZLE_MODE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR1_RESERVED_23 0x0
- Termination adjustment
- PSU_DDR_PHY_ZQ1PR0_ODT_ADJUST 0x0
+ * Command word to command word programming delay
+ * PSU_DDR_PHY_RDIMMGCR1_TBCMRD_L 0x0
- Pulldown drive strength adjustment
- PSU_DDR_PHY_ZQ1PR0_PD_DRV_ADJUST 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR1_RESERVED_19 0x0
- Pullup drive strength adjustment
- PSU_DDR_PHY_ZQ1PR0_PU_DRV_ADJUST 0x0
+ * Command word to command word programming delay
+ * PSU_DDR_PHY_RDIMMGCR1_TBCMRD 0x0
- DRAM Impedance Divide Ratio
- PSU_DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT 0x7
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RDIMMGCR1_RESERVED_15_14 0x0
- HOST Impedance Divide Ratio
- PSU_DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT 0xb
+ * Stabilization time
+ * PSU_DDR_PHY_RDIMMGCR1_TBCSTAB 0xc80
- Impedance Divide Ratio (pulldown drive calibration during asymmetric drive strength calibration)
- PSU_DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD 0xd
+ * RDIMM General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080144, 0xFFFFFFFFU ,0x00000C80U)
+ */
+ PSU_Mask_Write(DDR_PHY_RDIMMGCR1_OFFSET, 0xFFFFFFFFU, 0x00000C80U);
+/*##################################################################### */
- Impedance Divide Ratio (pullup drive calibration during asymmetric drive strength calibration)
- PSU_DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU 0xb
+ /*
+ * Register : RDIMMCR0 @ 0XFD080150
- ZQ n Impedance Control Program Register 0
- (OFFSET, MASK, VALUE) (0XFD0806A4, 0xFFFFFFFFU ,0x00087BDBU)
- RegMask = (DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_MASK | DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_MASK | DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_MASK | DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_MASK | DDR_PHY_ZQ1PR0_ZSEGBYP_MASK | DDR_PHY_ZQ1PR0_ZLE_MODE_MASK | DDR_PHY_ZQ1PR0_ODT_ADJUST_MASK | DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_MASK | DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_MASK | DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_MASK | DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_MASK | DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_MASK | DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_MASK | 0 );
+ * DDR4/DDR3 Control Word 7
+ * PSU_DDR_PHY_RDIMMCR0_RC7 0x0
- RegVal = ((0x00000000U << DDR_PHY_ZQ1PR0_PD_DRV_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_PU_DRV_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_PD_ODT_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_PU_ODT_ZDEN_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_ZSEGBYP_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_ZLE_MODE_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_ODT_ADJUST_SHIFT
- | 0x00000001U << DDR_PHY_ZQ1PR0_PD_DRV_ADJUST_SHIFT
- | 0x00000000U << DDR_PHY_ZQ1PR0_PU_DRV_ADJUST_SHIFT
- | 0x00000007U << DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT_SHIFT
- | 0x0000000BU << DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT_SHIFT
- | 0x0000000DU << DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD_SHIFT
- | 0x0000000BU << DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_ZQ1PR0_OFFSET ,0xFFFFFFFFU ,0x00087BDBU);
- /*############################################################################################################################ */
+ * DDR4 Control Word 6 (Comman space Control Word) / DDR3 Reserved
+ * PSU_DDR_PHY_RDIMMCR0_RC6 0x0
- /*Register : DX0GCR0 @ 0XFD080700</p>
+ * DDR4/DDR3 Control Word 5 (CK Driver Characteristics Control Word)
+ * PSU_DDR_PHY_RDIMMCR0_RC5 0x0
- Calibration Bypass
- PSU_DDR_PHY_DX0GCR0_CALBYP 0x0
+ * DDR4 Control Word 4 (ODT and CKE Signals Driver Characteristics Control
+ * Word) / DDR3 Control Word 4 (Control Signals Driver Characteristics Cont
+ * rol Word)
+ * PSU_DDR_PHY_RDIMMCR0_RC4 0x0
- Master Delay Line Enable
- PSU_DDR_PHY_DX0GCR0_MDLEN 0x1
+ * DDR4 Control Word 3 (CA and CS Signals Driver Characteristics Control Wo
+ * rd) / DDR3 Control Word 3 (Command/Address Signals Driver Characteristri
+ * cs Control Word)
+ * PSU_DDR_PHY_RDIMMCR0_RC3 0x0
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX0GCR0_CODTSHFT 0x0
+ * DDR4 Control Word 2 (Timing and IBT Control Word) / DDR3 Control Word 2
+ * (Timing Control Word)
+ * PSU_DDR_PHY_RDIMMCR0_RC2 0x0
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX0GCR0_DQSDCC 0x0
+ * DDR4/DDR3 Control Word 1 (Clock Driver Enable Control Word)
+ * PSU_DDR_PHY_RDIMMCR0_RC1 0x0
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX0GCR0_RDDLY 0x8
+ * DDR4/DDR3 Control Word 0 (Global Features Control Word)
+ * PSU_DDR_PHY_RDIMMCR0_RC0 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0GCR0_RESERVED_19_14 0x0
+ * RDIMM Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080150, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_RDIMMCR0_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX0GCR0_DQSNSEPDR 0x0
+ /*
+ * Register : RDIMMCR1 @ 0XFD080154
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX0GCR0_DQSSEPDR 0x0
+ * Control Word 15
+ * PSU_DDR_PHY_RDIMMCR1_RC15 0x0
- RTT On Additive Latency
- PSU_DDR_PHY_DX0GCR0_RTTOAL 0x0
+ * DDR4 Control Word 14 (Parity Control Word) / DDR3 Reserved
+ * PSU_DDR_PHY_RDIMMCR1_RC14 0x0
- RTT Output Hold
- PSU_DDR_PHY_DX0GCR0_RTTOH 0x3
+ * DDR4 Control Word 13 (DIMM Configuration Control Word) / DDR3 Reserved
+ * PSU_DDR_PHY_RDIMMCR1_RC13 0x0
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX0GCR0_CPDRSHFT 0x0
+ * DDR4 Control Word 12 (Training Control Word) / DDR3 Reserved
+ * PSU_DDR_PHY_RDIMMCR1_RC12 0x0
- DQSR Power Down
- PSU_DDR_PHY_DX0GCR0_DQSRPD 0x0
+ * DDR4 Control Word 11 (Operating Voltage VDD and VREFCA Source Control Wo
+ * rd) / DDR3 Control Word 11 (Operation Voltage VDD Control Word)
+ * PSU_DDR_PHY_RDIMMCR1_RC11 0x0
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX0GCR0_DQSGPDR 0x0
+ * DDR4/DDR3 Control Word 10 (RDIMM Operating Speed Control Word)
+ * PSU_DDR_PHY_RDIMMCR1_RC10 0x2
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0GCR0_RESERVED_4 0x0
+ * DDR4/DDR3 Control Word 9 (Power Saving Settings Control Word)
+ * PSU_DDR_PHY_RDIMMCR1_RC9 0x0
- DQSG On-Die Termination
- PSU_DDR_PHY_DX0GCR0_DQSGODT 0x0
+ * DDR4 Control Word 8 (Input/Output Configuration Control Word) / DDR3 Con
+ * trol Word 8 (Additional Input Bus Termination Setting Control Word)
+ * PSU_DDR_PHY_RDIMMCR1_RC8 0x0
- DQSG Output Enable
- PSU_DDR_PHY_DX0GCR0_DQSGOE 0x1
+ * RDIMM Control Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080154, 0xFFFFFFFFU ,0x00000200U)
+ */
+ PSU_Mask_Write(DDR_PHY_RDIMMCR1_OFFSET, 0xFFFFFFFFU, 0x00000200U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0GCR0_RESERVED_1_0 0x0
+ /*
+ * Register : MR0 @ 0XFD080180
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080700, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX0GCR0_CALBYP_MASK | DDR_PHY_DX0GCR0_MDLEN_MASK | DDR_PHY_DX0GCR0_CODTSHFT_MASK | DDR_PHY_DX0GCR0_DQSDCC_MASK | DDR_PHY_DX0GCR0_RDDLY_MASK | DDR_PHY_DX0GCR0_RESERVED_19_14_MASK | DDR_PHY_DX0GCR0_DQSNSEPDR_MASK | DDR_PHY_DX0GCR0_DQSSEPDR_MASK | DDR_PHY_DX0GCR0_RTTOAL_MASK | DDR_PHY_DX0GCR0_RTTOH_MASK | DDR_PHY_DX0GCR0_CPDRSHFT_MASK | DDR_PHY_DX0GCR0_DQSRPD_MASK | DDR_PHY_DX0GCR0_DQSGPDR_MASK | DDR_PHY_DX0GCR0_RESERVED_4_MASK | DDR_PHY_DX0GCR0_DQSGODT_MASK | DDR_PHY_DX0GCR0_DQSGOE_MASK | DDR_PHY_DX0GCR0_RESERVED_1_0_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR0_RESERVED_31_8 0x6
- RegVal = ((0x00000000U << DDR_PHY_DX0GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX0GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX0GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX0GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX0GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX0GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
-
- /*Register : DX0GCR4 @ 0XFD080710</p>
-
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX0GCR4_RESERVED_31_29 0x0
+ * CA Terminating Rank
+ * PSU_DDR_PHY_MR0_CATR 0x0
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX0GCR4_DXREFPEN 0x0
+ * Reserved. These are JEDEC reserved bits and are recommended by JEDEC to
+ * be programmed to 0x0.
+ * PSU_DDR_PHY_MR0_RSVD_6_5 0x1
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX0GCR4_DXREFEEN 0x3
+ * Built-in Self-Test for RZQ
+ * PSU_DDR_PHY_MR0_RZQI 0x2
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX0GCR4_DXREFSEN 0x1
+ * Reserved. These are JEDEC reserved bits and are recommended by JEDEC to
+ * be programmed to 0x0.
+ * PSU_DDR_PHY_MR0_RSVD_2_0 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR4_RESERVED_24 0x0
+ * LPDDR4 Mode Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080180, 0xFFFFFFFFU ,0x00000630U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR0_OFFSET, 0xFFFFFFFFU, 0x00000630U);
+/*##################################################################### */
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX0GCR4_DXREFESELRANGE 0x0
+ /*
+ * Register : MR1 @ 0XFD080184
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX0GCR4_DXREFESEL 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR1_RESERVED_31_8 0x3
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX0GCR4_DXREFSSELRANGE 0x1
+ * Read Postamble Length
+ * PSU_DDR_PHY_MR1_RDPST 0x0
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX0GCR4_DXREFSSEL 0x30
+ * Write-recovery for auto-precharge command
+ * PSU_DDR_PHY_MR1_NWR 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR4_RESERVED_7_6 0x0
+ * Read Preamble Length
+ * PSU_DDR_PHY_MR1_RDPRE 0x0
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX0GCR4_DXREFIEN 0xf
+ * Write Preamble Length
+ * PSU_DDR_PHY_MR1_WRPRE 0x0
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX0GCR4_DXREFIMON 0x0
+ * Burst Length
+ * PSU_DDR_PHY_MR1_BL 0x1
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080710, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX0GCR4_RESERVED_31_29_MASK | DDR_PHY_DX0GCR4_DXREFPEN_MASK | DDR_PHY_DX0GCR4_DXREFEEN_MASK | DDR_PHY_DX0GCR4_DXREFSEN_MASK | DDR_PHY_DX0GCR4_RESERVED_24_MASK | DDR_PHY_DX0GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX0GCR4_DXREFESEL_MASK | DDR_PHY_DX0GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX0GCR4_DXREFSSEL_MASK | DDR_PHY_DX0GCR4_RESERVED_7_6_MASK | DDR_PHY_DX0GCR4_DXREFIEN_MASK | DDR_PHY_DX0GCR4_DXREFIMON_MASK | 0 );
+ * LPDDR4 Mode Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080184, 0xFFFFFFFFU ,0x00000301U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR1_OFFSET, 0xFFFFFFFFU, 0x00000301U);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DX0GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX0GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX0GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX0GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX0GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX0GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX0GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ /*
+ * Register : MR2 @ 0XFD080188
- /*Register : DX0GCR5 @ 0XFD080714</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR2_RESERVED_31_8 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR5_RESERVED_31 0x0
+ * Write Leveling
+ * PSU_DDR_PHY_MR2_WRL 0x0
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX0GCR5_DXREFISELR3 0x9
-
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR5_RESERVED_23 0x0
-
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX0GCR5_DXREFISELR2 0x9
-
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR5_RESERVED_15 0x0
-
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX0GCR5_DXREFISELR1 0x4f
-
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR5_RESERVED_7 0x0
-
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX0GCR5_DXREFISELR0 0x4f
+ * Write Latency Set
+ * PSU_DDR_PHY_MR2_WLS 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080714, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX0GCR5_RESERVED_31_MASK | DDR_PHY_DX0GCR5_DXREFISELR3_MASK | DDR_PHY_DX0GCR5_RESERVED_23_MASK | DDR_PHY_DX0GCR5_DXREFISELR2_MASK | DDR_PHY_DX0GCR5_RESERVED_15_MASK | DDR_PHY_DX0GCR5_DXREFISELR1_MASK | DDR_PHY_DX0GCR5_RESERVED_7_MASK | DDR_PHY_DX0GCR5_DXREFISELR0_MASK | 0 );
+ * Write Latency
+ * PSU_DDR_PHY_MR2_WL 0x4
- RegVal = ((0x00000000U << DDR_PHY_DX0GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX0GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX0GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX0GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX0GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX0GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Read Latency
+ * PSU_DDR_PHY_MR2_RL 0x0
- /*Register : DX0GCR6 @ 0XFD080718</p>
+ * LPDDR4 Mode Register 2
+ * (OFFSET, MASK, VALUE) (0XFD080188, 0xFFFFFFFFU ,0x00000020U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR2_OFFSET, 0xFFFFFFFFU, 0x00000020U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR6_RESERVED_31_30 0x0
+ /*
+ * Register : MR3 @ 0XFD08018C
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX0GCR6_DXDQVREFR3 0x9
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR3_RESERVED_31_8 0x2
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR6_RESERVED_23_22 0x0
+ * DBI-Write Enable
+ * PSU_DDR_PHY_MR3_DBIWR 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX0GCR6_DXDQVREFR2 0x9
+ * DBI-Read Enable
+ * PSU_DDR_PHY_MR3_DBIRD 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR6_RESERVED_15_14 0x0
+ * Pull-down Drive Strength
+ * PSU_DDR_PHY_MR3_PDDS 0x0
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX0GCR6_DXDQVREFR1 0x2b
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR3_RSVD 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX0GCR6_RESERVED_7_6 0x0
+ * Write Postamble Length
+ * PSU_DDR_PHY_MR3_WRPST 0x0
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX0GCR6_DXDQVREFR0 0x2b
+ * Pull-up Calibration Point
+ * PSU_DDR_PHY_MR3_PUCAL 0x0
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080718, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX0GCR6_RESERVED_31_30_MASK | DDR_PHY_DX0GCR6_DXDQVREFR3_MASK | DDR_PHY_DX0GCR6_RESERVED_23_22_MASK | DDR_PHY_DX0GCR6_DXDQVREFR2_MASK | DDR_PHY_DX0GCR6_RESERVED_15_14_MASK | DDR_PHY_DX0GCR6_DXDQVREFR1_MASK | DDR_PHY_DX0GCR6_RESERVED_7_6_MASK | DDR_PHY_DX0GCR6_DXDQVREFR0_MASK | 0 );
+ * LPDDR4 Mode Register 3
+ * (OFFSET, MASK, VALUE) (0XFD08018C, 0xFFFFFFFFU ,0x00000200U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR3_OFFSET, 0xFFFFFFFFU, 0x00000200U);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DX0GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX0GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX0GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX0GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX0GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX0GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX0GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ /*
+ * Register : MR4 @ 0XFD080190
- /*Register : DX0LCDLR2 @ 0XFD080788</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR4_RESERVED_31_16 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0LCDLR2_RESERVED_31_25 0x0
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR4_RSVD_15_13 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX0LCDLR2_RESERVED_24_16 0x0
+ * Write Preamble
+ * PSU_DDR_PHY_MR4_WRP 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0LCDLR2_RESERVED_15_9 0x0
+ * Read Preamble
+ * PSU_DDR_PHY_MR4_RDP 0x0
- Read DQS Gating Delay
- PSU_DDR_PHY_DX0LCDLR2_DQSGD 0x0
+ * Read Preamble Training Mode
+ * PSU_DDR_PHY_MR4_RPTM 0x0
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080788, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX0LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX0LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX0LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX0LCDLR2_DQSGD_MASK | 0 );
+ * Self Refresh Abort
+ * PSU_DDR_PHY_MR4_SRA 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX0LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX0LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX0LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX0LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX0LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * CS to Command Latency Mode
+ * PSU_DDR_PHY_MR4_CS2CMDL 0x0
- /*Register : DX0GTR0 @ 0XFD0807C0</p>
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR4_RSVD1 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0GTR0_RESERVED_31_24 0x0
+ * Internal VREF Monitor
+ * PSU_DDR_PHY_MR4_IVM 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX0GTR0_WDQSL 0x0
+ * Temperature Controlled Refresh Mode
+ * PSU_DDR_PHY_MR4_TCRM 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX0GTR0_RESERVED_23_20 0x0
+ * Temperature Controlled Refresh Range
+ * PSU_DDR_PHY_MR4_TCRR 0x0
- Write Leveling System Latency
- PSU_DDR_PHY_DX0GTR0_WLSL 0x2
+ * Maximum Power Down Mode
+ * PSU_DDR_PHY_MR4_MPDM 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0GTR0_RESERVED_15_13 0x0
+ * This is a JEDEC reserved bit and is recommended by JEDEC to be programme
+ * d to 0x0.
+ * PSU_DDR_PHY_MR4_RSVD_0 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX0GTR0_RESERVED_12_8 0x0
+ * DDR4 Mode Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080190, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR4_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX0GTR0_RESERVED_7_5 0x0
+ /*
+ * Register : MR5 @ 0XFD080194
- DQS Gating System Latency
- PSU_DDR_PHY_DX0GTR0_DGSL 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR5_RESERVED_31_16 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD0807C0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX0GTR0_RESERVED_31_24_MASK | DDR_PHY_DX0GTR0_WDQSL_MASK | DDR_PHY_DX0GTR0_RESERVED_23_20_MASK | DDR_PHY_DX0GTR0_WLSL_MASK | DDR_PHY_DX0GTR0_RESERVED_15_13_MASK | DDR_PHY_DX0GTR0_RESERVED_12_8_MASK | DDR_PHY_DX0GTR0_RESERVED_7_5_MASK | DDR_PHY_DX0GTR0_DGSL_MASK | 0 );
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR5_RSVD 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX0GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX0GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX0GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX0GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX0GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX0GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Read DBI
+ * PSU_DDR_PHY_MR5_RDBI 0x0
- /*Register : DX1GCR0 @ 0XFD080800</p>
+ * Write DBI
+ * PSU_DDR_PHY_MR5_WDBI 0x0
- Calibration Bypass
- PSU_DDR_PHY_DX1GCR0_CALBYP 0x0
+ * Data Mask
+ * PSU_DDR_PHY_MR5_DM 0x1
- Master Delay Line Enable
- PSU_DDR_PHY_DX1GCR0_MDLEN 0x1
+ * CA Parity Persistent Error
+ * PSU_DDR_PHY_MR5_CAPPE 0x1
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX1GCR0_CODTSHFT 0x0
+ * RTT_PARK
+ * PSU_DDR_PHY_MR5_RTTPARK 0x3
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX1GCR0_DQSDCC 0x0
+ * ODT Input Buffer during Power Down mode
+ * PSU_DDR_PHY_MR5_ODTIBPD 0x0
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX1GCR0_RDDLY 0x8
+ * C/A Parity Error Status
+ * PSU_DDR_PHY_MR5_CAPES 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1GCR0_RESERVED_19_14 0x0
+ * CRC Error Clear
+ * PSU_DDR_PHY_MR5_CRCEC 0x0
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX1GCR0_DQSNSEPDR 0x0
+ * C/A Parity Latency Mode
+ * PSU_DDR_PHY_MR5_CAPM 0x0
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX1GCR0_DQSSEPDR 0x0
+ * DDR4 Mode Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080194, 0xFFFFFFFFU ,0x000006C0U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR5_OFFSET, 0xFFFFFFFFU, 0x000006C0U);
+/*##################################################################### */
- RTT On Additive Latency
- PSU_DDR_PHY_DX1GCR0_RTTOAL 0x0
+ /*
+ * Register : MR6 @ 0XFD080198
- RTT Output Hold
- PSU_DDR_PHY_DX1GCR0_RTTOH 0x3
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR6_RESERVED_31_16 0x0
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX1GCR0_CPDRSHFT 0x0
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR6_RSVD_15_13 0x0
- DQSR Power Down
- PSU_DDR_PHY_DX1GCR0_DQSRPD 0x0
+ * CAS_n to CAS_n command delay for same bank group (tCCD_L)
+ * PSU_DDR_PHY_MR6_TCCDL 0x2
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX1GCR0_DQSGPDR 0x0
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR6_RSVD_9_8 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1GCR0_RESERVED_4 0x0
+ * VrefDQ Training Enable
+ * PSU_DDR_PHY_MR6_VDDQTEN 0x0
- DQSG On-Die Termination
- PSU_DDR_PHY_DX1GCR0_DQSGODT 0x0
+ * VrefDQ Training Range
+ * PSU_DDR_PHY_MR6_VDQTRG 0x0
- DQSG Output Enable
- PSU_DDR_PHY_DX1GCR0_DQSGOE 0x1
+ * VrefDQ Training Values
+ * PSU_DDR_PHY_MR6_VDQTVAL 0x19
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1GCR0_RESERVED_1_0 0x0
+ * DDR4 Mode Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080198, 0xFFFFFFFFU ,0x00000819U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR6_OFFSET, 0xFFFFFFFFU, 0x00000819U);
+/*##################################################################### */
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080800, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX1GCR0_CALBYP_MASK | DDR_PHY_DX1GCR0_MDLEN_MASK | DDR_PHY_DX1GCR0_CODTSHFT_MASK | DDR_PHY_DX1GCR0_DQSDCC_MASK | DDR_PHY_DX1GCR0_RDDLY_MASK | DDR_PHY_DX1GCR0_RESERVED_19_14_MASK | DDR_PHY_DX1GCR0_DQSNSEPDR_MASK | DDR_PHY_DX1GCR0_DQSSEPDR_MASK | DDR_PHY_DX1GCR0_RTTOAL_MASK | DDR_PHY_DX1GCR0_RTTOH_MASK | DDR_PHY_DX1GCR0_CPDRSHFT_MASK | DDR_PHY_DX1GCR0_DQSRPD_MASK | DDR_PHY_DX1GCR0_DQSGPDR_MASK | DDR_PHY_DX1GCR0_RESERVED_4_MASK | DDR_PHY_DX1GCR0_DQSGODT_MASK | DDR_PHY_DX1GCR0_DQSGOE_MASK | DDR_PHY_DX1GCR0_RESERVED_1_0_MASK | 0 );
+ /*
+ * Register : MR11 @ 0XFD0801AC
- RegVal = ((0x00000000U << DDR_PHY_DX1GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX1GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX1GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX1GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX1GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX1GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR11_RESERVED_31_8 0x0
- /*Register : DX1GCR4 @ 0XFD080810</p>
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR11_RSVD 0x0
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX1GCR4_RESERVED_31_29 0x0
+ * Power Down Control
+ * PSU_DDR_PHY_MR11_PDCTL 0x0
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX1GCR4_DXREFPEN 0x0
+ * DQ Bus Receiver On-Die-Termination
+ * PSU_DDR_PHY_MR11_DQODT 0x0
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX1GCR4_DXREFEEN 0x3
+ * LPDDR4 Mode Register 11
+ * (OFFSET, MASK, VALUE) (0XFD0801AC, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR11_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX1GCR4_DXREFSEN 0x1
+ /*
+ * Register : MR12 @ 0XFD0801B0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR4_RESERVED_24 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR12_RESERVED_31_8 0x0
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX1GCR4_DXREFESELRANGE 0x0
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR12_RSVD 0x0
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX1GCR4_DXREFESEL 0x0
+ * VREF_CA Range Select.
+ * PSU_DDR_PHY_MR12_VR_CA 0x1
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX1GCR4_DXREFSSELRANGE 0x1
+ * Controls the VREF(ca) levels for Frequency-Set-Point[1:0].
+ * PSU_DDR_PHY_MR12_VREF_CA 0xd
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX1GCR4_DXREFSSEL 0x30
+ * LPDDR4 Mode Register 12
+ * (OFFSET, MASK, VALUE) (0XFD0801B0, 0xFFFFFFFFU ,0x0000004DU)
+ */
+ PSU_Mask_Write(DDR_PHY_MR12_OFFSET, 0xFFFFFFFFU, 0x0000004DU);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR4_RESERVED_7_6 0x0
+ /*
+ * Register : MR13 @ 0XFD0801B4
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX1GCR4_DXREFIEN 0xf
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR13_RESERVED_31_8 0x0
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX1GCR4_DXREFIMON 0x0
+ * Frequency Set Point Operation Mode
+ * PSU_DDR_PHY_MR13_FSPOP 0x0
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080810, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX1GCR4_RESERVED_31_29_MASK | DDR_PHY_DX1GCR4_DXREFPEN_MASK | DDR_PHY_DX1GCR4_DXREFEEN_MASK | DDR_PHY_DX1GCR4_DXREFSEN_MASK | DDR_PHY_DX1GCR4_RESERVED_24_MASK | DDR_PHY_DX1GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX1GCR4_DXREFESEL_MASK | DDR_PHY_DX1GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX1GCR4_DXREFSSEL_MASK | DDR_PHY_DX1GCR4_RESERVED_7_6_MASK | DDR_PHY_DX1GCR4_DXREFIEN_MASK | DDR_PHY_DX1GCR4_DXREFIMON_MASK | 0 );
+ * Frequency Set Point Write Enable
+ * PSU_DDR_PHY_MR13_FSPWR 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX1GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX1GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX1GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX1GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX1GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX1GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX1GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Data Mask Enable
+ * PSU_DDR_PHY_MR13_DMD 0x0
- /*Register : DX1GCR5 @ 0XFD080814</p>
+ * Refresh Rate Option
+ * PSU_DDR_PHY_MR13_RRO 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR5_RESERVED_31 0x0
+ * VREF Current Generator
+ * PSU_DDR_PHY_MR13_VRCG 0x1
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX1GCR5_DXREFISELR3 0x9
-
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR5_RESERVED_23 0x0
-
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX1GCR5_DXREFISELR2 0x9
-
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR5_RESERVED_15 0x0
-
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX1GCR5_DXREFISELR1 0x4f
-
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR5_RESERVED_7 0x0
-
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX1GCR5_DXREFISELR0 0x4f
+ * VREF Output
+ * PSU_DDR_PHY_MR13_VRO 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080814, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX1GCR5_RESERVED_31_MASK | DDR_PHY_DX1GCR5_DXREFISELR3_MASK | DDR_PHY_DX1GCR5_RESERVED_23_MASK | DDR_PHY_DX1GCR5_DXREFISELR2_MASK | DDR_PHY_DX1GCR5_RESERVED_15_MASK | DDR_PHY_DX1GCR5_DXREFISELR1_MASK | DDR_PHY_DX1GCR5_RESERVED_7_MASK | DDR_PHY_DX1GCR5_DXREFISELR0_MASK | 0 );
+ * Read Preamble Training Mode
+ * PSU_DDR_PHY_MR13_RPT 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX1GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX1GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX1GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX1GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX1GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX1GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Command Bus Training
+ * PSU_DDR_PHY_MR13_CBT 0x0
- /*Register : DX1GCR6 @ 0XFD080818</p>
+ * LPDDR4 Mode Register 13
+ * (OFFSET, MASK, VALUE) (0XFD0801B4, 0xFFFFFFFFU ,0x00000008U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR13_OFFSET, 0xFFFFFFFFU, 0x00000008U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR6_RESERVED_31_30 0x0
+ /*
+ * Register : MR14 @ 0XFD0801B8
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX1GCR6_DXDQVREFR3 0x9
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR14_RESERVED_31_8 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR6_RESERVED_23_22 0x0
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR14_RSVD 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX1GCR6_DXDQVREFR2 0x9
+ * VREFDQ Range Selects.
+ * PSU_DDR_PHY_MR14_VR_DQ 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR6_RESERVED_15_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR14_VREF_DQ 0xd
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX1GCR6_DXDQVREFR1 0x2b
+ * LPDDR4 Mode Register 14
+ * (OFFSET, MASK, VALUE) (0XFD0801B8, 0xFFFFFFFFU ,0x0000004DU)
+ */
+ PSU_Mask_Write(DDR_PHY_MR14_OFFSET, 0xFFFFFFFFU, 0x0000004DU);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX1GCR6_RESERVED_7_6 0x0
+ /*
+ * Register : MR22 @ 0XFD0801D8
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX1GCR6_DXDQVREFR0 0x2b
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_MR22_RESERVED_31_8 0x0
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080818, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX1GCR6_RESERVED_31_30_MASK | DDR_PHY_DX1GCR6_DXDQVREFR3_MASK | DDR_PHY_DX1GCR6_RESERVED_23_22_MASK | DDR_PHY_DX1GCR6_DXDQVREFR2_MASK | DDR_PHY_DX1GCR6_RESERVED_15_14_MASK | DDR_PHY_DX1GCR6_DXDQVREFR1_MASK | DDR_PHY_DX1GCR6_RESERVED_7_6_MASK | DDR_PHY_DX1GCR6_DXDQVREFR0_MASK | 0 );
+ * These are JEDEC reserved bits and are recommended by JEDEC to be program
+ * med to 0x0.
+ * PSU_DDR_PHY_MR22_RSVD 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX1GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX1GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX1GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX1GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX1GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX1GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX1GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * CA ODT termination disable.
+ * PSU_DDR_PHY_MR22_ODTD_CA 0x0
- /*Register : DX1LCDLR2 @ 0XFD080888</p>
+ * ODT CS override.
+ * PSU_DDR_PHY_MR22_ODTE_CS 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1LCDLR2_RESERVED_31_25 0x0
+ * ODT CK override.
+ * PSU_DDR_PHY_MR22_ODTE_CK 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX1LCDLR2_RESERVED_24_16 0x0
+ * Controller ODT value for VOH calibration.
+ * PSU_DDR_PHY_MR22_CODT 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1LCDLR2_RESERVED_15_9 0x0
+ * LPDDR4 Mode Register 22
+ * (OFFSET, MASK, VALUE) (0XFD0801D8, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_MR22_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Read DQS Gating Delay
- PSU_DDR_PHY_DX1LCDLR2_DQSGD 0x0
+ /*
+ * Register : DTCR0 @ 0XFD080200
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080888, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX1LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX1LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX1LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX1LCDLR2_DQSGD_MASK | 0 );
+ * Refresh During Training
+ * PSU_DDR_PHY_DTCR0_RFSHDT 0x8
- RegVal = ((0x00000000U << DDR_PHY_DX1LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX1LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX1LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX1LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX1LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR0_RESERVED_27_26 0x0
- /*Register : DX1GTR0 @ 0XFD0808C0</p>
+ * Data Training Debug Rank Select
+ * PSU_DDR_PHY_DTCR0_DTDRS 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1GTR0_RESERVED_31_24 0x0
+ * Data Training with Early/Extended Gate
+ * PSU_DDR_PHY_DTCR0_DTEXG 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX1GTR0_WDQSL 0x0
+ * Data Training Extended Write DQS
+ * PSU_DDR_PHY_DTCR0_DTEXD 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX1GTR0_RESERVED_23_20 0x0
+ * Data Training Debug Step
+ * PSU_DDR_PHY_DTCR0_DTDSTP 0x0
- Write Leveling System Latency
- PSU_DDR_PHY_DX1GTR0_WLSL 0x2
+ * Data Training Debug Enable
+ * PSU_DDR_PHY_DTCR0_DTDEN 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1GTR0_RESERVED_15_13 0x0
+ * Data Training Debug Byte Select
+ * PSU_DDR_PHY_DTCR0_DTDBS 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX1GTR0_RESERVED_12_8 0x0
+ * Data Training read DBI deskewing configuration
+ * PSU_DDR_PHY_DTCR0_DTRDBITR 0x2
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX1GTR0_RESERVED_7_5 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR0_RESERVED_13 0x0
- DQS Gating System Latency
- PSU_DDR_PHY_DX1GTR0_DGSL 0x0
+ * Data Training Write Bit Deskew Data Mask
+ * PSU_DDR_PHY_DTCR0_DTWBDDM 0x1
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD0808C0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX1GTR0_RESERVED_31_24_MASK | DDR_PHY_DX1GTR0_WDQSL_MASK | DDR_PHY_DX1GTR0_RESERVED_23_20_MASK | DDR_PHY_DX1GTR0_WLSL_MASK | DDR_PHY_DX1GTR0_RESERVED_15_13_MASK | DDR_PHY_DX1GTR0_RESERVED_12_8_MASK | DDR_PHY_DX1GTR0_RESERVED_7_5_MASK | DDR_PHY_DX1GTR0_DGSL_MASK | 0 );
+ * Refreshes Issued During Entry to Training
+ * PSU_DDR_PHY_DTCR0_RFSHEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX1GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX1GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX1GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX1GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX1GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX1GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Data Training Compare Data
+ * PSU_DDR_PHY_DTCR0_DTCMPD 0x1
- /*Register : DX2GCR0 @ 0XFD080900</p>
+ * Data Training Using MPR
+ * PSU_DDR_PHY_DTCR0_DTMPR 0x1
- Calibration Bypass
- PSU_DDR_PHY_DX2GCR0_CALBYP 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR0_RESERVED_5_4 0x0
- Master Delay Line Enable
- PSU_DDR_PHY_DX2GCR0_MDLEN 0x1
+ * Data Training Repeat Number
+ * PSU_DDR_PHY_DTCR0_DTRPTN 0x7
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX2GCR0_CODTSHFT 0x0
+ * Data Training Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080200, 0xFFFFFFFFU ,0x800091C7U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTCR0_OFFSET, 0xFFFFFFFFU, 0x800091C7U);
+/*##################################################################### */
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX2GCR0_DQSDCC 0x0
+ /*
+ * Register : DTCR1 @ 0XFD080204
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX2GCR0_RDDLY 0x8
+ * Rank Enable.
+ * PSU_DDR_PHY_DTCR1_RANKEN_RSVD 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2GCR0_RESERVED_19_14 0x0
+ * Rank Enable.
+ * PSU_DDR_PHY_DTCR1_RANKEN 0x1
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX2GCR0_DQSNSEPDR 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR1_RESERVED_15_14 0x0
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX2GCR0_DQSSEPDR 0x0
+ * Data Training Rank
+ * PSU_DDR_PHY_DTCR1_DTRANK 0x0
- RTT On Additive Latency
- PSU_DDR_PHY_DX2GCR0_RTTOAL 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR1_RESERVED_11 0x0
- RTT Output Hold
- PSU_DDR_PHY_DX2GCR0_RTTOH 0x3
+ * Read Leveling Gate Sampling Difference
+ * PSU_DDR_PHY_DTCR1_RDLVLGDIFF 0x2
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX2GCR0_CPDRSHFT 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR1_RESERVED_7 0x0
- DQSR Power Down
- PSU_DDR_PHY_DX2GCR0_DQSRPD 0x0
+ * Read Leveling Gate Shift
+ * PSU_DDR_PHY_DTCR1_RDLVLGS 0x3
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX2GCR0_DQSGPDR 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DTCR1_RESERVED_3 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2GCR0_RESERVED_4 0x0
+ * Read Preamble Training enable
+ * PSU_DDR_PHY_DTCR1_RDPRMVL_TRN 0x1
- DQSG On-Die Termination
- PSU_DDR_PHY_DX2GCR0_DQSGODT 0x0
+ * Read Leveling Enable
+ * PSU_DDR_PHY_DTCR1_RDLVLEN 0x1
- DQSG Output Enable
- PSU_DDR_PHY_DX2GCR0_DQSGOE 0x1
+ * Basic Gate Training Enable
+ * PSU_DDR_PHY_DTCR1_BSTEN 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2GCR0_RESERVED_1_0 0x0
+ * Data Training Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080204, 0xFFFFFFFFU ,0x00010236U)
+ */
+ PSU_Mask_Write(DDR_PHY_DTCR1_OFFSET, 0xFFFFFFFFU, 0x00010236U);
+/*##################################################################### */
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080900, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX2GCR0_CALBYP_MASK | DDR_PHY_DX2GCR0_MDLEN_MASK | DDR_PHY_DX2GCR0_CODTSHFT_MASK | DDR_PHY_DX2GCR0_DQSDCC_MASK | DDR_PHY_DX2GCR0_RDDLY_MASK | DDR_PHY_DX2GCR0_RESERVED_19_14_MASK | DDR_PHY_DX2GCR0_DQSNSEPDR_MASK | DDR_PHY_DX2GCR0_DQSSEPDR_MASK | DDR_PHY_DX2GCR0_RTTOAL_MASK | DDR_PHY_DX2GCR0_RTTOH_MASK | DDR_PHY_DX2GCR0_CPDRSHFT_MASK | DDR_PHY_DX2GCR0_DQSRPD_MASK | DDR_PHY_DX2GCR0_DQSGPDR_MASK | DDR_PHY_DX2GCR0_RESERVED_4_MASK | DDR_PHY_DX2GCR0_DQSGODT_MASK | DDR_PHY_DX2GCR0_DQSGOE_MASK | DDR_PHY_DX2GCR0_RESERVED_1_0_MASK | 0 );
+ /*
+ * Register : CATR0 @ 0XFD080240
- RegVal = ((0x00000000U << DDR_PHY_DX2GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX2GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX2GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_CATR0_RESERVED_31_21 0x0
- /*Register : DX2GCR1 @ 0XFD080904</p>
+ * Minimum time (in terms of number of dram clocks) between two consectuve
+ * CA calibration command
+ * PSU_DDR_PHY_CATR0_CACD 0x14
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX2GCR1_DXPDRMODE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_CATR0_RESERVED_15_13 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX2GCR1_RESERVED_15 0x0
+ * Minimum time (in terms of number of dram clocks) PUB should wait before
+ * sampling the CA response after Calibration command has been sent to the
+ * memory
+ * PSU_DDR_PHY_CATR0_CAADR 0x10
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX2GCR1_QSNSEL 0x1
+ * CA_1 Response Byte Lane 1
+ * PSU_DDR_PHY_CATR0_CA1BYTE1 0x5
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX2GCR1_QSSEL 0x1
+ * CA_1 Response Byte Lane 0
+ * PSU_DDR_PHY_CATR0_CA1BYTE0 0x4
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX2GCR1_OEEN 0x1
+ * CA Training Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080240, 0xFFFFFFFFU ,0x00141054U)
+ */
+ PSU_Mask_Write(DDR_PHY_CATR0_OFFSET, 0xFFFFFFFFU, 0x00141054U);
+/*##################################################################### */
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX2GCR1_PDREN 0x1
+ /*
+ * Register : DQSDR0 @ 0XFD080250
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX2GCR1_TEEN 0x1
+ * Number of delay taps by which the DQS gate LCDL will be updated when DQS
+ * drift is detected
+ * PSU_DDR_PHY_DQSDR0_DFTDLY 0x0
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX2GCR1_DSEN 0x1
+ * Drift Impedance Update
+ * PSU_DDR_PHY_DQSDR0_DFTZQUP 0x0
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX2GCR1_DMEN 0x1
+ * Drift DDL Update
+ * PSU_DDR_PHY_DQSDR0_DFTDDLUP 0x0
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX2GCR1_DQEN 0xff
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DQSDR0_RESERVED_25_22 0x0
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080904, 0xFFFFFFFFU ,0x00007FFFU)
- RegMask = (DDR_PHY_DX2GCR1_DXPDRMODE_MASK | DDR_PHY_DX2GCR1_RESERVED_15_MASK | DDR_PHY_DX2GCR1_QSNSEL_MASK | DDR_PHY_DX2GCR1_QSSEL_MASK | DDR_PHY_DX2GCR1_OEEN_MASK | DDR_PHY_DX2GCR1_PDREN_MASK | DDR_PHY_DX2GCR1_TEEN_MASK | DDR_PHY_DX2GCR1_DSEN_MASK | DDR_PHY_DX2GCR1_DMEN_MASK | DDR_PHY_DX2GCR1_DQEN_MASK | 0 );
+ * Drift Read Spacing
+ * PSU_DDR_PHY_DQSDR0_DFTRDSPC 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX2GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR1_DMEN_SHIFT
- | 0x000000FFU << DDR_PHY_DX2GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU);
- /*############################################################################################################################ */
+ * Drift Back-to-Back Reads
+ * PSU_DDR_PHY_DQSDR0_DFTB2BRD 0x8
- /*Register : DX2GCR4 @ 0XFD080910</p>
+ * Drift Idle Reads
+ * PSU_DDR_PHY_DQSDR0_DFTIDLRD 0x8
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX2GCR4_RESERVED_31_29 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DQSDR0_RESERVED_11_8 0x0
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX2GCR4_DXREFPEN 0x0
+ * Gate Pulse Enable
+ * PSU_DDR_PHY_DQSDR0_DFTGPULSE 0x0
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX2GCR4_DXREFEEN 0x3
+ * DQS Drift Update Mode
+ * PSU_DDR_PHY_DQSDR0_DFTUPMODE 0x0
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX2GCR4_DXREFSEN 0x1
+ * DQS Drift Detection Mode
+ * PSU_DDR_PHY_DQSDR0_DFTDTMODE 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR4_RESERVED_24 0x0
+ * DQS Drift Detection Enable
+ * PSU_DDR_PHY_DQSDR0_DFTDTEN 0x0
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX2GCR4_DXREFESELRANGE 0x0
+ * DQS Drift Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080250, 0xFFFFFFFFU ,0x00088000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DQSDR0_OFFSET, 0xFFFFFFFFU, 0x00088000U);
+/*##################################################################### */
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX2GCR4_DXREFESEL 0x0
+ /*
+ * Register : BISTLSR @ 0XFD080414
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX2GCR4_DXREFSSELRANGE 0x1
+ * LFSR seed for pseudo-random BIST patterns
+ * PSU_DDR_PHY_BISTLSR_SEED 0x12341000
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX2GCR4_DXREFSSEL 0x30
+ * BIST LFSR Seed Register
+ * (OFFSET, MASK, VALUE) (0XFD080414, 0xFFFFFFFFU ,0x12341000U)
+ */
+ PSU_Mask_Write(DDR_PHY_BISTLSR_OFFSET, 0xFFFFFFFFU, 0x12341000U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR4_RESERVED_7_6 0x0
+ /*
+ * Register : RIOCR5 @ 0XFD0804F4
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX2GCR4_DXREFIEN 0xf
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_RIOCR5_RESERVED_31_16 0x0
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX2GCR4_DXREFIMON 0x0
+ * Reserved. Return zeros on reads.
+ * PSU_DDR_PHY_RIOCR5_ODTOEMODE_RSVD 0x0
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080910, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX2GCR4_RESERVED_31_29_MASK | DDR_PHY_DX2GCR4_DXREFPEN_MASK | DDR_PHY_DX2GCR4_DXREFEEN_MASK | DDR_PHY_DX2GCR4_DXREFSEN_MASK | DDR_PHY_DX2GCR4_RESERVED_24_MASK | DDR_PHY_DX2GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX2GCR4_DXREFESEL_MASK | DDR_PHY_DX2GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX2GCR4_DXREFSSEL_MASK | DDR_PHY_DX2GCR4_RESERVED_7_6_MASK | DDR_PHY_DX2GCR4_DXREFIEN_MASK | DDR_PHY_DX2GCR4_DXREFIMON_MASK | 0 );
+ * SDRAM On-die Termination Output Enable (OE) Mode Selection.
+ * PSU_DDR_PHY_RIOCR5_ODTOEMODE 0x5
- RegVal = ((0x00000000U << DDR_PHY_DX2GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX2GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX2GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX2GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX2GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Rank I/O Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD0804F4, 0xFFFFFFFFU ,0x00000005U)
+ */
+ PSU_Mask_Write(DDR_PHY_RIOCR5_OFFSET, 0xFFFFFFFFU, 0x00000005U);
+/*##################################################################### */
- /*Register : DX2GCR5 @ 0XFD080914</p>
+ /*
+ * Register : ACIOCR0 @ 0XFD080500
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR5_RESERVED_31 0x0
+ * Address/Command Slew Rate (D3F I/O Only)
+ * PSU_DDR_PHY_ACIOCR0_ACSR 0x0
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX2GCR5_DXREFISELR3 0x9
+ * SDRAM Reset I/O Mode
+ * PSU_DDR_PHY_ACIOCR0_RSTIOM 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR5_RESERVED_23 0x0
+ * SDRAM Reset Power Down Receiver
+ * PSU_DDR_PHY_ACIOCR0_RSTPDR 0x1
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX2GCR5_DXREFISELR2 0x9
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACIOCR0_RESERVED_27 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR5_RESERVED_15 0x0
+ * SDRAM Reset On-Die Termination
+ * PSU_DDR_PHY_ACIOCR0_RSTODT 0x0
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX2GCR5_DXREFISELR1 0x4f
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACIOCR0_RESERVED_25_10 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR5_RESERVED_7 0x0
+ * CK Duty Cycle Correction
+ * PSU_DDR_PHY_ACIOCR0_CKDCC 0x0
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX2GCR5_DXREFISELR0 0x4f
+ * AC Power Down Receiver Mode
+ * PSU_DDR_PHY_ACIOCR0_ACPDRMODE 0x2
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080914, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX2GCR5_RESERVED_31_MASK | DDR_PHY_DX2GCR5_DXREFISELR3_MASK | DDR_PHY_DX2GCR5_RESERVED_23_MASK | DDR_PHY_DX2GCR5_DXREFISELR2_MASK | DDR_PHY_DX2GCR5_RESERVED_15_MASK | DDR_PHY_DX2GCR5_DXREFISELR1_MASK | DDR_PHY_DX2GCR5_RESERVED_7_MASK | DDR_PHY_DX2GCR5_DXREFISELR0_MASK | 0 );
+ * AC On-die Termination Mode
+ * PSU_DDR_PHY_ACIOCR0_ACODTMODE 0x2
- RegVal = ((0x00000000U << DDR_PHY_DX2GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX2GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX2GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX2GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX2GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACIOCR0_RESERVED_1 0x0
- /*Register : DX2GCR6 @ 0XFD080918</p>
+ * Control delayed or non-delayed clock to CS_N/ODT?CKE AC slices.
+ * PSU_DDR_PHY_ACIOCR0_ACRANKCLKSEL 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR6_RESERVED_31_30 0x0
+ * AC I/O Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080500, 0xFFFFFFFFU ,0x30000028U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACIOCR0_OFFSET, 0xFFFFFFFFU, 0x30000028U);
+/*##################################################################### */
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX2GCR6_DXDQVREFR3 0x9
+ /*
+ * Register : ACIOCR2 @ 0XFD080508
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR6_RESERVED_23_22 0x0
+ * Clock gating for glue logic inside CLKGEN and glue logic inside CONTROL
+ * slice
+ * PSU_DDR_PHY_ACIOCR2_CLKGENCLKGATE 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX2GCR6_DXDQVREFR2 0x9
+ * Clock gating for Output Enable D slices [0]
+ * PSU_DDR_PHY_ACIOCR2_ACOECLKGATE0 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR6_RESERVED_15_14 0x0
+ * Clock gating for Power Down Receiver D slices [0]
+ * PSU_DDR_PHY_ACIOCR2_ACPDRCLKGATE0 0x0
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX2GCR6_DXDQVREFR1 0x2b
+ * Clock gating for Termination Enable D slices [0]
+ * PSU_DDR_PHY_ACIOCR2_ACTECLKGATE0 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX2GCR6_RESERVED_7_6 0x0
+ * Clock gating for CK# D slices [1:0]
+ * PSU_DDR_PHY_ACIOCR2_CKNCLKGATE0 0x2
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX2GCR6_DXDQVREFR0 0x2b
+ * Clock gating for CK D slices [1:0]
+ * PSU_DDR_PHY_ACIOCR2_CKCLKGATE0 0x2
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080918, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX2GCR6_RESERVED_31_30_MASK | DDR_PHY_DX2GCR6_DXDQVREFR3_MASK | DDR_PHY_DX2GCR6_RESERVED_23_22_MASK | DDR_PHY_DX2GCR6_DXDQVREFR2_MASK | DDR_PHY_DX2GCR6_RESERVED_15_14_MASK | DDR_PHY_DX2GCR6_DXDQVREFR1_MASK | DDR_PHY_DX2GCR6_RESERVED_7_6_MASK | DDR_PHY_DX2GCR6_DXDQVREFR0_MASK | 0 );
+ * Clock gating for AC D slices [23:0]
+ * PSU_DDR_PHY_ACIOCR2_ACCLKGATE0 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX2GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX2GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX2GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX2GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX2GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX2GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * AC I/O Configuration Register 2
+ * (OFFSET, MASK, VALUE) (0XFD080508, 0xFFFFFFFFU ,0x0A000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACIOCR2_OFFSET, 0xFFFFFFFFU, 0x0A000000U);
+/*##################################################################### */
- /*Register : DX2LCDLR2 @ 0XFD080988</p>
+ /*
+ * Register : ACIOCR3 @ 0XFD08050C
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2LCDLR2_RESERVED_31_25 0x0
+ * SDRAM Parity Output Enable (OE) Mode Selection
+ * PSU_DDR_PHY_ACIOCR3_PAROEMODE 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX2LCDLR2_RESERVED_24_16 0x0
+ * SDRAM Bank Group Output Enable (OE) Mode Selection
+ * PSU_DDR_PHY_ACIOCR3_BGOEMODE 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2LCDLR2_RESERVED_15_9 0x0
+ * SDRAM Bank Address Output Enable (OE) Mode Selection
+ * PSU_DDR_PHY_ACIOCR3_BAOEMODE 0x0
- Read DQS Gating Delay
- PSU_DDR_PHY_DX2LCDLR2_DQSGD 0x0
+ * SDRAM A[17] Output Enable (OE) Mode Selection
+ * PSU_DDR_PHY_ACIOCR3_A17OEMODE 0x0
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080988, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX2LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX2LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX2LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX2LCDLR2_DQSGD_MASK | 0 );
+ * SDRAM A[16] / RAS_n Output Enable (OE) Mode Selection
+ * PSU_DDR_PHY_ACIOCR3_A16OEMODE 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX2LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX2LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX2LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX2LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * SDRAM ACT_n Output Enable (OE) Mode Selection (DDR4 only)
+ * PSU_DDR_PHY_ACIOCR3_ACTOEMODE 0x0
- /*Register : DX2GTR0 @ 0XFD0809C0</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACIOCR3_RESERVED_15_8 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2GTR0_RESERVED_31_24 0x0
+ * Reserved. Return zeros on reads.
+ * PSU_DDR_PHY_ACIOCR3_CKOEMODE_RSVD 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX2GTR0_WDQSL 0x0
+ * SDRAM CK Output Enable (OE) Mode Selection.
+ * PSU_DDR_PHY_ACIOCR3_CKOEMODE 0x9
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX2GTR0_RESERVED_23_20 0x0
+ * AC I/O Configuration Register 3
+ * (OFFSET, MASK, VALUE) (0XFD08050C, 0xFFFFFFFFU ,0x00000009U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACIOCR3_OFFSET, 0xFFFFFFFFU, 0x00000009U);
+/*##################################################################### */
- Write Leveling System Latency
- PSU_DDR_PHY_DX2GTR0_WLSL 0x2
+ /*
+ * Register : ACIOCR4 @ 0XFD080510
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2GTR0_RESERVED_15_13 0x0
+ * Clock gating for AC LB slices and loopback read valid slices
+ * PSU_DDR_PHY_ACIOCR4_LBCLKGATE 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX2GTR0_RESERVED_12_8 0x0
+ * Clock gating for Output Enable D slices [1]
+ * PSU_DDR_PHY_ACIOCR4_ACOECLKGATE1 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX2GTR0_RESERVED_7_5 0x0
+ * Clock gating for Power Down Receiver D slices [1]
+ * PSU_DDR_PHY_ACIOCR4_ACPDRCLKGATE1 0x0
- DQS Gating System Latency
- PSU_DDR_PHY_DX2GTR0_DGSL 0x0
+ * Clock gating for Termination Enable D slices [1]
+ * PSU_DDR_PHY_ACIOCR4_ACTECLKGATE1 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD0809C0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX2GTR0_RESERVED_31_24_MASK | DDR_PHY_DX2GTR0_WDQSL_MASK | DDR_PHY_DX2GTR0_RESERVED_23_20_MASK | DDR_PHY_DX2GTR0_WLSL_MASK | DDR_PHY_DX2GTR0_RESERVED_15_13_MASK | DDR_PHY_DX2GTR0_RESERVED_12_8_MASK | DDR_PHY_DX2GTR0_RESERVED_7_5_MASK | DDR_PHY_DX2GTR0_DGSL_MASK | 0 );
+ * Clock gating for CK# D slices [3:2]
+ * PSU_DDR_PHY_ACIOCR4_CKNCLKGATE1 0x2
- RegVal = ((0x00000000U << DDR_PHY_DX2GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX2GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX2GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX2GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX2GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX2GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Clock gating for CK D slices [3:2]
+ * PSU_DDR_PHY_ACIOCR4_CKCLKGATE1 0x2
- /*Register : DX3GCR0 @ 0XFD080A00</p>
+ * Clock gating for AC D slices [47:24]
+ * PSU_DDR_PHY_ACIOCR4_ACCLKGATE1 0x0
- Calibration Bypass
- PSU_DDR_PHY_DX3GCR0_CALBYP 0x0
+ * AC I/O Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080510, 0xFFFFFFFFU ,0x0A000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACIOCR4_OFFSET, 0xFFFFFFFFU, 0x0A000000U);
+/*##################################################################### */
- Master Delay Line Enable
- PSU_DDR_PHY_DX3GCR0_MDLEN 0x1
+ /*
+ * Register : IOVCR0 @ 0XFD080520
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX3GCR0_CODTSHFT 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_IOVCR0_RESERVED_31_29 0x0
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX3GCR0_DQSDCC 0x0
+ * Address/command lane VREF Pad Enable
+ * PSU_DDR_PHY_IOVCR0_ACREFPEN 0x0
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX3GCR0_RDDLY 0x8
+ * Address/command lane Internal VREF Enable
+ * PSU_DDR_PHY_IOVCR0_ACREFEEN 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3GCR0_RESERVED_19_14 0x0
+ * Address/command lane Single-End VREF Enable
+ * PSU_DDR_PHY_IOVCR0_ACREFSEN 0x1
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX3GCR0_DQSNSEPDR 0x0
+ * Address/command lane Internal VREF Enable
+ * PSU_DDR_PHY_IOVCR0_ACREFIEN 0x1
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX3GCR0_DQSSEPDR 0x0
+ * External VREF generato REFSEL range select
+ * PSU_DDR_PHY_IOVCR0_ACREFESELRANGE 0x0
- RTT On Additive Latency
- PSU_DDR_PHY_DX3GCR0_RTTOAL 0x0
+ * Address/command lane External VREF Select
+ * PSU_DDR_PHY_IOVCR0_ACREFESEL 0x0
- RTT Output Hold
- PSU_DDR_PHY_DX3GCR0_RTTOH 0x3
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_IOVCR0_ACREFSSELRANGE 0x1
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX3GCR0_CPDRSHFT 0x0
+ * Address/command lane Single-End VREF Select
+ * PSU_DDR_PHY_IOVCR0_ACREFSSEL 0x30
- DQSR Power Down
- PSU_DDR_PHY_DX3GCR0_DQSRPD 0x0
+ * Internal VREF generator REFSEL ragne select
+ * PSU_DDR_PHY_IOVCR0_ACVREFISELRANGE 0x1
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX3GCR0_DQSGPDR 0x0
+ * REFSEL Control for internal AC IOs
+ * PSU_DDR_PHY_IOVCR0_ACVREFISEL 0x4e
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3GCR0_RESERVED_4 0x0
+ * IO VREF Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080520, 0xFFFFFFFFU ,0x0300B0CEU)
+ */
+ PSU_Mask_Write(DDR_PHY_IOVCR0_OFFSET, 0xFFFFFFFFU, 0x0300B0CEU);
+/*##################################################################### */
- DQSG On-Die Termination
- PSU_DDR_PHY_DX3GCR0_DQSGODT 0x0
+ /*
+ * Register : VTCR0 @ 0XFD080528
- DQSG Output Enable
- PSU_DDR_PHY_DX3GCR0_DQSGOE 0x1
+ * Number of ctl_clk required to meet (> 150ns) timing requirements during
+ * DRAM DQ VREF training
+ * PSU_DDR_PHY_VTCR0_TVREF 0x7
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3GCR0_RESERVED_1_0 0x0
+ * DRM DQ VREF training Enable
+ * PSU_DDR_PHY_VTCR0_DVEN 0x1
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080A00, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX3GCR0_CALBYP_MASK | DDR_PHY_DX3GCR0_MDLEN_MASK | DDR_PHY_DX3GCR0_CODTSHFT_MASK | DDR_PHY_DX3GCR0_DQSDCC_MASK | DDR_PHY_DX3GCR0_RDDLY_MASK | DDR_PHY_DX3GCR0_RESERVED_19_14_MASK | DDR_PHY_DX3GCR0_DQSNSEPDR_MASK | DDR_PHY_DX3GCR0_DQSSEPDR_MASK | DDR_PHY_DX3GCR0_RTTOAL_MASK | DDR_PHY_DX3GCR0_RTTOH_MASK | DDR_PHY_DX3GCR0_CPDRSHFT_MASK | DDR_PHY_DX3GCR0_DQSRPD_MASK | DDR_PHY_DX3GCR0_DQSGPDR_MASK | DDR_PHY_DX3GCR0_RESERVED_4_MASK | DDR_PHY_DX3GCR0_DQSGODT_MASK | DDR_PHY_DX3GCR0_DQSGOE_MASK | DDR_PHY_DX3GCR0_RESERVED_1_0_MASK | 0 );
+ * Per Device Addressability Enable
+ * PSU_DDR_PHY_VTCR0_PDAEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX3GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX3GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX3GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_VTCR0_RESERVED_26 0x0
- /*Register : DX3GCR1 @ 0XFD080A04</p>
+ * VREF Word Count
+ * PSU_DDR_PHY_VTCR0_VWCR 0x4
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX3GCR1_DXPDRMODE 0x0
+ * DRAM DQ VREF step size used during DRAM VREF training
+ * PSU_DDR_PHY_VTCR0_DVSS 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX3GCR1_RESERVED_15 0x0
+ * Maximum VREF limit value used during DRAM VREF training
+ * PSU_DDR_PHY_VTCR0_DVMAX 0x32
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX3GCR1_QSNSEL 0x1
+ * Minimum VREF limit value used during DRAM VREF training
+ * PSU_DDR_PHY_VTCR0_DVMIN 0x0
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX3GCR1_QSSEL 0x1
+ * Initial DRAM DQ VREF value used during DRAM VREF training
+ * PSU_DDR_PHY_VTCR0_DVINIT 0x19
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX3GCR1_OEEN 0x1
+ * VREF Training Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080528, 0xFFFFFFFFU ,0xF9032019U)
+ */
+ PSU_Mask_Write(DDR_PHY_VTCR0_OFFSET, 0xFFFFFFFFU, 0xF9032019U);
+/*##################################################################### */
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX3GCR1_PDREN 0x1
+ /*
+ * Register : VTCR1 @ 0XFD08052C
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX3GCR1_TEEN 0x1
+ * Host VREF step size used during VREF training. The register value of N i
+ * ndicates step size of (N+1)
+ * PSU_DDR_PHY_VTCR1_HVSS 0x0
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX3GCR1_DSEN 0x1
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_VTCR1_RESERVED_27 0x0
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX3GCR1_DMEN 0x1
+ * Maximum VREF limit value used during DRAM VREF training.
+ * PSU_DDR_PHY_VTCR1_HVMAX 0x7f
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX3GCR1_DQEN 0xff
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_VTCR1_RESERVED_19 0x0
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080A04, 0xFFFFFFFFU ,0x00007FFFU)
- RegMask = (DDR_PHY_DX3GCR1_DXPDRMODE_MASK | DDR_PHY_DX3GCR1_RESERVED_15_MASK | DDR_PHY_DX3GCR1_QSNSEL_MASK | DDR_PHY_DX3GCR1_QSSEL_MASK | DDR_PHY_DX3GCR1_OEEN_MASK | DDR_PHY_DX3GCR1_PDREN_MASK | DDR_PHY_DX3GCR1_TEEN_MASK | DDR_PHY_DX3GCR1_DSEN_MASK | DDR_PHY_DX3GCR1_DMEN_MASK | DDR_PHY_DX3GCR1_DQEN_MASK | 0 );
+ * Minimum VREF limit value used during DRAM VREF training.
+ * PSU_DDR_PHY_VTCR1_HVMIN 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX3GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR1_DMEN_SHIFT
- | 0x000000FFU << DDR_PHY_DX3GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU);
- /*############################################################################################################################ */
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_VTCR1_RESERVED_11 0x0
- /*Register : DX3GCR4 @ 0XFD080A10</p>
+ * Static Host Vref Rank Value
+ * PSU_DDR_PHY_VTCR1_SHRNK 0x0
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX3GCR4_RESERVED_31_29 0x0
+ * Static Host Vref Rank Enable
+ * PSU_DDR_PHY_VTCR1_SHREN 0x1
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX3GCR4_DXREFPEN 0x0
+ * Number of ctl_clk required to meet (> 200ns) VREF Settling timing requir
+ * ements during Host IO VREF training
+ * PSU_DDR_PHY_VTCR1_TVREFIO 0x7
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX3GCR4_DXREFEEN 0x3
+ * Eye LCDL Offset value for VREF training
+ * PSU_DDR_PHY_VTCR1_EOFF 0x0
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX3GCR4_DXREFSEN 0x1
+ * Number of LCDL Eye points for which VREF training is repeated
+ * PSU_DDR_PHY_VTCR1_ENUM 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR4_RESERVED_24 0x0
+ * HOST (IO) internal VREF training Enable
+ * PSU_DDR_PHY_VTCR1_HVEN 0x1
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX3GCR4_DXREFESELRANGE 0x0
+ * Host IO Type Control
+ * PSU_DDR_PHY_VTCR1_HVIO 0x1
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX3GCR4_DXREFESEL 0x0
+ * VREF Training Control Register 1
+ * (OFFSET, MASK, VALUE) (0XFD08052C, 0xFFFFFFFFU ,0x07F001E3U)
+ */
+ PSU_Mask_Write(DDR_PHY_VTCR1_OFFSET, 0xFFFFFFFFU, 0x07F001E3U);
+/*##################################################################### */
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX3GCR4_DXREFSSELRANGE 0x1
+ /*
+ * Register : ACBDLR1 @ 0XFD080544
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX3GCR4_DXREFSSEL 0x30
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR1_RESERVED_31_30 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR4_RESERVED_7_6 0x0
+ * Delay select for the BDL on Parity.
+ * PSU_DDR_PHY_ACBDLR1_PARBD 0x0
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX3GCR4_DXREFIEN 0xf
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR1_RESERVED_23_22 0x0
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX3GCR4_DXREFIMON 0x0
+ * Delay select for the BDL on Address A[16]. In DDR3 mode this pin is conn
+ * ected to WE.
+ * PSU_DDR_PHY_ACBDLR1_A16BD 0x0
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080A10, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX3GCR4_RESERVED_31_29_MASK | DDR_PHY_DX3GCR4_DXREFPEN_MASK | DDR_PHY_DX3GCR4_DXREFEEN_MASK | DDR_PHY_DX3GCR4_DXREFSEN_MASK | DDR_PHY_DX3GCR4_RESERVED_24_MASK | DDR_PHY_DX3GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX3GCR4_DXREFESEL_MASK | DDR_PHY_DX3GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX3GCR4_DXREFSSEL_MASK | DDR_PHY_DX3GCR4_RESERVED_7_6_MASK | DDR_PHY_DX3GCR4_DXREFIEN_MASK | DDR_PHY_DX3GCR4_DXREFIMON_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR1_RESERVED_15_14 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX3GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX3GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX3GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX3GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX3GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Delay select for the BDL on Address A[17]. When not in DDR4 modemode thi
+ * s pin is connected to CAS.
+ * PSU_DDR_PHY_ACBDLR1_A17BD 0x0
- /*Register : DX3GCR5 @ 0XFD080A14</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR1_RESERVED_7_6 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR5_RESERVED_31 0x0
+ * Delay select for the BDL on ACTN.
+ * PSU_DDR_PHY_ACBDLR1_ACTBD 0x0
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX3GCR5_DXREFISELR3 0x9
+ * AC Bit Delay Line Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080544, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACBDLR1_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR5_RESERVED_23 0x0
+ /*
+ * Register : ACBDLR2 @ 0XFD080548
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX3GCR5_DXREFISELR2 0x9
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR2_RESERVED_31_30 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR5_RESERVED_15 0x0
+ * Delay select for the BDL on BG[1].
+ * PSU_DDR_PHY_ACBDLR2_BG1BD 0x0
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX3GCR5_DXREFISELR1 0x4f
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR2_RESERVED_23_22 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR5_RESERVED_7 0x0
+ * Delay select for the BDL on BG[0].
+ * PSU_DDR_PHY_ACBDLR2_BG0BD 0x0
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX3GCR5_DXREFISELR0 0x4f
+ * Reser.ved Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR2_RESERVED_15_14 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080A14, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX3GCR5_RESERVED_31_MASK | DDR_PHY_DX3GCR5_DXREFISELR3_MASK | DDR_PHY_DX3GCR5_RESERVED_23_MASK | DDR_PHY_DX3GCR5_DXREFISELR2_MASK | DDR_PHY_DX3GCR5_RESERVED_15_MASK | DDR_PHY_DX3GCR5_DXREFISELR1_MASK | DDR_PHY_DX3GCR5_RESERVED_7_MASK | DDR_PHY_DX3GCR5_DXREFISELR0_MASK | 0 );
+ * Delay select for the BDL on BA[1].
+ * PSU_DDR_PHY_ACBDLR2_BA1BD 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX3GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX3GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX3GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX3GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX3GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR2_RESERVED_7_6 0x0
- /*Register : DX3GCR6 @ 0XFD080A18</p>
+ * Delay select for the BDL on BA[0].
+ * PSU_DDR_PHY_ACBDLR2_BA0BD 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR6_RESERVED_31_30 0x0
+ * AC Bit Delay Line Register 2
+ * (OFFSET, MASK, VALUE) (0XFD080548, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACBDLR2_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX3GCR6_DXDQVREFR3 0x9
+ /*
+ * Register : ACBDLR6 @ 0XFD080558
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR6_RESERVED_23_22 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR6_RESERVED_31_30 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX3GCR6_DXDQVREFR2 0x9
+ * Delay select for the BDL on Address A[3].
+ * PSU_DDR_PHY_ACBDLR6_A03BD 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR6_RESERVED_15_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR6_RESERVED_23_22 0x0
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX3GCR6_DXDQVREFR1 0x2b
+ * Delay select for the BDL on Address A[2].
+ * PSU_DDR_PHY_ACBDLR6_A02BD 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX3GCR6_RESERVED_7_6 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR6_RESERVED_15_14 0x0
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX3GCR6_DXDQVREFR0 0x2b
+ * Delay select for the BDL on Address A[1].
+ * PSU_DDR_PHY_ACBDLR6_A01BD 0x0
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080A18, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX3GCR6_RESERVED_31_30_MASK | DDR_PHY_DX3GCR6_DXDQVREFR3_MASK | DDR_PHY_DX3GCR6_RESERVED_23_22_MASK | DDR_PHY_DX3GCR6_DXDQVREFR2_MASK | DDR_PHY_DX3GCR6_RESERVED_15_14_MASK | DDR_PHY_DX3GCR6_DXDQVREFR1_MASK | DDR_PHY_DX3GCR6_RESERVED_7_6_MASK | DDR_PHY_DX3GCR6_DXDQVREFR0_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR6_RESERVED_7_6 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX3GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX3GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX3GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX3GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX3GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX3GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * Delay select for the BDL on Address A[0].
+ * PSU_DDR_PHY_ACBDLR6_A00BD 0x0
- /*Register : DX3LCDLR2 @ 0XFD080A88</p>
+ * AC Bit Delay Line Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080558, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACBDLR6_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3LCDLR2_RESERVED_31_25 0x0
+ /*
+ * Register : ACBDLR7 @ 0XFD08055C
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX3LCDLR2_RESERVED_24_16 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR7_RESERVED_31_30 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3LCDLR2_RESERVED_15_9 0x0
+ * Delay select for the BDL on Address A[7].
+ * PSU_DDR_PHY_ACBDLR7_A07BD 0x0
- Read DQS Gating Delay
- PSU_DDR_PHY_DX3LCDLR2_DQSGD 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR7_RESERVED_23_22 0x0
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080A88, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX3LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX3LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX3LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX3LCDLR2_DQSGD_MASK | 0 );
+ * Delay select for the BDL on Address A[6].
+ * PSU_DDR_PHY_ACBDLR7_A06BD 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX3LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX3LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX3LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX3LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR7_RESERVED_15_14 0x0
- /*Register : DX3GTR0 @ 0XFD080AC0</p>
+ * Delay select for the BDL on Address A[5].
+ * PSU_DDR_PHY_ACBDLR7_A05BD 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3GTR0_RESERVED_31_24 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR7_RESERVED_7_6 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX3GTR0_WDQSL 0x0
+ * Delay select for the BDL on Address A[4].
+ * PSU_DDR_PHY_ACBDLR7_A04BD 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX3GTR0_RESERVED_23_20 0x0
+ * AC Bit Delay Line Register 7
+ * (OFFSET, MASK, VALUE) (0XFD08055C, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACBDLR7_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Write Leveling System Latency
- PSU_DDR_PHY_DX3GTR0_WLSL 0x2
+ /*
+ * Register : ACBDLR8 @ 0XFD080560
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3GTR0_RESERVED_15_13 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR8_RESERVED_31_30 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX3GTR0_RESERVED_12_8 0x0
+ * Delay select for the BDL on Address A[11].
+ * PSU_DDR_PHY_ACBDLR8_A11BD 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX3GTR0_RESERVED_7_5 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR8_RESERVED_23_22 0x0
- DQS Gating System Latency
- PSU_DDR_PHY_DX3GTR0_DGSL 0x0
+ * Delay select for the BDL on Address A[10].
+ * PSU_DDR_PHY_ACBDLR8_A10BD 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080AC0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX3GTR0_RESERVED_31_24_MASK | DDR_PHY_DX3GTR0_WDQSL_MASK | DDR_PHY_DX3GTR0_RESERVED_23_20_MASK | DDR_PHY_DX3GTR0_WLSL_MASK | DDR_PHY_DX3GTR0_RESERVED_15_13_MASK | DDR_PHY_DX3GTR0_RESERVED_12_8_MASK | DDR_PHY_DX3GTR0_RESERVED_7_5_MASK | DDR_PHY_DX3GTR0_DGSL_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR8_RESERVED_15_14 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX3GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX3GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX3GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX3GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX3GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX3GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Delay select for the BDL on Address A[9].
+ * PSU_DDR_PHY_ACBDLR8_A09BD 0x0
- /*Register : DX4GCR0 @ 0XFD080B00</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR8_RESERVED_7_6 0x0
- Calibration Bypass
- PSU_DDR_PHY_DX4GCR0_CALBYP 0x0
+ * Delay select for the BDL on Address A[8].
+ * PSU_DDR_PHY_ACBDLR8_A08BD 0x0
- Master Delay Line Enable
- PSU_DDR_PHY_DX4GCR0_MDLEN 0x1
+ * AC Bit Delay Line Register 8
+ * (OFFSET, MASK, VALUE) (0XFD080560, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACBDLR8_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX4GCR0_CODTSHFT 0x0
+ /*
+ * Register : ACBDLR9 @ 0XFD080564
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX4GCR0_DQSDCC 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR9_RESERVED_31_30 0x0
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX4GCR0_RDDLY 0x8
+ * Delay select for the BDL on Address A[15].
+ * PSU_DDR_PHY_ACBDLR9_A15BD 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4GCR0_RESERVED_19_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR9_RESERVED_23_22 0x0
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX4GCR0_DQSNSEPDR 0x0
+ * Delay select for the BDL on Address A[14].
+ * PSU_DDR_PHY_ACBDLR9_A14BD 0x0
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX4GCR0_DQSSEPDR 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR9_RESERVED_15_14 0x0
- RTT On Additive Latency
- PSU_DDR_PHY_DX4GCR0_RTTOAL 0x0
+ * Delay select for the BDL on Address A[13].
+ * PSU_DDR_PHY_ACBDLR9_A13BD 0x0
- RTT Output Hold
- PSU_DDR_PHY_DX4GCR0_RTTOH 0x3
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ACBDLR9_RESERVED_7_6 0x0
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX4GCR0_CPDRSHFT 0x0
+ * Delay select for the BDL on Address A[12].
+ * PSU_DDR_PHY_ACBDLR9_A12BD 0x0
- DQSR Power Down
- PSU_DDR_PHY_DX4GCR0_DQSRPD 0x0
+ * AC Bit Delay Line Register 9
+ * (OFFSET, MASK, VALUE) (0XFD080564, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ACBDLR9_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX4GCR0_DQSGPDR 0x0
+ /*
+ * Register : ZQCR @ 0XFD080680
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4GCR0_RESERVED_4 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_ZQCR_RESERVED_31_26 0x0
- DQSG On-Die Termination
- PSU_DDR_PHY_DX4GCR0_DQSGODT 0x0
+ * ZQ VREF Range
+ * PSU_DDR_PHY_ZQCR_ZQREFISELRANGE 0x0
- DQSG Output Enable
- PSU_DDR_PHY_DX4GCR0_DQSGOE 0x1
+ * Programmable Wait for Frequency B
+ * PSU_DDR_PHY_ZQCR_PGWAIT_FRQB 0x11
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4GCR0_RESERVED_1_0 0x0
+ * Programmable Wait for Frequency A
+ * PSU_DDR_PHY_ZQCR_PGWAIT_FRQA 0x15
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080B00, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX4GCR0_CALBYP_MASK | DDR_PHY_DX4GCR0_MDLEN_MASK | DDR_PHY_DX4GCR0_CODTSHFT_MASK | DDR_PHY_DX4GCR0_DQSDCC_MASK | DDR_PHY_DX4GCR0_RDDLY_MASK | DDR_PHY_DX4GCR0_RESERVED_19_14_MASK | DDR_PHY_DX4GCR0_DQSNSEPDR_MASK | DDR_PHY_DX4GCR0_DQSSEPDR_MASK | DDR_PHY_DX4GCR0_RTTOAL_MASK | DDR_PHY_DX4GCR0_RTTOH_MASK | DDR_PHY_DX4GCR0_CPDRSHFT_MASK | DDR_PHY_DX4GCR0_DQSRPD_MASK | DDR_PHY_DX4GCR0_DQSGPDR_MASK | DDR_PHY_DX4GCR0_RESERVED_4_MASK | DDR_PHY_DX4GCR0_DQSGODT_MASK | DDR_PHY_DX4GCR0_DQSGOE_MASK | DDR_PHY_DX4GCR0_RESERVED_1_0_MASK | 0 );
+ * ZQ VREF Pad Enable
+ * PSU_DDR_PHY_ZQCR_ZQREFPEN 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX4GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX4GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX4GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ * ZQ Internal VREF Enable
+ * PSU_DDR_PHY_ZQCR_ZQREFIEN 0x1
- /*Register : DX4GCR1 @ 0XFD080B04</p>
+ * Choice of termination mode
+ * PSU_DDR_PHY_ZQCR_ODT_MODE 0x1
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX4GCR1_DXPDRMODE 0x0
+ * Force ZCAL VT update
+ * PSU_DDR_PHY_ZQCR_FORCE_ZCAL_VT_UPDATE 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX4GCR1_RESERVED_15 0x0
+ * IO VT Drift Limit
+ * PSU_DDR_PHY_ZQCR_IODLMT 0x2
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX4GCR1_QSNSEL 0x1
+ * Averaging algorithm enable, if set, enables averaging algorithm
+ * PSU_DDR_PHY_ZQCR_AVGEN 0x1
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX4GCR1_QSSEL 0x1
+ * Maximum number of averaging rounds to be used by averaging algorithm
+ * PSU_DDR_PHY_ZQCR_AVGMAX 0x2
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX4GCR1_OEEN 0x1
+ * ZQ Calibration Type
+ * PSU_DDR_PHY_ZQCR_ZCALT 0x0
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX4GCR1_PDREN 0x1
+ * ZQ Power Down
+ * PSU_DDR_PHY_ZQCR_ZQPD 0x0
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX4GCR1_TEEN 0x1
+ * ZQ Impedance Control Register
+ * (OFFSET, MASK, VALUE) (0XFD080680, 0xFFFFFFFFU ,0x008AAA58U)
+ */
+ PSU_Mask_Write(DDR_PHY_ZQCR_OFFSET, 0xFFFFFFFFU, 0x008AAA58U);
+/*##################################################################### */
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX4GCR1_DSEN 0x1
+ /*
+ * Register : ZQ0PR0 @ 0XFD080684
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX4GCR1_DMEN 0x1
+ * Pull-down drive strength ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ0PR0_PD_DRV_ZDEN 0x0
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX4GCR1_DQEN 0xff
+ * Pull-up drive strength ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ0PR0_PU_DRV_ZDEN 0x0
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080B04, 0xFFFFFFFFU ,0x00007FFFU)
- RegMask = (DDR_PHY_DX4GCR1_DXPDRMODE_MASK | DDR_PHY_DX4GCR1_RESERVED_15_MASK | DDR_PHY_DX4GCR1_QSNSEL_MASK | DDR_PHY_DX4GCR1_QSSEL_MASK | DDR_PHY_DX4GCR1_OEEN_MASK | DDR_PHY_DX4GCR1_PDREN_MASK | DDR_PHY_DX4GCR1_TEEN_MASK | DDR_PHY_DX4GCR1_DSEN_MASK | DDR_PHY_DX4GCR1_DMEN_MASK | DDR_PHY_DX4GCR1_DQEN_MASK | 0 );
+ * Pull-down termination ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ0PR0_PD_ODT_ZDEN 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX4GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR1_DMEN_SHIFT
- | 0x000000FFU << DDR_PHY_DX4GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU);
- /*############################################################################################################################ */
+ * Pull-up termination ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ0PR0_PU_ODT_ZDEN 0x0
- /*Register : DX4GCR4 @ 0XFD080B10</p>
+ * Calibration segment bypass
+ * PSU_DDR_PHY_ZQ0PR0_ZSEGBYP 0x0
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX4GCR4_RESERVED_31_29 0x0
+ * VREF latch mode controls the mode in which the ZLE pin of the PVREF cell
+ * is driven by the PUB
+ * PSU_DDR_PHY_ZQ0PR0_ZLE_MODE 0x0
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX4GCR4_DXREFPEN 0x0
+ * Termination adjustment
+ * PSU_DDR_PHY_ZQ0PR0_ODT_ADJUST 0x0
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX4GCR4_DXREFEEN 0x3
+ * Pulldown drive strength adjustment
+ * PSU_DDR_PHY_ZQ0PR0_PD_DRV_ADJUST 0x0
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX4GCR4_DXREFSEN 0x1
+ * Pullup drive strength adjustment
+ * PSU_DDR_PHY_ZQ0PR0_PU_DRV_ADJUST 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR4_RESERVED_24 0x0
+ * DRAM Impedance Divide Ratio
+ * PSU_DDR_PHY_ZQ0PR0_ZPROG_DRAM_ODT 0x7
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX4GCR4_DXREFESELRANGE 0x0
+ * HOST Impedance Divide Ratio
+ * PSU_DDR_PHY_ZQ0PR0_ZPROG_HOST_ODT 0x9
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX4GCR4_DXREFESEL 0x0
+ * Impedance Divide Ratio (pulldown drive calibration during asymmetric dri
+ * ve strength calibration)
+ * PSU_DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PD 0xd
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX4GCR4_DXREFSSELRANGE 0x1
+ * Impedance Divide Ratio (pullup drive calibration during asymmetric drive
+ * strength calibration)
+ * PSU_DDR_PHY_ZQ0PR0_ZPROG_ASYM_DRV_PU 0xd
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX4GCR4_DXREFSSEL 0x30
+ * ZQ n Impedance Control Program Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080684, 0xFFFFFFFFU ,0x000079DDU)
+ */
+ PSU_Mask_Write(DDR_PHY_ZQ0PR0_OFFSET, 0xFFFFFFFFU, 0x000079DDU);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR4_RESERVED_7_6 0x0
+ /*
+ * Register : ZQ0OR0 @ 0XFD080694
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX4GCR4_DXREFIEN 0xf
+ * Reserved. Return zeros on reads.
+ * PSU_DDR_PHY_ZQ0OR0_RESERVED_31_26 0x0
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX4GCR4_DXREFIMON 0x0
+ * Override value for the pull-up output impedance
+ * PSU_DDR_PHY_ZQ0OR0_ZDATA_PU_DRV_OVRD 0x1e1
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080B10, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX4GCR4_RESERVED_31_29_MASK | DDR_PHY_DX4GCR4_DXREFPEN_MASK | DDR_PHY_DX4GCR4_DXREFEEN_MASK | DDR_PHY_DX4GCR4_DXREFSEN_MASK | DDR_PHY_DX4GCR4_RESERVED_24_MASK | DDR_PHY_DX4GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX4GCR4_DXREFESEL_MASK | DDR_PHY_DX4GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX4GCR4_DXREFSSEL_MASK | DDR_PHY_DX4GCR4_RESERVED_7_6_MASK | DDR_PHY_DX4GCR4_DXREFIEN_MASK | DDR_PHY_DX4GCR4_DXREFIMON_MASK | 0 );
+ * Reserved. Return zeros on reads.
+ * PSU_DDR_PHY_ZQ0OR0_RESERVED_15_10 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX4GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX4GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX4GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX4GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX4GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Override value for the pull-down output impedance
+ * PSU_DDR_PHY_ZQ0OR0_ZDATA_PD_DRV_OVRD 0x210
- /*Register : DX4GCR5 @ 0XFD080B14</p>
+ * ZQ n Impedance Control Override Data Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080694, 0xFFFFFFFFU ,0x01E10210U)
+ */
+ PSU_Mask_Write(DDR_PHY_ZQ0OR0_OFFSET, 0xFFFFFFFFU, 0x01E10210U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR5_RESERVED_31 0x0
+ /*
+ * Register : ZQ0OR1 @ 0XFD080698
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX4GCR5_DXREFISELR3 0x9
+ * Reserved. Return zeros on reads.
+ * PSU_DDR_PHY_ZQ0OR1_RESERVED_31_26 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR5_RESERVED_23 0x0
+ * Override value for the pull-up termination
+ * PSU_DDR_PHY_ZQ0OR1_ZDATA_PU_ODT_OVRD 0x1e1
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX4GCR5_DXREFISELR2 0x9
+ * Reserved. Return zeros on reads.
+ * PSU_DDR_PHY_ZQ0OR1_RESERVED_15_10 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR5_RESERVED_15 0x0
+ * Override value for the pull-down termination
+ * PSU_DDR_PHY_ZQ0OR1_ZDATA_PD_ODT_OVRD 0x0
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX4GCR5_DXREFISELR1 0x4f
+ * ZQ n Impedance Control Override Data Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080698, 0xFFFFFFFFU ,0x01E10000U)
+ */
+ PSU_Mask_Write(DDR_PHY_ZQ0OR1_OFFSET, 0xFFFFFFFFU, 0x01E10000U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR5_RESERVED_7 0x0
+ /*
+ * Register : ZQ1PR0 @ 0XFD0806A4
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX4GCR5_DXREFISELR0 0x4f
+ * Pull-down drive strength ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ1PR0_PD_DRV_ZDEN 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080B14, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX4GCR5_RESERVED_31_MASK | DDR_PHY_DX4GCR5_DXREFISELR3_MASK | DDR_PHY_DX4GCR5_RESERVED_23_MASK | DDR_PHY_DX4GCR5_DXREFISELR2_MASK | DDR_PHY_DX4GCR5_RESERVED_15_MASK | DDR_PHY_DX4GCR5_DXREFISELR1_MASK | DDR_PHY_DX4GCR5_RESERVED_7_MASK | DDR_PHY_DX4GCR5_DXREFISELR0_MASK | 0 );
+ * Pull-up drive strength ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ1PR0_PU_DRV_ZDEN 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX4GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX4GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX4GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX4GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX4GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Pull-down termination ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ1PR0_PD_ODT_ZDEN 0x0
- /*Register : DX4GCR6 @ 0XFD080B18</p>
+ * Pull-up termination ZCTRL over-ride enable
+ * PSU_DDR_PHY_ZQ1PR0_PU_ODT_ZDEN 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR6_RESERVED_31_30 0x0
+ * Calibration segment bypass
+ * PSU_DDR_PHY_ZQ1PR0_ZSEGBYP 0x0
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX4GCR6_DXDQVREFR3 0x9
+ * VREF latch mode controls the mode in which the ZLE pin of the PVREF cell
+ * is driven by the PUB
+ * PSU_DDR_PHY_ZQ1PR0_ZLE_MODE 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR6_RESERVED_23_22 0x0
+ * Termination adjustment
+ * PSU_DDR_PHY_ZQ1PR0_ODT_ADJUST 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX4GCR6_DXDQVREFR2 0x9
+ * Pulldown drive strength adjustment
+ * PSU_DDR_PHY_ZQ1PR0_PD_DRV_ADJUST 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR6_RESERVED_15_14 0x0
+ * Pullup drive strength adjustment
+ * PSU_DDR_PHY_ZQ1PR0_PU_DRV_ADJUST 0x0
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX4GCR6_DXDQVREFR1 0x2b
+ * DRAM Impedance Divide Ratio
+ * PSU_DDR_PHY_ZQ1PR0_ZPROG_DRAM_ODT 0x7
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX4GCR6_RESERVED_7_6 0x0
+ * HOST Impedance Divide Ratio
+ * PSU_DDR_PHY_ZQ1PR0_ZPROG_HOST_ODT 0xb
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX4GCR6_DXDQVREFR0 0x2b
+ * Impedance Divide Ratio (pulldown drive calibration during asymmetric dri
+ * ve strength calibration)
+ * PSU_DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PD 0xd
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080B18, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX4GCR6_RESERVED_31_30_MASK | DDR_PHY_DX4GCR6_DXDQVREFR3_MASK | DDR_PHY_DX4GCR6_RESERVED_23_22_MASK | DDR_PHY_DX4GCR6_DXDQVREFR2_MASK | DDR_PHY_DX4GCR6_RESERVED_15_14_MASK | DDR_PHY_DX4GCR6_DXDQVREFR1_MASK | DDR_PHY_DX4GCR6_RESERVED_7_6_MASK | DDR_PHY_DX4GCR6_DXDQVREFR0_MASK | 0 );
+ * Impedance Divide Ratio (pullup drive calibration during asymmetric drive
+ * strength calibration)
+ * PSU_DDR_PHY_ZQ1PR0_ZPROG_ASYM_DRV_PU 0xb
- RegVal = ((0x00000000U << DDR_PHY_DX4GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX4GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX4GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX4GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX4GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX4GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * ZQ n Impedance Control Program Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0806A4, 0xFFFFFFFFU ,0x00087BDBU)
+ */
+ PSU_Mask_Write(DDR_PHY_ZQ1PR0_OFFSET, 0xFFFFFFFFU, 0x00087BDBU);
+/*##################################################################### */
- /*Register : DX4LCDLR2 @ 0XFD080B88</p>
+ /*
+ * Register : DX0GCR0 @ 0XFD080700
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4LCDLR2_RESERVED_31_25 0x0
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX0GCR0_CALBYP 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX4LCDLR2_RESERVED_24_16 0x0
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX0GCR0_MDLEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4LCDLR2_RESERVED_15_9 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX0GCR0_CODTSHFT 0x0
- Read DQS Gating Delay
- PSU_DDR_PHY_DX4LCDLR2_DQSGD 0x0
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX0GCR0_DQSDCC 0x0
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080B88, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX4LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX4LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX4LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX4LCDLR2_DQSGD_MASK | 0 );
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX0GCR0_RDDLY 0x8
- RegVal = ((0x00000000U << DDR_PHY_DX4LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX4LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX4LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX4LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX0GCR0_RESERVED_19_14 0x0
- /*Register : DX4GTR0 @ 0XFD080BC0</p>
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX0GCR0_DQSNSEPDR 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4GTR0_RESERVED_31_24 0x0
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX0GCR0_DQSSEPDR 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX4GTR0_WDQSL 0x0
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX0GCR0_RTTOAL 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX4GTR0_RESERVED_23_20 0x0
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX0GCR0_RTTOH 0x3
- Write Leveling System Latency
- PSU_DDR_PHY_DX4GTR0_WLSL 0x2
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX0GCR0_CPDRSHFT 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4GTR0_RESERVED_15_13 0x0
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX0GCR0_DQSRPD 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX4GTR0_RESERVED_12_8 0x0
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX0GCR0_DQSGPDR 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX4GTR0_RESERVED_7_5 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX0GCR0_RESERVED_4 0x0
- DQS Gating System Latency
- PSU_DDR_PHY_DX4GTR0_DGSL 0x0
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX0GCR0_DQSGODT 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080BC0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX4GTR0_RESERVED_31_24_MASK | DDR_PHY_DX4GTR0_WDQSL_MASK | DDR_PHY_DX4GTR0_RESERVED_23_20_MASK | DDR_PHY_DX4GTR0_WLSL_MASK | DDR_PHY_DX4GTR0_RESERVED_15_13_MASK | DDR_PHY_DX4GTR0_RESERVED_12_8_MASK | DDR_PHY_DX4GTR0_RESERVED_7_5_MASK | DDR_PHY_DX4GTR0_DGSL_MASK | 0 );
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX0GCR0_DQSGOE 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX4GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX4GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX4GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX4GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX4GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX4GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX0GCR0_RESERVED_1_0 0x0
- /*Register : DX5GCR0 @ 0XFD080C00</p>
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080700, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX0GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- Calibration Bypass
- PSU_DDR_PHY_DX5GCR0_CALBYP 0x0
+ /*
+ * Register : DX0GCR4 @ 0XFD080710
- Master Delay Line Enable
- PSU_DDR_PHY_DX5GCR0_MDLEN 0x1
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX0GCR4_RESERVED_31_29 0x0
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX5GCR0_CODTSHFT 0x0
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX0GCR4_DXREFPEN 0x0
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX5GCR0_DQSDCC 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX0GCR4_DXREFEEN 0x3
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX5GCR0_RDDLY 0x8
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX0GCR4_DXREFSEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5GCR0_RESERVED_19_14 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR4_RESERVED_24 0x0
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX5GCR0_DQSNSEPDR 0x0
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX0GCR4_DXREFESELRANGE 0x0
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX5GCR0_DQSSEPDR 0x0
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX0GCR4_DXREFESEL 0x0
- RTT On Additive Latency
- PSU_DDR_PHY_DX5GCR0_RTTOAL 0x0
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX0GCR4_DXREFSSELRANGE 0x1
- RTT Output Hold
- PSU_DDR_PHY_DX5GCR0_RTTOH 0x3
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX0GCR4_DXREFSSEL 0x30
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX5GCR0_CPDRSHFT 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR4_RESERVED_7_6 0x0
- DQSR Power Down
- PSU_DDR_PHY_DX5GCR0_DQSRPD 0x0
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX0GCR4_DXREFIEN 0xf
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX5GCR0_DQSGPDR 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX0GCR4_DXREFIMON 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5GCR0_RESERVED_4 0x0
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080710, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX0GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- DQSG On-Die Termination
- PSU_DDR_PHY_DX5GCR0_DQSGODT 0x0
+ /*
+ * Register : DX0GCR5 @ 0XFD080714
- DQSG Output Enable
- PSU_DDR_PHY_DX5GCR0_DQSGOE 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR5_RESERVED_31 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5GCR0_RESERVED_1_0 0x0
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX0GCR5_DXREFISELR3 0x9
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080C00, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX5GCR0_CALBYP_MASK | DDR_PHY_DX5GCR0_MDLEN_MASK | DDR_PHY_DX5GCR0_CODTSHFT_MASK | DDR_PHY_DX5GCR0_DQSDCC_MASK | DDR_PHY_DX5GCR0_RDDLY_MASK | DDR_PHY_DX5GCR0_RESERVED_19_14_MASK | DDR_PHY_DX5GCR0_DQSNSEPDR_MASK | DDR_PHY_DX5GCR0_DQSSEPDR_MASK | DDR_PHY_DX5GCR0_RTTOAL_MASK | DDR_PHY_DX5GCR0_RTTOH_MASK | DDR_PHY_DX5GCR0_CPDRSHFT_MASK | DDR_PHY_DX5GCR0_DQSRPD_MASK | DDR_PHY_DX5GCR0_DQSGPDR_MASK | DDR_PHY_DX5GCR0_RESERVED_4_MASK | DDR_PHY_DX5GCR0_DQSGODT_MASK | DDR_PHY_DX5GCR0_DQSGOE_MASK | DDR_PHY_DX5GCR0_RESERVED_1_0_MASK | 0 );
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR5_RESERVED_23 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX5GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX5GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX5GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX0GCR5_DXREFISELR2 0x9
- /*Register : DX5GCR1 @ 0XFD080C04</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR5_RESERVED_15 0x0
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX5GCR1_DXPDRMODE 0x0
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX0GCR5_DXREFISELR1 0x55
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX5GCR1_RESERVED_15 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR5_RESERVED_7 0x0
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX5GCR1_QSNSEL 0x1
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX0GCR5_DXREFISELR0 0x55
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX5GCR1_QSSEL 0x1
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080714, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX0GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX5GCR1_OEEN 0x1
+ /*
+ * Register : DX0GCR6 @ 0XFD080718
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX5GCR1_PDREN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR6_RESERVED_31_30 0x0
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX5GCR1_TEEN 0x1
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX0GCR6_DXDQVREFR3 0x9
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX5GCR1_DSEN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR6_RESERVED_23_22 0x0
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX5GCR1_DMEN 0x1
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX0GCR6_DXDQVREFR2 0x9
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX5GCR1_DQEN 0xff
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR6_RESERVED_15_14 0x0
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080C04, 0xFFFFFFFFU ,0x00007FFFU)
- RegMask = (DDR_PHY_DX5GCR1_DXPDRMODE_MASK | DDR_PHY_DX5GCR1_RESERVED_15_MASK | DDR_PHY_DX5GCR1_QSNSEL_MASK | DDR_PHY_DX5GCR1_QSSEL_MASK | DDR_PHY_DX5GCR1_OEEN_MASK | DDR_PHY_DX5GCR1_PDREN_MASK | DDR_PHY_DX5GCR1_TEEN_MASK | DDR_PHY_DX5GCR1_DSEN_MASK | DDR_PHY_DX5GCR1_DMEN_MASK | DDR_PHY_DX5GCR1_DQEN_MASK | 0 );
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX0GCR6_DXDQVREFR1 0x2b
- RegVal = ((0x00000000U << DDR_PHY_DX5GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR1_DMEN_SHIFT
- | 0x000000FFU << DDR_PHY_DX5GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX0GCR6_RESERVED_7_6 0x0
- /*Register : DX5GCR4 @ 0XFD080C10</p>
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX0GCR6_DXDQVREFR0 0x2b
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX5GCR4_RESERVED_31_29 0x0
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080718, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX0GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX5GCR4_DXREFPEN 0x0
+ /*
+ * Register : DX1GCR0 @ 0XFD080800
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX5GCR4_DXREFEEN 0x3
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX1GCR0_CALBYP 0x0
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX5GCR4_DXREFSEN 0x1
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX1GCR0_MDLEN 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR4_RESERVED_24 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX1GCR0_CODTSHFT 0x0
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX5GCR4_DXREFESELRANGE 0x0
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX1GCR0_DQSDCC 0x0
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX5GCR4_DXREFESEL 0x0
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX1GCR0_RDDLY 0x8
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX5GCR4_DXREFSSELRANGE 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX1GCR0_RESERVED_19_14 0x0
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX5GCR4_DXREFSSEL 0x30
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX1GCR0_DQSNSEPDR 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR4_RESERVED_7_6 0x0
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX1GCR0_DQSSEPDR 0x0
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX5GCR4_DXREFIEN 0xf
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX1GCR0_RTTOAL 0x0
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX5GCR4_DXREFIMON 0x0
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX1GCR0_RTTOH 0x3
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080C10, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX5GCR4_RESERVED_31_29_MASK | DDR_PHY_DX5GCR4_DXREFPEN_MASK | DDR_PHY_DX5GCR4_DXREFEEN_MASK | DDR_PHY_DX5GCR4_DXREFSEN_MASK | DDR_PHY_DX5GCR4_RESERVED_24_MASK | DDR_PHY_DX5GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX5GCR4_DXREFESEL_MASK | DDR_PHY_DX5GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX5GCR4_DXREFSSEL_MASK | DDR_PHY_DX5GCR4_RESERVED_7_6_MASK | DDR_PHY_DX5GCR4_DXREFIEN_MASK | DDR_PHY_DX5GCR4_DXREFIMON_MASK | 0 );
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX1GCR0_CPDRSHFT 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX5GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX5GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX5GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX5GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX5GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX1GCR0_DQSRPD 0x0
- /*Register : DX5GCR5 @ 0XFD080C14</p>
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX1GCR0_DQSGPDR 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR5_RESERVED_31 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX1GCR0_RESERVED_4 0x0
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX5GCR5_DXREFISELR3 0x9
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX1GCR0_DQSGODT 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR5_RESERVED_23 0x0
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX1GCR0_DQSGOE 0x1
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX5GCR5_DXREFISELR2 0x9
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX1GCR0_RESERVED_1_0 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR5_RESERVED_15 0x0
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080800, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX1GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX5GCR5_DXREFISELR1 0x4f
+ /*
+ * Register : DX1GCR4 @ 0XFD080810
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR5_RESERVED_7 0x0
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX1GCR4_RESERVED_31_29 0x0
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX5GCR5_DXREFISELR0 0x4f
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX1GCR4_DXREFPEN 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080C14, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX5GCR5_RESERVED_31_MASK | DDR_PHY_DX5GCR5_DXREFISELR3_MASK | DDR_PHY_DX5GCR5_RESERVED_23_MASK | DDR_PHY_DX5GCR5_DXREFISELR2_MASK | DDR_PHY_DX5GCR5_RESERVED_15_MASK | DDR_PHY_DX5GCR5_DXREFISELR1_MASK | DDR_PHY_DX5GCR5_RESERVED_7_MASK | DDR_PHY_DX5GCR5_DXREFISELR0_MASK | 0 );
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX1GCR4_DXREFEEN 0x3
- RegVal = ((0x00000000U << DDR_PHY_DX5GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX5GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX5GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX5GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX5GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX1GCR4_DXREFSEN 0x1
- /*Register : DX5GCR6 @ 0XFD080C18</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR4_RESERVED_24 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR6_RESERVED_31_30 0x0
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX1GCR4_DXREFESELRANGE 0x0
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX5GCR6_DXDQVREFR3 0x9
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX1GCR4_DXREFESEL 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR6_RESERVED_23_22 0x0
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX1GCR4_DXREFSSELRANGE 0x1
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX5GCR6_DXDQVREFR2 0x9
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX1GCR4_DXREFSSEL 0x30
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR6_RESERVED_15_14 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR4_RESERVED_7_6 0x0
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX5GCR6_DXDQVREFR1 0x2b
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX1GCR4_DXREFIEN 0xf
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX5GCR6_RESERVED_7_6 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX1GCR4_DXREFIMON 0x0
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX5GCR6_DXDQVREFR0 0x2b
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080810, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX1GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080C18, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX5GCR6_RESERVED_31_30_MASK | DDR_PHY_DX5GCR6_DXDQVREFR3_MASK | DDR_PHY_DX5GCR6_RESERVED_23_22_MASK | DDR_PHY_DX5GCR6_DXDQVREFR2_MASK | DDR_PHY_DX5GCR6_RESERVED_15_14_MASK | DDR_PHY_DX5GCR6_DXDQVREFR1_MASK | DDR_PHY_DX5GCR6_RESERVED_7_6_MASK | DDR_PHY_DX5GCR6_DXDQVREFR0_MASK | 0 );
+ /*
+ * Register : DX1GCR5 @ 0XFD080814
- RegVal = ((0x00000000U << DDR_PHY_DX5GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX5GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX5GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX5GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX5GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX5GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR5_RESERVED_31 0x0
- /*Register : DX5LCDLR2 @ 0XFD080C88</p>
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX1GCR5_DXREFISELR3 0x9
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5LCDLR2_RESERVED_31_25 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR5_RESERVED_23 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX5LCDLR2_RESERVED_24_16 0x0
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX1GCR5_DXREFISELR2 0x9
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5LCDLR2_RESERVED_15_9 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR5_RESERVED_15 0x0
- Read DQS Gating Delay
- PSU_DDR_PHY_DX5LCDLR2_DQSGD 0x0
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX1GCR5_DXREFISELR1 0x55
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080C88, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX5LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX5LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX5LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX5LCDLR2_DQSGD_MASK | 0 );
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR5_RESERVED_7 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX5LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX5LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX5LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX5LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX1GCR5_DXREFISELR0 0x55
- /*Register : DX5GTR0 @ 0XFD080CC0</p>
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080814, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX1GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5GTR0_RESERVED_31_24 0x0
+ /*
+ * Register : DX1GCR6 @ 0XFD080818
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX5GTR0_WDQSL 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR6_RESERVED_31_30 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX5GTR0_RESERVED_23_20 0x0
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX1GCR6_DXDQVREFR3 0x9
- Write Leveling System Latency
- PSU_DDR_PHY_DX5GTR0_WLSL 0x2
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR6_RESERVED_23_22 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5GTR0_RESERVED_15_13 0x0
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX1GCR6_DXDQVREFR2 0x9
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX5GTR0_RESERVED_12_8 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR6_RESERVED_15_14 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX5GTR0_RESERVED_7_5 0x0
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX1GCR6_DXDQVREFR1 0x2b
- DQS Gating System Latency
- PSU_DDR_PHY_DX5GTR0_DGSL 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX1GCR6_RESERVED_7_6 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080CC0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX5GTR0_RESERVED_31_24_MASK | DDR_PHY_DX5GTR0_WDQSL_MASK | DDR_PHY_DX5GTR0_RESERVED_23_20_MASK | DDR_PHY_DX5GTR0_WLSL_MASK | DDR_PHY_DX5GTR0_RESERVED_15_13_MASK | DDR_PHY_DX5GTR0_RESERVED_12_8_MASK | DDR_PHY_DX5GTR0_RESERVED_7_5_MASK | DDR_PHY_DX5GTR0_DGSL_MASK | 0 );
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX1GCR6_DXDQVREFR0 0x2b
- RegVal = ((0x00000000U << DDR_PHY_DX5GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX5GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX5GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX5GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX5GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX5GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080818, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX1GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- /*Register : DX6GCR0 @ 0XFD080D00</p>
+ /*
+ * Register : DX2GCR0 @ 0XFD080900
- Calibration Bypass
- PSU_DDR_PHY_DX6GCR0_CALBYP 0x0
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX2GCR0_CALBYP 0x0
- Master Delay Line Enable
- PSU_DDR_PHY_DX6GCR0_MDLEN 0x1
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX2GCR0_MDLEN 0x1
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX6GCR0_CODTSHFT 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX2GCR0_CODTSHFT 0x0
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX6GCR0_DQSDCC 0x0
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX2GCR0_DQSDCC 0x0
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX6GCR0_RDDLY 0x8
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX2GCR0_RDDLY 0x8
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6GCR0_RESERVED_19_14 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX2GCR0_RESERVED_19_14 0x0
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX6GCR0_DQSNSEPDR 0x0
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX2GCR0_DQSNSEPDR 0x0
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX6GCR0_DQSSEPDR 0x0
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX2GCR0_DQSSEPDR 0x0
- RTT On Additive Latency
- PSU_DDR_PHY_DX6GCR0_RTTOAL 0x0
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX2GCR0_RTTOAL 0x0
- RTT Output Hold
- PSU_DDR_PHY_DX6GCR0_RTTOH 0x3
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX2GCR0_RTTOH 0x3
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX6GCR0_CPDRSHFT 0x0
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX2GCR0_CPDRSHFT 0x0
- DQSR Power Down
- PSU_DDR_PHY_DX6GCR0_DQSRPD 0x0
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX2GCR0_DQSRPD 0x0
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX6GCR0_DQSGPDR 0x0
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX2GCR0_DQSGPDR 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6GCR0_RESERVED_4 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX2GCR0_RESERVED_4 0x0
- DQSG On-Die Termination
- PSU_DDR_PHY_DX6GCR0_DQSGODT 0x0
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX2GCR0_DQSGODT 0x0
- DQSG Output Enable
- PSU_DDR_PHY_DX6GCR0_DQSGOE 0x1
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX2GCR0_DQSGOE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6GCR0_RESERVED_1_0 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX2GCR0_RESERVED_1_0 0x0
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080D00, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX6GCR0_CALBYP_MASK | DDR_PHY_DX6GCR0_MDLEN_MASK | DDR_PHY_DX6GCR0_CODTSHFT_MASK | DDR_PHY_DX6GCR0_DQSDCC_MASK | DDR_PHY_DX6GCR0_RDDLY_MASK | DDR_PHY_DX6GCR0_RESERVED_19_14_MASK | DDR_PHY_DX6GCR0_DQSNSEPDR_MASK | DDR_PHY_DX6GCR0_DQSSEPDR_MASK | DDR_PHY_DX6GCR0_RTTOAL_MASK | DDR_PHY_DX6GCR0_RTTOH_MASK | DDR_PHY_DX6GCR0_CPDRSHFT_MASK | DDR_PHY_DX6GCR0_DQSRPD_MASK | DDR_PHY_DX6GCR0_DQSGPDR_MASK | DDR_PHY_DX6GCR0_RESERVED_4_MASK | DDR_PHY_DX6GCR0_DQSGODT_MASK | DDR_PHY_DX6GCR0_DQSGOE_MASK | DDR_PHY_DX6GCR0_RESERVED_1_0_MASK | 0 );
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080900, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX2GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DX6GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX6GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX6GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ /*
+ * Register : DX2GCR1 @ 0XFD080904
- /*Register : DX6GCR1 @ 0XFD080D04</p>
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX2GCR1_DXPDRMODE 0x0
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX6GCR1_DXPDRMODE 0x0
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX2GCR1_RESERVED_15 0x0
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX6GCR1_RESERVED_15 0x0
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX2GCR1_QSNSEL 0x1
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX6GCR1_QSNSEL 0x1
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX2GCR1_QSSEL 0x1
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX6GCR1_QSSEL 0x1
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX2GCR1_OEEN 0x1
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX6GCR1_OEEN 0x1
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX2GCR1_PDREN 0x1
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX6GCR1_PDREN 0x1
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX2GCR1_TEEN 0x1
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX6GCR1_TEEN 0x1
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX2GCR1_DSEN 0x1
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX6GCR1_DSEN 0x1
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX2GCR1_DMEN 0x1
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX6GCR1_DMEN 0x1
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX2GCR1_DQEN 0xff
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX6GCR1_DQEN 0xff
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080904, 0xFFFFFFFFU ,0x00007FFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX2GCR1_OFFSET, 0xFFFFFFFFU, 0x00007FFFU);
+/*##################################################################### */
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080D04, 0xFFFFFFFFU ,0x00007FFFU)
- RegMask = (DDR_PHY_DX6GCR1_DXPDRMODE_MASK | DDR_PHY_DX6GCR1_RESERVED_15_MASK | DDR_PHY_DX6GCR1_QSNSEL_MASK | DDR_PHY_DX6GCR1_QSSEL_MASK | DDR_PHY_DX6GCR1_OEEN_MASK | DDR_PHY_DX6GCR1_PDREN_MASK | DDR_PHY_DX6GCR1_TEEN_MASK | DDR_PHY_DX6GCR1_DSEN_MASK | DDR_PHY_DX6GCR1_DMEN_MASK | DDR_PHY_DX6GCR1_DQEN_MASK | 0 );
+ /*
+ * Register : DX2GCR4 @ 0XFD080910
- RegVal = ((0x00000000U << DDR_PHY_DX6GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR1_DMEN_SHIFT
- | 0x000000FFU << DDR_PHY_DX6GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU);
- /*############################################################################################################################ */
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX2GCR4_RESERVED_31_29 0x0
- /*Register : DX6GCR4 @ 0XFD080D10</p>
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX2GCR4_DXREFPEN 0x0
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX6GCR4_RESERVED_31_29 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX2GCR4_DXREFEEN 0x3
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX6GCR4_DXREFPEN 0x0
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX2GCR4_DXREFSEN 0x1
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX6GCR4_DXREFEEN 0x3
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR4_RESERVED_24 0x0
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX6GCR4_DXREFSEN 0x1
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX2GCR4_DXREFESELRANGE 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR4_RESERVED_24 0x0
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX2GCR4_DXREFESEL 0x0
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX6GCR4_DXREFESELRANGE 0x0
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX2GCR4_DXREFSSELRANGE 0x1
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX6GCR4_DXREFESEL 0x0
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX2GCR4_DXREFSSEL 0x30
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX6GCR4_DXREFSSELRANGE 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR4_RESERVED_7_6 0x0
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX6GCR4_DXREFSSEL 0x30
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX2GCR4_DXREFIEN 0xf
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR4_RESERVED_7_6 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX2GCR4_DXREFIMON 0x0
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX6GCR4_DXREFIEN 0xf
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080910, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX2GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX6GCR4_DXREFIMON 0x0
+ /*
+ * Register : DX2GCR5 @ 0XFD080914
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080D10, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX6GCR4_RESERVED_31_29_MASK | DDR_PHY_DX6GCR4_DXREFPEN_MASK | DDR_PHY_DX6GCR4_DXREFEEN_MASK | DDR_PHY_DX6GCR4_DXREFSEN_MASK | DDR_PHY_DX6GCR4_RESERVED_24_MASK | DDR_PHY_DX6GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX6GCR4_DXREFESEL_MASK | DDR_PHY_DX6GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX6GCR4_DXREFSSEL_MASK | DDR_PHY_DX6GCR4_RESERVED_7_6_MASK | DDR_PHY_DX6GCR4_DXREFIEN_MASK | DDR_PHY_DX6GCR4_DXREFIMON_MASK | 0 );
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR5_RESERVED_31 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX6GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX6GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX6GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX6GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX6GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX2GCR5_DXREFISELR3 0x9
- /*Register : DX6GCR5 @ 0XFD080D14</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR5_RESERVED_23 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR5_RESERVED_31 0x0
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX2GCR5_DXREFISELR2 0x9
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX6GCR5_DXREFISELR3 0x9
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR5_RESERVED_15 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR5_RESERVED_23 0x0
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX2GCR5_DXREFISELR1 0x55
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX6GCR5_DXREFISELR2 0x9
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR5_RESERVED_7 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR5_RESERVED_15 0x0
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX2GCR5_DXREFISELR0 0x55
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX6GCR5_DXREFISELR1 0x4f
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080914, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX2GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR5_RESERVED_7 0x0
+ /*
+ * Register : DX2GCR6 @ 0XFD080918
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX6GCR5_DXREFISELR0 0x4f
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR6_RESERVED_31_30 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080D14, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX6GCR5_RESERVED_31_MASK | DDR_PHY_DX6GCR5_DXREFISELR3_MASK | DDR_PHY_DX6GCR5_RESERVED_23_MASK | DDR_PHY_DX6GCR5_DXREFISELR2_MASK | DDR_PHY_DX6GCR5_RESERVED_15_MASK | DDR_PHY_DX6GCR5_DXREFISELR1_MASK | DDR_PHY_DX6GCR5_RESERVED_7_MASK | DDR_PHY_DX6GCR5_DXREFISELR0_MASK | 0 );
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX2GCR6_DXDQVREFR3 0x9
- RegVal = ((0x00000000U << DDR_PHY_DX6GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX6GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX6GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX6GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX6GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR6_RESERVED_23_22 0x0
- /*Register : DX6GCR6 @ 0XFD080D18</p>
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX2GCR6_DXDQVREFR2 0x9
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR6_RESERVED_31_30 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR6_RESERVED_15_14 0x0
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX6GCR6_DXDQVREFR3 0x9
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX2GCR6_DXDQVREFR1 0x2b
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR6_RESERVED_23_22 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX2GCR6_RESERVED_7_6 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX6GCR6_DXDQVREFR2 0x9
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX2GCR6_DXDQVREFR0 0x2b
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR6_RESERVED_15_14 0x0
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080918, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX2GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX6GCR6_DXDQVREFR1 0x2b
+ /*
+ * Register : DX3GCR0 @ 0XFD080A00
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX6GCR6_RESERVED_7_6 0x0
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX3GCR0_CALBYP 0x0
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX6GCR6_DXDQVREFR0 0x2b
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX3GCR0_MDLEN 0x1
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080D18, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX6GCR6_RESERVED_31_30_MASK | DDR_PHY_DX6GCR6_DXDQVREFR3_MASK | DDR_PHY_DX6GCR6_RESERVED_23_22_MASK | DDR_PHY_DX6GCR6_DXDQVREFR2_MASK | DDR_PHY_DX6GCR6_RESERVED_15_14_MASK | DDR_PHY_DX6GCR6_DXDQVREFR1_MASK | DDR_PHY_DX6GCR6_RESERVED_7_6_MASK | DDR_PHY_DX6GCR6_DXDQVREFR0_MASK | 0 );
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX3GCR0_CODTSHFT 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX6GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX6GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX6GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX6GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX6GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX6GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX3GCR0_DQSDCC 0x0
- /*Register : DX6LCDLR2 @ 0XFD080D88</p>
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX3GCR0_RDDLY 0x8
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6LCDLR2_RESERVED_31_25 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX3GCR0_RESERVED_19_14 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX6LCDLR2_RESERVED_24_16 0x0
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX3GCR0_DQSNSEPDR 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6LCDLR2_RESERVED_15_9 0x0
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX3GCR0_DQSSEPDR 0x0
- Read DQS Gating Delay
- PSU_DDR_PHY_DX6LCDLR2_DQSGD 0x0
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX3GCR0_RTTOAL 0x0
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080D88, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX6LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX6LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX6LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX6LCDLR2_DQSGD_MASK | 0 );
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX3GCR0_RTTOH 0x3
- RegVal = ((0x00000000U << DDR_PHY_DX6LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX6LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX6LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX6LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX3GCR0_CPDRSHFT 0x0
- /*Register : DX6GTR0 @ 0XFD080DC0</p>
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX3GCR0_DQSRPD 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6GTR0_RESERVED_31_24 0x0
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX3GCR0_DQSGPDR 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX6GTR0_WDQSL 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX3GCR0_RESERVED_4 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX6GTR0_RESERVED_23_20 0x0
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX3GCR0_DQSGODT 0x0
- Write Leveling System Latency
- PSU_DDR_PHY_DX6GTR0_WLSL 0x2
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX3GCR0_DQSGOE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6GTR0_RESERVED_15_13 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX3GCR0_RESERVED_1_0 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX6GTR0_RESERVED_12_8 0x0
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080A00, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX3GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX6GTR0_RESERVED_7_5 0x0
+ /*
+ * Register : DX3GCR1 @ 0XFD080A04
- DQS Gating System Latency
- PSU_DDR_PHY_DX6GTR0_DGSL 0x0
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX3GCR1_DXPDRMODE 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080DC0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX6GTR0_RESERVED_31_24_MASK | DDR_PHY_DX6GTR0_WDQSL_MASK | DDR_PHY_DX6GTR0_RESERVED_23_20_MASK | DDR_PHY_DX6GTR0_WLSL_MASK | DDR_PHY_DX6GTR0_RESERVED_15_13_MASK | DDR_PHY_DX6GTR0_RESERVED_12_8_MASK | DDR_PHY_DX6GTR0_RESERVED_7_5_MASK | DDR_PHY_DX6GTR0_DGSL_MASK | 0 );
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX3GCR1_RESERVED_15 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX6GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX6GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX6GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX6GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX6GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX6GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX3GCR1_QSNSEL 0x1
- /*Register : DX7GCR0 @ 0XFD080E00</p>
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX3GCR1_QSSEL 0x1
- Calibration Bypass
- PSU_DDR_PHY_DX7GCR0_CALBYP 0x0
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX3GCR1_OEEN 0x1
- Master Delay Line Enable
- PSU_DDR_PHY_DX7GCR0_MDLEN 0x1
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX3GCR1_PDREN 0x1
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX7GCR0_CODTSHFT 0x0
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX3GCR1_TEEN 0x1
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX7GCR0_DQSDCC 0x0
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX3GCR1_DSEN 0x1
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX7GCR0_RDDLY 0x8
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX3GCR1_DMEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7GCR0_RESERVED_19_14 0x0
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX3GCR1_DQEN 0xff
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX7GCR0_DQSNSEPDR 0x0
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080A04, 0xFFFFFFFFU ,0x00007FFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX3GCR1_OFFSET, 0xFFFFFFFFU, 0x00007FFFU);
+/*##################################################################### */
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX7GCR0_DQSSEPDR 0x0
+ /*
+ * Register : DX3GCR4 @ 0XFD080A10
- RTT On Additive Latency
- PSU_DDR_PHY_DX7GCR0_RTTOAL 0x0
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX3GCR4_RESERVED_31_29 0x0
- RTT Output Hold
- PSU_DDR_PHY_DX7GCR0_RTTOH 0x3
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX3GCR4_DXREFPEN 0x0
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX7GCR0_CPDRSHFT 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX3GCR4_DXREFEEN 0x3
- DQSR Power Down
- PSU_DDR_PHY_DX7GCR0_DQSRPD 0x0
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX3GCR4_DXREFSEN 0x1
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX7GCR0_DQSGPDR 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR4_RESERVED_24 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7GCR0_RESERVED_4 0x0
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX3GCR4_DXREFESELRANGE 0x0
- DQSG On-Die Termination
- PSU_DDR_PHY_DX7GCR0_DQSGODT 0x0
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX3GCR4_DXREFESEL 0x0
- DQSG Output Enable
- PSU_DDR_PHY_DX7GCR0_DQSGOE 0x1
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX3GCR4_DXREFSSELRANGE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7GCR0_RESERVED_1_0 0x0
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX3GCR4_DXREFSSEL 0x30
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080E00, 0xFFFFFFFFU ,0x40800604U)
- RegMask = (DDR_PHY_DX7GCR0_CALBYP_MASK | DDR_PHY_DX7GCR0_MDLEN_MASK | DDR_PHY_DX7GCR0_CODTSHFT_MASK | DDR_PHY_DX7GCR0_DQSDCC_MASK | DDR_PHY_DX7GCR0_RDDLY_MASK | DDR_PHY_DX7GCR0_RESERVED_19_14_MASK | DDR_PHY_DX7GCR0_DQSNSEPDR_MASK | DDR_PHY_DX7GCR0_DQSSEPDR_MASK | DDR_PHY_DX7GCR0_RTTOAL_MASK | DDR_PHY_DX7GCR0_RTTOH_MASK | DDR_PHY_DX7GCR0_CPDRSHFT_MASK | DDR_PHY_DX7GCR0_DQSRPD_MASK | DDR_PHY_DX7GCR0_DQSGPDR_MASK | DDR_PHY_DX7GCR0_RESERVED_4_MASK | DDR_PHY_DX7GCR0_DQSGODT_MASK | DDR_PHY_DX7GCR0_DQSGOE_MASK | DDR_PHY_DX7GCR0_RESERVED_1_0_MASK | 0 );
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR4_RESERVED_7_6 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX7GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX7GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX7GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_DQSRPD_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7GCR0_OFFSET ,0xFFFFFFFFU ,0x40800604U);
- /*############################################################################################################################ */
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX3GCR4_DXREFIEN 0xf
- /*Register : DX7GCR1 @ 0XFD080E04</p>
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX3GCR4_DXREFIMON 0x0
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX7GCR1_DXPDRMODE 0x0
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080A10, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX3GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX7GCR1_RESERVED_15 0x0
+ /*
+ * Register : DX3GCR5 @ 0XFD080A14
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX7GCR1_QSNSEL 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR5_RESERVED_31 0x0
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX7GCR1_QSSEL 0x1
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX3GCR5_DXREFISELR3 0x9
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX7GCR1_OEEN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR5_RESERVED_23 0x0
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX7GCR1_PDREN 0x1
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX3GCR5_DXREFISELR2 0x9
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX7GCR1_TEEN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR5_RESERVED_15 0x0
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX7GCR1_DSEN 0x1
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX3GCR5_DXREFISELR1 0x55
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX7GCR1_DMEN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR5_RESERVED_7 0x0
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX7GCR1_DQEN 0xff
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX3GCR5_DXREFISELR0 0x55
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080E04, 0xFFFFFFFFU ,0x00007FFFU)
- RegMask = (DDR_PHY_DX7GCR1_DXPDRMODE_MASK | DDR_PHY_DX7GCR1_RESERVED_15_MASK | DDR_PHY_DX7GCR1_QSNSEL_MASK | DDR_PHY_DX7GCR1_QSSEL_MASK | DDR_PHY_DX7GCR1_OEEN_MASK | DDR_PHY_DX7GCR1_PDREN_MASK | DDR_PHY_DX7GCR1_TEEN_MASK | DDR_PHY_DX7GCR1_DSEN_MASK | DDR_PHY_DX7GCR1_DMEN_MASK | DDR_PHY_DX7GCR1_DQEN_MASK | 0 );
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080A14, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX3GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DX7GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR1_DMEN_SHIFT
- | 0x000000FFU << DDR_PHY_DX7GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7GCR1_OFFSET ,0xFFFFFFFFU ,0x00007FFFU);
- /*############################################################################################################################ */
+ /*
+ * Register : DX3GCR6 @ 0XFD080A18
- /*Register : DX7GCR4 @ 0XFD080E10</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR6_RESERVED_31_30 0x0
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX7GCR4_RESERVED_31_29 0x0
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX3GCR6_DXDQVREFR3 0x9
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX7GCR4_DXREFPEN 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR6_RESERVED_23_22 0x0
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX7GCR4_DXREFEEN 0x3
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX3GCR6_DXDQVREFR2 0x9
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX7GCR4_DXREFSEN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR6_RESERVED_15_14 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR4_RESERVED_24 0x0
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX3GCR6_DXDQVREFR1 0x2b
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX7GCR4_DXREFESELRANGE 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX3GCR6_RESERVED_7_6 0x0
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX7GCR4_DXREFESEL 0x0
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX3GCR6_DXDQVREFR0 0x2b
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX7GCR4_DXREFSSELRANGE 0x1
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080A18, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX3GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX7GCR4_DXREFSSEL 0x30
+ /*
+ * Register : DX4GCR0 @ 0XFD080B00
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR4_RESERVED_7_6 0x0
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX4GCR0_CALBYP 0x0
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX7GCR4_DXREFIEN 0xf
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX4GCR0_MDLEN 0x1
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX7GCR4_DXREFIMON 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX4GCR0_CODTSHFT 0x0
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080E10, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX7GCR4_RESERVED_31_29_MASK | DDR_PHY_DX7GCR4_DXREFPEN_MASK | DDR_PHY_DX7GCR4_DXREFEEN_MASK | DDR_PHY_DX7GCR4_DXREFSEN_MASK | DDR_PHY_DX7GCR4_RESERVED_24_MASK | DDR_PHY_DX7GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX7GCR4_DXREFESEL_MASK | DDR_PHY_DX7GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX7GCR4_DXREFSSEL_MASK | DDR_PHY_DX7GCR4_RESERVED_7_6_MASK | DDR_PHY_DX7GCR4_DXREFIEN_MASK | DDR_PHY_DX7GCR4_DXREFIMON_MASK | 0 );
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX4GCR0_DQSDCC 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX7GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX7GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX7GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX7GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX7GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX4GCR0_RDDLY 0x8
- /*Register : DX7GCR5 @ 0XFD080E14</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX4GCR0_RESERVED_19_14 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR5_RESERVED_31 0x0
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX4GCR0_DQSNSEPDR 0x0
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX7GCR5_DXREFISELR3 0x9
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX4GCR0_DQSSEPDR 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR5_RESERVED_23 0x0
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX4GCR0_RTTOAL 0x0
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX7GCR5_DXREFISELR2 0x9
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX4GCR0_RTTOH 0x3
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR5_RESERVED_15 0x0
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX4GCR0_CPDRSHFT 0x0
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX7GCR5_DXREFISELR1 0x4f
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX4GCR0_DQSRPD 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR5_RESERVED_7 0x0
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX4GCR0_DQSGPDR 0x0
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX7GCR5_DXREFISELR0 0x4f
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX4GCR0_RESERVED_4 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080E14, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX7GCR5_RESERVED_31_MASK | DDR_PHY_DX7GCR5_DXREFISELR3_MASK | DDR_PHY_DX7GCR5_RESERVED_23_MASK | DDR_PHY_DX7GCR5_DXREFISELR2_MASK | DDR_PHY_DX7GCR5_RESERVED_15_MASK | DDR_PHY_DX7GCR5_DXREFISELR1_MASK | DDR_PHY_DX7GCR5_RESERVED_7_MASK | DDR_PHY_DX7GCR5_DXREFISELR0_MASK | 0 );
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX4GCR0_DQSGODT 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX7GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX7GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX7GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX7GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX7GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX4GCR0_DQSGOE 0x1
- /*Register : DX7GCR6 @ 0XFD080E18</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX4GCR0_RESERVED_1_0 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR6_RESERVED_31_30 0x0
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080B00, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX4GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX7GCR6_DXDQVREFR3 0x9
+ /*
+ * Register : DX4GCR1 @ 0XFD080B04
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR6_RESERVED_23_22 0x0
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX4GCR1_DXPDRMODE 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX7GCR6_DXDQVREFR2 0x9
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX4GCR1_RESERVED_15 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR6_RESERVED_15_14 0x0
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX4GCR1_QSNSEL 0x1
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX7GCR6_DXDQVREFR1 0x2b
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX4GCR1_QSSEL 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX7GCR6_RESERVED_7_6 0x0
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX4GCR1_OEEN 0x1
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX7GCR6_DXDQVREFR0 0x2b
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX4GCR1_PDREN 0x1
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080E18, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX7GCR6_RESERVED_31_30_MASK | DDR_PHY_DX7GCR6_DXDQVREFR3_MASK | DDR_PHY_DX7GCR6_RESERVED_23_22_MASK | DDR_PHY_DX7GCR6_DXDQVREFR2_MASK | DDR_PHY_DX7GCR6_RESERVED_15_14_MASK | DDR_PHY_DX7GCR6_DXDQVREFR1_MASK | DDR_PHY_DX7GCR6_RESERVED_7_6_MASK | DDR_PHY_DX7GCR6_DXDQVREFR0_MASK | 0 );
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX4GCR1_TEEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX7GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX7GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX7GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX7GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX7GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX7GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX4GCR1_DSEN 0x1
- /*Register : DX7LCDLR2 @ 0XFD080E88</p>
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX4GCR1_DMEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7LCDLR2_RESERVED_31_25 0x0
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX4GCR1_DQEN 0xff
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX7LCDLR2_RESERVED_24_16 0x0
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080B04, 0xFFFFFFFFU ,0x00007FFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX4GCR1_OFFSET, 0xFFFFFFFFU, 0x00007FFFU);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7LCDLR2_RESERVED_15_9 0x0
+ /*
+ * Register : DX4GCR4 @ 0XFD080B10
- Read DQS Gating Delay
- PSU_DDR_PHY_DX7LCDLR2_DQSGD 0xa
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX4GCR4_RESERVED_31_29 0x0
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080E88, 0xFFFFFFFFU ,0x0000000AU)
- RegMask = (DDR_PHY_DX7LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX7LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX7LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX7LCDLR2_DQSGD_MASK | 0 );
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX4GCR4_DXREFPEN 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX7LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX7LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX7LCDLR2_RESERVED_15_9_SHIFT
- | 0x0000000AU << DDR_PHY_DX7LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7LCDLR2_OFFSET ,0xFFFFFFFFU ,0x0000000AU);
- /*############################################################################################################################ */
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX4GCR4_DXREFEEN 0x3
- /*Register : DX7GTR0 @ 0XFD080EC0</p>
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX4GCR4_DXREFSEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7GTR0_RESERVED_31_24 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR4_RESERVED_24 0x0
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX7GTR0_WDQSL 0x0
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX4GCR4_DXREFESELRANGE 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX7GTR0_RESERVED_23_20 0x0
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX4GCR4_DXREFESEL 0x0
- Write Leveling System Latency
- PSU_DDR_PHY_DX7GTR0_WLSL 0x2
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX4GCR4_DXREFSSELRANGE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7GTR0_RESERVED_15_13 0x0
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX4GCR4_DXREFSSEL 0x30
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX7GTR0_RESERVED_12_8 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR4_RESERVED_7_6 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX7GTR0_RESERVED_7_5 0x0
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX4GCR4_DXREFIEN 0xf
- DQS Gating System Latency
- PSU_DDR_PHY_DX7GTR0_DGSL 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX4GCR4_DXREFIMON 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080EC0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX7GTR0_RESERVED_31_24_MASK | DDR_PHY_DX7GTR0_WDQSL_MASK | DDR_PHY_DX7GTR0_RESERVED_23_20_MASK | DDR_PHY_DX7GTR0_WLSL_MASK | DDR_PHY_DX7GTR0_RESERVED_15_13_MASK | DDR_PHY_DX7GTR0_RESERVED_12_8_MASK | DDR_PHY_DX7GTR0_RESERVED_7_5_MASK | DDR_PHY_DX7GTR0_DGSL_MASK | 0 );
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080B10, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX4GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DX7GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX7GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX7GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX7GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX7GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX7GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ /*
+ * Register : DX4GCR5 @ 0XFD080B14
- /*Register : DX8GCR0 @ 0XFD080F00</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR5_RESERVED_31 0x0
- Calibration Bypass
- PSU_DDR_PHY_DX8GCR0_CALBYP 0x0
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX4GCR5_DXREFISELR3 0x9
- Master Delay Line Enable
- PSU_DDR_PHY_DX8GCR0_MDLEN 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR5_RESERVED_23 0x0
- Configurable ODT(TE) Phase Shift
- PSU_DDR_PHY_DX8GCR0_CODTSHFT 0x0
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX4GCR5_DXREFISELR2 0x9
- DQS Duty Cycle Correction
- PSU_DDR_PHY_DX8GCR0_DQSDCC 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR5_RESERVED_15 0x0
- Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd input for the respective bypte lane of the PHY
- PSU_DDR_PHY_DX8GCR0_RDDLY 0x8
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX4GCR5_DXREFISELR1 0x55
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8GCR0_RESERVED_19_14 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR5_RESERVED_7 0x0
- DQSNSE Power Down Receiver
- PSU_DDR_PHY_DX8GCR0_DQSNSEPDR 0x0
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX4GCR5_DXREFISELR0 0x55
- DQSSE Power Down Receiver
- PSU_DDR_PHY_DX8GCR0_DQSSEPDR 0x0
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080B14, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX4GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- RTT On Additive Latency
- PSU_DDR_PHY_DX8GCR0_RTTOAL 0x0
+ /*
+ * Register : DX4GCR6 @ 0XFD080B18
- RTT Output Hold
- PSU_DDR_PHY_DX8GCR0_RTTOH 0x3
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR6_RESERVED_31_30 0x0
- Configurable PDR Phase Shift
- PSU_DDR_PHY_DX8GCR0_CPDRSHFT 0x0
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX4GCR6_DXDQVREFR3 0x9
- DQSR Power Down
- PSU_DDR_PHY_DX8GCR0_DQSRPD 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR6_RESERVED_23_22 0x0
- DQSG Power Down Receiver
- PSU_DDR_PHY_DX8GCR0_DQSGPDR 0x1
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX4GCR6_DXDQVREFR2 0x9
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8GCR0_RESERVED_4 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR6_RESERVED_15_14 0x0
- DQSG On-Die Termination
- PSU_DDR_PHY_DX8GCR0_DQSGODT 0x0
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX4GCR6_DXDQVREFR1 0x2b
- DQSG Output Enable
- PSU_DDR_PHY_DX8GCR0_DQSGOE 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX4GCR6_RESERVED_7_6 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8GCR0_RESERVED_1_0 0x0
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX4GCR6_DXDQVREFR0 0x2b
- DATX8 n General Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD080F00, 0xFFFFFFFFU ,0x40800624U)
- RegMask = (DDR_PHY_DX8GCR0_CALBYP_MASK | DDR_PHY_DX8GCR0_MDLEN_MASK | DDR_PHY_DX8GCR0_CODTSHFT_MASK | DDR_PHY_DX8GCR0_DQSDCC_MASK | DDR_PHY_DX8GCR0_RDDLY_MASK | DDR_PHY_DX8GCR0_RESERVED_19_14_MASK | DDR_PHY_DX8GCR0_DQSNSEPDR_MASK | DDR_PHY_DX8GCR0_DQSSEPDR_MASK | DDR_PHY_DX8GCR0_RTTOAL_MASK | DDR_PHY_DX8GCR0_RTTOH_MASK | DDR_PHY_DX8GCR0_CPDRSHFT_MASK | DDR_PHY_DX8GCR0_DQSRPD_MASK | DDR_PHY_DX8GCR0_DQSGPDR_MASK | DDR_PHY_DX8GCR0_RESERVED_4_MASK | DDR_PHY_DX8GCR0_DQSGODT_MASK | DDR_PHY_DX8GCR0_DQSGOE_MASK | DDR_PHY_DX8GCR0_RESERVED_1_0_MASK | 0 );
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080B18, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX4GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- RegVal = ((0x00000000U << DDR_PHY_DX8GCR0_CALBYP_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR0_MDLEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_CODTSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_DQSDCC_SHIFT
- | 0x00000008U << DDR_PHY_DX8GCR0_RDDLY_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_RESERVED_19_14_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_DQSNSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_DQSSEPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_RTTOAL_SHIFT
- | 0x00000003U << DDR_PHY_DX8GCR0_RTTOH_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_CPDRSHFT_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_DQSRPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR0_DQSGPDR_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_RESERVED_4_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_DQSGODT_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR0_DQSGOE_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR0_RESERVED_1_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8GCR0_OFFSET ,0xFFFFFFFFU ,0x40800624U);
- /*############################################################################################################################ */
+ /*
+ * Register : DX5GCR0 @ 0XFD080C00
- /*Register : DX8GCR1 @ 0XFD080F04</p>
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX5GCR0_CALBYP 0x0
- Enables the PDR mode for DQ[7:0]
- PSU_DDR_PHY_DX8GCR1_DXPDRMODE 0x0
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX5GCR0_MDLEN 0x1
- Reserved. Returns zeroes on reads.
- PSU_DDR_PHY_DX8GCR1_RESERVED_15 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX5GCR0_CODTSHFT 0x0
- Select the delayed or non-delayed read data strobe #
- PSU_DDR_PHY_DX8GCR1_QSNSEL 0x1
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX5GCR0_DQSDCC 0x0
- Select the delayed or non-delayed read data strobe
- PSU_DDR_PHY_DX8GCR1_QSSEL 0x1
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX5GCR0_RDDLY 0x8
- Enables Read Data Strobe in a byte lane
- PSU_DDR_PHY_DX8GCR1_OEEN 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX5GCR0_RESERVED_19_14 0x0
- Enables PDR in a byte lane
- PSU_DDR_PHY_DX8GCR1_PDREN 0x1
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX5GCR0_DQSNSEPDR 0x0
- Enables ODT/TE in a byte lane
- PSU_DDR_PHY_DX8GCR1_TEEN 0x1
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX5GCR0_DQSSEPDR 0x0
- Enables Write Data strobe in a byte lane
- PSU_DDR_PHY_DX8GCR1_DSEN 0x1
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX5GCR0_RTTOAL 0x0
- Enables DM pin in a byte lane
- PSU_DDR_PHY_DX8GCR1_DMEN 0x1
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX5GCR0_RTTOH 0x3
- Enables DQ corresponding to each bit in a byte
- PSU_DDR_PHY_DX8GCR1_DQEN 0x0
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX5GCR0_CPDRSHFT 0x0
- DATX8 n General Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD080F04, 0xFFFFFFFFU ,0x00007F00U)
- RegMask = (DDR_PHY_DX8GCR1_DXPDRMODE_MASK | DDR_PHY_DX8GCR1_RESERVED_15_MASK | DDR_PHY_DX8GCR1_QSNSEL_MASK | DDR_PHY_DX8GCR1_QSSEL_MASK | DDR_PHY_DX8GCR1_OEEN_MASK | DDR_PHY_DX8GCR1_PDREN_MASK | DDR_PHY_DX8GCR1_TEEN_MASK | DDR_PHY_DX8GCR1_DSEN_MASK | DDR_PHY_DX8GCR1_DMEN_MASK | DDR_PHY_DX8GCR1_DQEN_MASK | 0 );
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX5GCR0_DQSRPD 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8GCR1_DXPDRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR1_RESERVED_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_QSNSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_QSSEL_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_OEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_PDREN_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_TEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_DSEN_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR1_DMEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR1_DQEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8GCR1_OFFSET ,0xFFFFFFFFU ,0x00007F00U);
- /*############################################################################################################################ */
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX5GCR0_DQSGPDR 0x0
- /*Register : DX8GCR4 @ 0XFD080F10</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX5GCR0_RESERVED_4 0x0
- Byte lane VREF IOM (Used only by D4MU IOs)
- PSU_DDR_PHY_DX8GCR4_RESERVED_31_29 0x0
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX5GCR0_DQSGODT 0x0
- Byte Lane VREF Pad Enable
- PSU_DDR_PHY_DX8GCR4_DXREFPEN 0x0
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX5GCR0_DQSGOE 0x1
- Byte Lane Internal VREF Enable
- PSU_DDR_PHY_DX8GCR4_DXREFEEN 0x3
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX5GCR0_RESERVED_1_0 0x0
- Byte Lane Single-End VREF Enable
- PSU_DDR_PHY_DX8GCR4_DXREFSEN 0x1
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080C00, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX5GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR4_RESERVED_24 0x0
+ /*
+ * Register : DX5GCR1 @ 0XFD080C04
- External VREF generator REFSEL range select
- PSU_DDR_PHY_DX8GCR4_DXREFESELRANGE 0x0
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX5GCR1_DXPDRMODE 0x0
- Byte Lane External VREF Select
- PSU_DDR_PHY_DX8GCR4_DXREFESEL 0x0
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX5GCR1_RESERVED_15 0x0
- Single ended VREF generator REFSEL range select
- PSU_DDR_PHY_DX8GCR4_DXREFSSELRANGE 0x1
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX5GCR1_QSNSEL 0x1
- Byte Lane Single-End VREF Select
- PSU_DDR_PHY_DX8GCR4_DXREFSSEL 0x30
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX5GCR1_QSSEL 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR4_RESERVED_7_6 0x0
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX5GCR1_OEEN 0x1
- VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX8GCR4_DXREFIEN 0xf
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX5GCR1_PDREN 0x1
- VRMON control for DQ IO (Single Ended) buffers of a byte lane.
- PSU_DDR_PHY_DX8GCR4_DXREFIMON 0x0
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX5GCR1_TEEN 0x1
- DATX8 n General Configuration Register 4
- (OFFSET, MASK, VALUE) (0XFD080F10, 0xFFFFFFFFU ,0x0E00B03CU)
- RegMask = (DDR_PHY_DX8GCR4_RESERVED_31_29_MASK | DDR_PHY_DX8GCR4_DXREFPEN_MASK | DDR_PHY_DX8GCR4_DXREFEEN_MASK | DDR_PHY_DX8GCR4_DXREFSEN_MASK | DDR_PHY_DX8GCR4_RESERVED_24_MASK | DDR_PHY_DX8GCR4_DXREFESELRANGE_MASK | DDR_PHY_DX8GCR4_DXREFESEL_MASK | DDR_PHY_DX8GCR4_DXREFSSELRANGE_MASK | DDR_PHY_DX8GCR4_DXREFSSEL_MASK | DDR_PHY_DX8GCR4_RESERVED_7_6_MASK | DDR_PHY_DX8GCR4_DXREFIEN_MASK | DDR_PHY_DX8GCR4_DXREFIMON_MASK | 0 );
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX5GCR1_DSEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX8GCR4_RESERVED_31_29_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR4_DXREFPEN_SHIFT
- | 0x00000003U << DDR_PHY_DX8GCR4_DXREFEEN_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR4_DXREFSEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR4_RESERVED_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR4_DXREFESELRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR4_DXREFESEL_SHIFT
- | 0x00000001U << DDR_PHY_DX8GCR4_DXREFSSELRANGE_SHIFT
- | 0x00000030U << DDR_PHY_DX8GCR4_DXREFSSEL_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR4_RESERVED_7_6_SHIFT
- | 0x0000000FU << DDR_PHY_DX8GCR4_DXREFIEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR4_DXREFIMON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8GCR4_OFFSET ,0xFFFFFFFFU ,0x0E00B03CU);
- /*############################################################################################################################ */
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX5GCR1_DMEN 0x1
- /*Register : DX8GCR5 @ 0XFD080F14</p>
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX5GCR1_DQEN 0xff
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR5_RESERVED_31 0x0
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080C04, 0xFFFFFFFFU ,0x00007FFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX5GCR1_OFFSET, 0xFFFFFFFFU, 0x00007FFFU);
+/*##################################################################### */
- Byte Lane internal VREF Select for Rank 3
- PSU_DDR_PHY_DX8GCR5_DXREFISELR3 0x9
+ /*
+ * Register : DX5GCR4 @ 0XFD080C10
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR5_RESERVED_23 0x0
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX5GCR4_RESERVED_31_29 0x0
- Byte Lane internal VREF Select for Rank 2
- PSU_DDR_PHY_DX8GCR5_DXREFISELR2 0x9
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX5GCR4_DXREFPEN 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR5_RESERVED_15 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX5GCR4_DXREFEEN 0x3
- Byte Lane internal VREF Select for Rank 1
- PSU_DDR_PHY_DX8GCR5_DXREFISELR1 0x4f
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX5GCR4_DXREFSEN 0x1
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR5_RESERVED_7 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR4_RESERVED_24 0x0
- Byte Lane internal VREF Select for Rank 0
- PSU_DDR_PHY_DX8GCR5_DXREFISELR0 0x4f
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX5GCR4_DXREFESELRANGE 0x0
- DATX8 n General Configuration Register 5
- (OFFSET, MASK, VALUE) (0XFD080F14, 0xFFFFFFFFU ,0x09094F4FU)
- RegMask = (DDR_PHY_DX8GCR5_RESERVED_31_MASK | DDR_PHY_DX8GCR5_DXREFISELR3_MASK | DDR_PHY_DX8GCR5_RESERVED_23_MASK | DDR_PHY_DX8GCR5_DXREFISELR2_MASK | DDR_PHY_DX8GCR5_RESERVED_15_MASK | DDR_PHY_DX8GCR5_DXREFISELR1_MASK | DDR_PHY_DX8GCR5_RESERVED_7_MASK | DDR_PHY_DX8GCR5_DXREFISELR0_MASK | 0 );
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX5GCR4_DXREFESEL 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8GCR5_RESERVED_31_SHIFT
- | 0x00000009U << DDR_PHY_DX8GCR5_DXREFISELR3_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR5_RESERVED_23_SHIFT
- | 0x00000009U << DDR_PHY_DX8GCR5_DXREFISELR2_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR5_RESERVED_15_SHIFT
- | 0x0000004FU << DDR_PHY_DX8GCR5_DXREFISELR1_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR5_RESERVED_7_SHIFT
- | 0x0000004FU << DDR_PHY_DX8GCR5_DXREFISELR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8GCR5_OFFSET ,0xFFFFFFFFU ,0x09094F4FU);
- /*############################################################################################################################ */
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX5GCR4_DXREFSSELRANGE 0x1
- /*Register : DX8GCR6 @ 0XFD080F18</p>
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX5GCR4_DXREFSSEL 0x30
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR6_RESERVED_31_30 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR4_RESERVED_7_6 0x0
- DRAM DQ VREF Select for Rank3
- PSU_DDR_PHY_DX8GCR6_DXDQVREFR3 0x9
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX5GCR4_DXREFIEN 0xf
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR6_RESERVED_23_22 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX5GCR4_DXREFIMON 0x0
- DRAM DQ VREF Select for Rank2
- PSU_DDR_PHY_DX8GCR6_DXDQVREFR2 0x9
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080C10, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX5GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR6_RESERVED_15_14 0x0
+ /*
+ * Register : DX5GCR5 @ 0XFD080C14
- DRAM DQ VREF Select for Rank1
- PSU_DDR_PHY_DX8GCR6_DXDQVREFR1 0x2b
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR5_RESERVED_31 0x0
- Reserved. Returns zeros on reads.
- PSU_DDR_PHY_DX8GCR6_RESERVED_7_6 0x0
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX5GCR5_DXREFISELR3 0x9
- DRAM DQ VREF Select for Rank0
- PSU_DDR_PHY_DX8GCR6_DXDQVREFR0 0x2b
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR5_RESERVED_23 0x0
- DATX8 n General Configuration Register 6
- (OFFSET, MASK, VALUE) (0XFD080F18, 0xFFFFFFFFU ,0x09092B2BU)
- RegMask = (DDR_PHY_DX8GCR6_RESERVED_31_30_MASK | DDR_PHY_DX8GCR6_DXDQVREFR3_MASK | DDR_PHY_DX8GCR6_RESERVED_23_22_MASK | DDR_PHY_DX8GCR6_DXDQVREFR2_MASK | DDR_PHY_DX8GCR6_RESERVED_15_14_MASK | DDR_PHY_DX8GCR6_DXDQVREFR1_MASK | DDR_PHY_DX8GCR6_RESERVED_7_6_MASK | DDR_PHY_DX8GCR6_DXDQVREFR0_MASK | 0 );
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX5GCR5_DXREFISELR2 0x9
- RegVal = ((0x00000000U << DDR_PHY_DX8GCR6_RESERVED_31_30_SHIFT
- | 0x00000009U << DDR_PHY_DX8GCR6_DXDQVREFR3_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR6_RESERVED_23_22_SHIFT
- | 0x00000009U << DDR_PHY_DX8GCR6_DXDQVREFR2_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR6_RESERVED_15_14_SHIFT
- | 0x0000002BU << DDR_PHY_DX8GCR6_DXDQVREFR1_SHIFT
- | 0x00000000U << DDR_PHY_DX8GCR6_RESERVED_7_6_SHIFT
- | 0x0000002BU << DDR_PHY_DX8GCR6_DXDQVREFR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8GCR6_OFFSET ,0xFFFFFFFFU ,0x09092B2BU);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR5_RESERVED_15 0x0
- /*Register : DX8LCDLR2 @ 0XFD080F88</p>
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX5GCR5_DXREFISELR1 0x55
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8LCDLR2_RESERVED_31_25 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR5_RESERVED_7 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8LCDLR2_RESERVED_24_16 0x0
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX5GCR5_DXREFISELR0 0x55
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8LCDLR2_RESERVED_15_9 0x0
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080C14, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX5GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- Read DQS Gating Delay
- PSU_DDR_PHY_DX8LCDLR2_DQSGD 0x0
+ /*
+ * Register : DX5GCR6 @ 0XFD080C18
- DATX8 n Local Calibrated Delay Line Register 2
- (OFFSET, MASK, VALUE) (0XFD080F88, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (DDR_PHY_DX8LCDLR2_RESERVED_31_25_MASK | DDR_PHY_DX8LCDLR2_RESERVED_24_16_MASK | DDR_PHY_DX8LCDLR2_RESERVED_15_9_MASK | DDR_PHY_DX8LCDLR2_DQSGD_MASK | 0 );
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR6_RESERVED_31_30 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8LCDLR2_RESERVED_31_25_SHIFT
- | 0x00000000U << DDR_PHY_DX8LCDLR2_RESERVED_24_16_SHIFT
- | 0x00000000U << DDR_PHY_DX8LCDLR2_RESERVED_15_9_SHIFT
- | 0x00000000U << DDR_PHY_DX8LCDLR2_DQSGD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8LCDLR2_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX5GCR6_DXDQVREFR3 0x9
- /*Register : DX8GTR0 @ 0XFD080FC0</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR6_RESERVED_23_22 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8GTR0_RESERVED_31_24 0x0
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX5GCR6_DXDQVREFR2 0x9
- DQ Write Path Latency Pipeline
- PSU_DDR_PHY_DX8GTR0_WDQSL 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR6_RESERVED_15_14 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8GTR0_RESERVED_23_20 0x0
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX5GCR6_DXDQVREFR1 0x2b
- Write Leveling System Latency
- PSU_DDR_PHY_DX8GTR0_WLSL 0x2
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX5GCR6_RESERVED_7_6 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8GTR0_RESERVED_15_13 0x0
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX5GCR6_DXDQVREFR0 0x2b
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8GTR0_RESERVED_12_8 0x0
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080C18, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX5GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8GTR0_RESERVED_7_5 0x0
+ /*
+ * Register : DX6GCR0 @ 0XFD080D00
- DQS Gating System Latency
- PSU_DDR_PHY_DX8GTR0_DGSL 0x0
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX6GCR0_CALBYP 0x0
- DATX8 n General Timing Register 0
- (OFFSET, MASK, VALUE) (0XFD080FC0, 0xFFFFFFFFU ,0x00020000U)
- RegMask = (DDR_PHY_DX8GTR0_RESERVED_31_24_MASK | DDR_PHY_DX8GTR0_WDQSL_MASK | DDR_PHY_DX8GTR0_RESERVED_23_20_MASK | DDR_PHY_DX8GTR0_WLSL_MASK | DDR_PHY_DX8GTR0_RESERVED_15_13_MASK | DDR_PHY_DX8GTR0_RESERVED_12_8_MASK | DDR_PHY_DX8GTR0_RESERVED_7_5_MASK | DDR_PHY_DX8GTR0_DGSL_MASK | 0 );
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX6GCR0_MDLEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX8GTR0_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8GTR0_WDQSL_SHIFT
- | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_23_20_SHIFT
- | 0x00000002U << DDR_PHY_DX8GTR0_WLSL_SHIFT
- | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_15_13_SHIFT
- | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_12_8_SHIFT
- | 0x00000000U << DDR_PHY_DX8GTR0_RESERVED_7_5_SHIFT
- | 0x00000000U << DDR_PHY_DX8GTR0_DGSL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8GTR0_OFFSET ,0xFFFFFFFFU ,0x00020000U);
- /*############################################################################################################################ */
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX6GCR0_CODTSHFT 0x0
- /*Register : DX8SL0OSC @ 0XFD081400</p>
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX6GCR0_DQSDCC 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0OSC_RESERVED_31_30 0x0
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX6GCR0_RDDLY 0x8
- Enable Clock Gating for DX ddr_clk
- PSU_DDR_PHY_DX8SL0OSC_GATEDXRDCLK 0x2
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX6GCR0_RESERVED_19_14 0x0
- Enable Clock Gating for DX ctl_rd_clk
- PSU_DDR_PHY_DX8SL0OSC_GATEDXDDRCLK 0x2
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX6GCR0_DQSNSEPDR 0x0
- Enable Clock Gating for DX ctl_clk
- PSU_DDR_PHY_DX8SL0OSC_GATEDXCTLCLK 0x2
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX6GCR0_DQSSEPDR 0x0
- Selects the level to which clocks will be stalled when clock gating is enabled.
- PSU_DDR_PHY_DX8SL0OSC_CLKLEVEL 0x0
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX6GCR0_RTTOAL 0x0
- Loopback Mode
- PSU_DDR_PHY_DX8SL0OSC_LBMODE 0x0
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX6GCR0_RTTOH 0x3
- Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
- PSU_DDR_PHY_DX8SL0OSC_LBGSDQS 0x0
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX6GCR0_CPDRSHFT 0x0
- Loopback DQS Gating
- PSU_DDR_PHY_DX8SL0OSC_LBGDQS 0x0
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX6GCR0_DQSRPD 0x0
- Loopback DQS Shift
- PSU_DDR_PHY_DX8SL0OSC_LBDQSS 0x0
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX6GCR0_DQSGPDR 0x0
- PHY High-Speed Reset
- PSU_DDR_PHY_DX8SL0OSC_PHYHRST 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX6GCR0_RESERVED_4 0x0
- PHY FIFO Reset
- PSU_DDR_PHY_DX8SL0OSC_PHYFRST 0x1
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX6GCR0_DQSGODT 0x0
- Delay Line Test Start
- PSU_DDR_PHY_DX8SL0OSC_DLTST 0x0
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX6GCR0_DQSGOE 0x1
- Delay Line Test Mode
- PSU_DDR_PHY_DX8SL0OSC_DLTMODE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX6GCR0_RESERVED_1_0 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL0OSC_RESERVED_12_11 0x3
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080D00, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX6GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- Oscillator Mode Write-Data Delay Line Select
- PSU_DDR_PHY_DX8SL0OSC_OSCWDDL 0x3
+ /*
+ * Register : DX6GCR1 @ 0XFD080D04
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL0OSC_RESERVED_8_7 0x3
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX6GCR1_DXPDRMODE 0x0
- Oscillator Mode Write-Leveling Delay Line Select
- PSU_DDR_PHY_DX8SL0OSC_OSCWDL 0x3
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX6GCR1_RESERVED_15 0x0
- Oscillator Mode Division
- PSU_DDR_PHY_DX8SL0OSC_OSCDIV 0xf
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX6GCR1_QSNSEL 0x1
- Oscillator Enable
- PSU_DDR_PHY_DX8SL0OSC_OSCEN 0x0
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX6GCR1_QSSEL 0x1
- DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register
- (OFFSET, MASK, VALUE) (0XFD081400, 0xFFFFFFFFU ,0x2A019FFEU)
- RegMask = (DDR_PHY_DX8SL0OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL0OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL0OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL0OSC_LBMODE_MASK | DDR_PHY_DX8SL0OSC_LBGSDQS_MASK | DDR_PHY_DX8SL0OSC_LBGDQS_MASK | DDR_PHY_DX8SL0OSC_LBDQSS_MASK | DDR_PHY_DX8SL0OSC_PHYHRST_MASK | DDR_PHY_DX8SL0OSC_PHYFRST_MASK | DDR_PHY_DX8SL0OSC_DLTST_MASK | DDR_PHY_DX8SL0OSC_DLTMODE_MASK | DDR_PHY_DX8SL0OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL0OSC_OSCWDDL_MASK | DDR_PHY_DX8SL0OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL0OSC_OSCWDL_MASK | DDR_PHY_DX8SL0OSC_OSCDIV_MASK | DDR_PHY_DX8SL0OSC_OSCEN_MASK | 0 );
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX6GCR1_OEEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX8SL0OSC_RESERVED_31_30_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL0OSC_GATEDXRDCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL0OSC_GATEDXDDRCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL0OSC_GATEDXCTLCLK_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_CLKLEVEL_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_LBMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_LBGSDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_LBGDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_LBDQSS_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0OSC_PHYHRST_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0OSC_PHYFRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_DLTST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_DLTMODE_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL0OSC_RESERVED_12_11_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL0OSC_OSCWDDL_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL0OSC_RESERVED_8_7_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL0OSC_OSCWDL_SHIFT
- | 0x0000000FU << DDR_PHY_DX8SL0OSC_OSCDIV_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0OSC_OSCEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL0OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU);
- /*############################################################################################################################ */
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX6GCR1_PDREN 0x1
- /*Register : DX8SL0DQSCTL @ 0XFD08141C</p>
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX6GCR1_TEEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25 0x0
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX6GCR1_DSEN 0x1
- Read Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL0DQSCTL_RRRMODE 0x1
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX6GCR1_DMEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22 0x0
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX6GCR1_DQEN 0xff
- Write Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL0DQSCTL_WRRMODE 0x1
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080D04, 0xFFFFFFFFU ,0x00007FFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX6GCR1_OFFSET, 0xFFFFFFFFU, 0x00007FFFU);
+/*##################################################################### */
- DQS Gate Extension
- PSU_DDR_PHY_DX8SL0DQSCTL_DQSGX 0x0
+ /*
+ * Register : DX6GCR4 @ 0XFD080D10
- Low Power PLL Power Down
- PSU_DDR_PHY_DX8SL0DQSCTL_LPPLLPD 0x1
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX6GCR4_RESERVED_31_29 0x0
- Low Power I/O Power Down
- PSU_DDR_PHY_DX8SL0DQSCTL_LPIOPD 0x1
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX6GCR4_DXREFPEN 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX6GCR4_DXREFEEN 0x3
- QS Counter Enable
- PSU_DDR_PHY_DX8SL0DQSCTL_QSCNTEN 0x1
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX6GCR4_DXREFSEN 0x1
- Unused DQ I/O Mode
- PSU_DDR_PHY_DX8SL0DQSCTL_UDQIOM 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR4_RESERVED_24 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10 0x0
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX6GCR4_DXREFESELRANGE 0x0
- Data Slew Rate
- PSU_DDR_PHY_DX8SL0DQSCTL_DXSR 0x3
-
- DQS_N Resistor
- PSU_DDR_PHY_DX8SL0DQSCTL_DQSNRES 0x0
-
- DQS Resistor
- PSU_DDR_PHY_DX8SL0DQSCTL_DQSRES 0x0
-
- DATX8 0-1 DQS Control Register
- (OFFSET, MASK, VALUE) (0XFD08141C, 0xFFFFFFFFU ,0x01264300U)
- RegMask = (DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL0DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL0DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL0DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL0DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL0DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL0DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL0DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL0DQSCTL_DXSR_MASK | DDR_PHY_DX8SL0DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL0DQSCTL_DQSRES_MASK | 0 );
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX6GCR4_DXREFESEL 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_RRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_WRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_DQSGX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_LPPLLPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_LPIOPD_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0DQSCTL_QSCNTEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_UDQIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL0DQSCTL_DXSR_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_DQSNRES_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DQSCTL_DQSRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL0DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U);
- /*############################################################################################################################ */
-
- /*Register : DX8SL0DXCTL2 @ 0XFD08142C</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24 0x0
-
- Configurable Read Data Enable
- PSU_DDR_PHY_DX8SL0DXCTL2_CRDEN 0x0
-
- OX Extension during Post-amble
- PSU_DDR_PHY_DX8SL0DXCTL2_POSOEX 0x0
-
- OE Extension during Pre-amble
- PSU_DDR_PHY_DX8SL0DXCTL2_PREOEX 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_17 0x0
-
- I/O Assisted Gate Select
- PSU_DDR_PHY_DX8SL0DXCTL2_IOAG 0x0
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX6GCR4_DXREFSSELRANGE 0x1
- I/O Loopback Select
- PSU_DDR_PHY_DX8SL0DXCTL2_IOLB 0x0
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX6GCR4_DXREFSSEL 0x30
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR4_RESERVED_7_6 0x0
- Low Power Wakeup Threshold
- PSU_DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH 0xc
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX6GCR4_DXREFIEN 0xf
- Read Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL0DXCTL2_RDBI 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX6GCR4_DXREFIMON 0x0
- Write Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL0DXCTL2_WDBI 0x0
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080D10, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX6GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- PUB Read FIFO Bypass
- PSU_DDR_PHY_DX8SL0DXCTL2_PRFBYP 0x0
+ /*
+ * Register : DX6GCR5 @ 0XFD080D14
- DATX8 Receive FIFO Read Mode
- PSU_DDR_PHY_DX8SL0DXCTL2_RDMODE 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR5_RESERVED_31 0x0
- Disables the Read FIFO Reset
- PSU_DDR_PHY_DX8SL0DXCTL2_DISRST 0x0
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX6GCR5_DXREFISELR3 0x9
- Read DQS Gate I/O Loopback
- PSU_DDR_PHY_DX8SL0DXCTL2_DQSGLB 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR5_RESERVED_23 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_0 0x0
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX6GCR5_DXREFISELR2 0x9
- DATX8 0-1 DX Control Register 2
- (OFFSET, MASK, VALUE) (0XFD08142C, 0xFFFFFFFFU ,0x00041800U)
- RegMask = (DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL0DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL0DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL0DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL0DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL0DXCTL2_IOAG_MASK | DDR_PHY_DX8SL0DXCTL2_IOLB_MASK | DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL0DXCTL2_RDBI_MASK | DDR_PHY_DX8SL0DXCTL2_WDBI_MASK | DDR_PHY_DX8SL0DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL0DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL0DXCTL2_DISRST_MASK | DDR_PHY_DX8SL0DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL0DXCTL2_RESERVED_0_MASK | 0 );
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR5_RESERVED_15 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_CRDEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_POSOEX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL0DXCTL2_PREOEX_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_17_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_IOAG_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_IOLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13_SHIFT
- | 0x0000000CU << DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_WDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_PRFBYP_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RDMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_DISRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_DQSGLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0DXCTL2_RESERVED_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL0DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U);
- /*############################################################################################################################ */
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX6GCR5_DXREFISELR1 0x55
- /*Register : DX8SL0IOCR @ 0XFD081430</p>
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR5_RESERVED_7 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL0IOCR_RESERVED_31 0x0
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX6GCR5_DXREFISELR0 0x55
- PVREF_DAC REFSEL range select
- PSU_DDR_PHY_DX8SL0IOCR_DXDACRANGE 0x7
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080D14, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX6GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
- PSU_DDR_PHY_DX8SL0IOCR_DXVREFIOM 0x0
+ /*
+ * Register : DX6GCR6 @ 0XFD080D18
- DX IO Mode
- PSU_DDR_PHY_DX8SL0IOCR_DXIOM 0x2
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR6_RESERVED_31_30 0x0
- DX IO Transmitter Mode
- PSU_DDR_PHY_DX8SL0IOCR_DXTXM 0x0
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX6GCR6_DXDQVREFR3 0x9
- DX IO Receiver Mode
- PSU_DDR_PHY_DX8SL0IOCR_DXRXM 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR6_RESERVED_23_22 0x0
- DATX8 0-1 I/O Configuration Register
- (OFFSET, MASK, VALUE) (0XFD081430, 0xFFFFFFFFU ,0x70800000U)
- RegMask = (DDR_PHY_DX8SL0IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL0IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL0IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL0IOCR_DXIOM_MASK | DDR_PHY_DX8SL0IOCR_DXTXM_MASK | DDR_PHY_DX8SL0IOCR_DXRXM_MASK | 0 );
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX6GCR6_DXDQVREFR2 0x9
- RegVal = ((0x00000000U << DDR_PHY_DX8SL0IOCR_RESERVED_31_SHIFT
- | 0x00000007U << DDR_PHY_DX8SL0IOCR_DXDACRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0IOCR_DXVREFIOM_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL0IOCR_DXIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0IOCR_DXTXM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL0IOCR_DXRXM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL0IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR6_RESERVED_15_14 0x0
- /*Register : DX8SL1OSC @ 0XFD081440</p>
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX6GCR6_DXDQVREFR1 0x2b
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1OSC_RESERVED_31_30 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX6GCR6_RESERVED_7_6 0x0
- Enable Clock Gating for DX ddr_clk
- PSU_DDR_PHY_DX8SL1OSC_GATEDXRDCLK 0x2
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX6GCR6_DXDQVREFR0 0x2b
- Enable Clock Gating for DX ctl_rd_clk
- PSU_DDR_PHY_DX8SL1OSC_GATEDXDDRCLK 0x2
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080D18, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX6GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- Enable Clock Gating for DX ctl_clk
- PSU_DDR_PHY_DX8SL1OSC_GATEDXCTLCLK 0x2
+ /*
+ * Register : DX7GCR0 @ 0XFD080E00
- Selects the level to which clocks will be stalled when clock gating is enabled.
- PSU_DDR_PHY_DX8SL1OSC_CLKLEVEL 0x0
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX7GCR0_CALBYP 0x0
- Loopback Mode
- PSU_DDR_PHY_DX8SL1OSC_LBMODE 0x0
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX7GCR0_MDLEN 0x1
- Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
- PSU_DDR_PHY_DX8SL1OSC_LBGSDQS 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX7GCR0_CODTSHFT 0x0
- Loopback DQS Gating
- PSU_DDR_PHY_DX8SL1OSC_LBGDQS 0x0
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX7GCR0_DQSDCC 0x0
- Loopback DQS Shift
- PSU_DDR_PHY_DX8SL1OSC_LBDQSS 0x0
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX7GCR0_RDDLY 0x8
- PHY High-Speed Reset
- PSU_DDR_PHY_DX8SL1OSC_PHYHRST 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX7GCR0_RESERVED_19_14 0x0
- PHY FIFO Reset
- PSU_DDR_PHY_DX8SL1OSC_PHYFRST 0x1
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX7GCR0_DQSNSEPDR 0x0
- Delay Line Test Start
- PSU_DDR_PHY_DX8SL1OSC_DLTST 0x0
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX7GCR0_DQSSEPDR 0x0
- Delay Line Test Mode
- PSU_DDR_PHY_DX8SL1OSC_DLTMODE 0x0
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX7GCR0_RTTOAL 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL1OSC_RESERVED_12_11 0x3
-
- Oscillator Mode Write-Data Delay Line Select
- PSU_DDR_PHY_DX8SL1OSC_OSCWDDL 0x3
-
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL1OSC_RESERVED_8_7 0x3
-
- Oscillator Mode Write-Leveling Delay Line Select
- PSU_DDR_PHY_DX8SL1OSC_OSCWDL 0x3
-
- Oscillator Mode Division
- PSU_DDR_PHY_DX8SL1OSC_OSCDIV 0xf
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX7GCR0_RTTOH 0x3
- Oscillator Enable
- PSU_DDR_PHY_DX8SL1OSC_OSCEN 0x0
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX7GCR0_CPDRSHFT 0x0
- DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register
- (OFFSET, MASK, VALUE) (0XFD081440, 0xFFFFFFFFU ,0x2A019FFEU)
- RegMask = (DDR_PHY_DX8SL1OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL1OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL1OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL1OSC_LBMODE_MASK | DDR_PHY_DX8SL1OSC_LBGSDQS_MASK | DDR_PHY_DX8SL1OSC_LBGDQS_MASK | DDR_PHY_DX8SL1OSC_LBDQSS_MASK | DDR_PHY_DX8SL1OSC_PHYHRST_MASK | DDR_PHY_DX8SL1OSC_PHYFRST_MASK | DDR_PHY_DX8SL1OSC_DLTST_MASK | DDR_PHY_DX8SL1OSC_DLTMODE_MASK | DDR_PHY_DX8SL1OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL1OSC_OSCWDDL_MASK | DDR_PHY_DX8SL1OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL1OSC_OSCWDL_MASK | DDR_PHY_DX8SL1OSC_OSCDIV_MASK | DDR_PHY_DX8SL1OSC_OSCEN_MASK | 0 );
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX7GCR0_DQSRPD 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL1OSC_RESERVED_31_30_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL1OSC_GATEDXRDCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL1OSC_GATEDXDDRCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL1OSC_GATEDXCTLCLK_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_CLKLEVEL_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_LBMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_LBGSDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_LBGDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_LBDQSS_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1OSC_PHYHRST_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1OSC_PHYFRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_DLTST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_DLTMODE_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL1OSC_RESERVED_12_11_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL1OSC_OSCWDDL_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL1OSC_RESERVED_8_7_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL1OSC_OSCWDL_SHIFT
- | 0x0000000FU << DDR_PHY_DX8SL1OSC_OSCDIV_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1OSC_OSCEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL1OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU);
- /*############################################################################################################################ */
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX7GCR0_DQSGPDR 0x0
- /*Register : DX8SL1DQSCTL @ 0XFD08145C</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX7GCR0_RESERVED_4 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25 0x0
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX7GCR0_DQSGODT 0x0
- Read Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL1DQSCTL_RRRMODE 0x1
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX7GCR0_DQSGOE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX7GCR0_RESERVED_1_0 0x0
- Write Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL1DQSCTL_WRRMODE 0x1
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080E00, 0xFFFFFFFFU ,0x40800604U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX7GCR0_OFFSET, 0xFFFFFFFFU, 0x40800604U);
+/*##################################################################### */
- DQS Gate Extension
- PSU_DDR_PHY_DX8SL1DQSCTL_DQSGX 0x0
+ /*
+ * Register : DX7GCR1 @ 0XFD080E04
- Low Power PLL Power Down
- PSU_DDR_PHY_DX8SL1DQSCTL_LPPLLPD 0x1
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX7GCR1_DXPDRMODE 0x0
- Low Power I/O Power Down
- PSU_DDR_PHY_DX8SL1DQSCTL_LPIOPD 0x1
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX7GCR1_RESERVED_15 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15 0x0
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX7GCR1_QSNSEL 0x1
- QS Counter Enable
- PSU_DDR_PHY_DX8SL1DQSCTL_QSCNTEN 0x1
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX7GCR1_QSSEL 0x1
- Unused DQ I/O Mode
- PSU_DDR_PHY_DX8SL1DQSCTL_UDQIOM 0x0
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX7GCR1_OEEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10 0x0
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX7GCR1_PDREN 0x1
- Data Slew Rate
- PSU_DDR_PHY_DX8SL1DQSCTL_DXSR 0x3
-
- DQS_N Resistor
- PSU_DDR_PHY_DX8SL1DQSCTL_DQSNRES 0x0
-
- DQS Resistor
- PSU_DDR_PHY_DX8SL1DQSCTL_DQSRES 0x0
-
- DATX8 0-1 DQS Control Register
- (OFFSET, MASK, VALUE) (0XFD08145C, 0xFFFFFFFFU ,0x01264300U)
- RegMask = (DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL1DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL1DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL1DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL1DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL1DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL1DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL1DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL1DQSCTL_DXSR_MASK | DDR_PHY_DX8SL1DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL1DQSCTL_DQSRES_MASK | 0 );
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX7GCR1_TEEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_RRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_WRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_DQSGX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_LPPLLPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_LPIOPD_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1DQSCTL_QSCNTEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_UDQIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL1DQSCTL_DXSR_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_DQSNRES_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DQSCTL_DQSRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL1DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U);
- /*############################################################################################################################ */
-
- /*Register : DX8SL1DXCTL2 @ 0XFD08146C</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24 0x0
-
- Configurable Read Data Enable
- PSU_DDR_PHY_DX8SL1DXCTL2_CRDEN 0x0
-
- OX Extension during Post-amble
- PSU_DDR_PHY_DX8SL1DXCTL2_POSOEX 0x0
-
- OE Extension during Pre-amble
- PSU_DDR_PHY_DX8SL1DXCTL2_PREOEX 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_17 0x0
-
- I/O Assisted Gate Select
- PSU_DDR_PHY_DX8SL1DXCTL2_IOAG 0x0
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX7GCR1_DSEN 0x1
- I/O Loopback Select
- PSU_DDR_PHY_DX8SL1DXCTL2_IOLB 0x0
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX7GCR1_DMEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13 0x0
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX7GCR1_DQEN 0xff
- Low Power Wakeup Threshold
- PSU_DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH 0xc
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080E04, 0xFFFFFFFFU ,0x00007FFFU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX7GCR1_OFFSET, 0xFFFFFFFFU, 0x00007FFFU);
+/*##################################################################### */
- Read Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL1DXCTL2_RDBI 0x0
+ /*
+ * Register : DX7GCR4 @ 0XFD080E10
- Write Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL1DXCTL2_WDBI 0x0
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX7GCR4_RESERVED_31_29 0x0
- PUB Read FIFO Bypass
- PSU_DDR_PHY_DX8SL1DXCTL2_PRFBYP 0x0
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX7GCR4_DXREFPEN 0x0
- DATX8 Receive FIFO Read Mode
- PSU_DDR_PHY_DX8SL1DXCTL2_RDMODE 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX7GCR4_DXREFEEN 0x3
- Disables the Read FIFO Reset
- PSU_DDR_PHY_DX8SL1DXCTL2_DISRST 0x0
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX7GCR4_DXREFSEN 0x1
- Read DQS Gate I/O Loopback
- PSU_DDR_PHY_DX8SL1DXCTL2_DQSGLB 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR4_RESERVED_24 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_0 0x0
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX7GCR4_DXREFESELRANGE 0x0
- DATX8 0-1 DX Control Register 2
- (OFFSET, MASK, VALUE) (0XFD08146C, 0xFFFFFFFFU ,0x00041800U)
- RegMask = (DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL1DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL1DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL1DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL1DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL1DXCTL2_IOAG_MASK | DDR_PHY_DX8SL1DXCTL2_IOLB_MASK | DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL1DXCTL2_RDBI_MASK | DDR_PHY_DX8SL1DXCTL2_WDBI_MASK | DDR_PHY_DX8SL1DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL1DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL1DXCTL2_DISRST_MASK | DDR_PHY_DX8SL1DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL1DXCTL2_RESERVED_0_MASK | 0 );
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX7GCR4_DXREFESEL 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_CRDEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_POSOEX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL1DXCTL2_PREOEX_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_17_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_IOAG_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_IOLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13_SHIFT
- | 0x0000000CU << DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_WDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_PRFBYP_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RDMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_DISRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_DQSGLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1DXCTL2_RESERVED_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL1DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U);
- /*############################################################################################################################ */
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX7GCR4_DXREFSSELRANGE 0x1
- /*Register : DX8SL1IOCR @ 0XFD081470</p>
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX7GCR4_DXREFSSEL 0x30
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL1IOCR_RESERVED_31 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR4_RESERVED_7_6 0x0
- PVREF_DAC REFSEL range select
- PSU_DDR_PHY_DX8SL1IOCR_DXDACRANGE 0x7
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX7GCR4_DXREFIEN 0xf
- IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
- PSU_DDR_PHY_DX8SL1IOCR_DXVREFIOM 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX7GCR4_DXREFIMON 0x0
- DX IO Mode
- PSU_DDR_PHY_DX8SL1IOCR_DXIOM 0x2
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080E10, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX7GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- DX IO Transmitter Mode
- PSU_DDR_PHY_DX8SL1IOCR_DXTXM 0x0
+ /*
+ * Register : DX7GCR5 @ 0XFD080E14
- DX IO Receiver Mode
- PSU_DDR_PHY_DX8SL1IOCR_DXRXM 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR5_RESERVED_31 0x0
- DATX8 0-1 I/O Configuration Register
- (OFFSET, MASK, VALUE) (0XFD081470, 0xFFFFFFFFU ,0x70800000U)
- RegMask = (DDR_PHY_DX8SL1IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL1IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL1IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL1IOCR_DXIOM_MASK | DDR_PHY_DX8SL1IOCR_DXTXM_MASK | DDR_PHY_DX8SL1IOCR_DXRXM_MASK | 0 );
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX7GCR5_DXREFISELR3 0x9
- RegVal = ((0x00000000U << DDR_PHY_DX8SL1IOCR_RESERVED_31_SHIFT
- | 0x00000007U << DDR_PHY_DX8SL1IOCR_DXDACRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1IOCR_DXVREFIOM_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL1IOCR_DXIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1IOCR_DXTXM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL1IOCR_DXRXM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL1IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR5_RESERVED_23 0x0
- /*Register : DX8SL2OSC @ 0XFD081480</p>
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX7GCR5_DXREFISELR2 0x9
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2OSC_RESERVED_31_30 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR5_RESERVED_15 0x0
- Enable Clock Gating for DX ddr_clk
- PSU_DDR_PHY_DX8SL2OSC_GATEDXRDCLK 0x2
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX7GCR5_DXREFISELR1 0x55
- Enable Clock Gating for DX ctl_rd_clk
- PSU_DDR_PHY_DX8SL2OSC_GATEDXDDRCLK 0x2
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR5_RESERVED_7 0x0
- Enable Clock Gating for DX ctl_clk
- PSU_DDR_PHY_DX8SL2OSC_GATEDXCTLCLK 0x2
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX7GCR5_DXREFISELR0 0x55
- Selects the level to which clocks will be stalled when clock gating is enabled.
- PSU_DDR_PHY_DX8SL2OSC_CLKLEVEL 0x0
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080E14, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX7GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- Loopback Mode
- PSU_DDR_PHY_DX8SL2OSC_LBMODE 0x0
+ /*
+ * Register : DX7GCR6 @ 0XFD080E18
- Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
- PSU_DDR_PHY_DX8SL2OSC_LBGSDQS 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR6_RESERVED_31_30 0x0
- Loopback DQS Gating
- PSU_DDR_PHY_DX8SL2OSC_LBGDQS 0x0
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX7GCR6_DXDQVREFR3 0x9
- Loopback DQS Shift
- PSU_DDR_PHY_DX8SL2OSC_LBDQSS 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR6_RESERVED_23_22 0x0
- PHY High-Speed Reset
- PSU_DDR_PHY_DX8SL2OSC_PHYHRST 0x1
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX7GCR6_DXDQVREFR2 0x9
- PHY FIFO Reset
- PSU_DDR_PHY_DX8SL2OSC_PHYFRST 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR6_RESERVED_15_14 0x0
- Delay Line Test Start
- PSU_DDR_PHY_DX8SL2OSC_DLTST 0x0
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX7GCR6_DXDQVREFR1 0x2b
- Delay Line Test Mode
- PSU_DDR_PHY_DX8SL2OSC_DLTMODE 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX7GCR6_RESERVED_7_6 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL2OSC_RESERVED_12_11 0x3
-
- Oscillator Mode Write-Data Delay Line Select
- PSU_DDR_PHY_DX8SL2OSC_OSCWDDL 0x3
-
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL2OSC_RESERVED_8_7 0x3
-
- Oscillator Mode Write-Leveling Delay Line Select
- PSU_DDR_PHY_DX8SL2OSC_OSCWDL 0x3
-
- Oscillator Mode Division
- PSU_DDR_PHY_DX8SL2OSC_OSCDIV 0xf
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX7GCR6_DXDQVREFR0 0x2b
- Oscillator Enable
- PSU_DDR_PHY_DX8SL2OSC_OSCEN 0x0
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080E18, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX7GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register
- (OFFSET, MASK, VALUE) (0XFD081480, 0xFFFFFFFFU ,0x2A019FFEU)
- RegMask = (DDR_PHY_DX8SL2OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL2OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL2OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL2OSC_LBMODE_MASK | DDR_PHY_DX8SL2OSC_LBGSDQS_MASK | DDR_PHY_DX8SL2OSC_LBGDQS_MASK | DDR_PHY_DX8SL2OSC_LBDQSS_MASK | DDR_PHY_DX8SL2OSC_PHYHRST_MASK | DDR_PHY_DX8SL2OSC_PHYFRST_MASK | DDR_PHY_DX8SL2OSC_DLTST_MASK | DDR_PHY_DX8SL2OSC_DLTMODE_MASK | DDR_PHY_DX8SL2OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL2OSC_OSCWDDL_MASK | DDR_PHY_DX8SL2OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL2OSC_OSCWDL_MASK | DDR_PHY_DX8SL2OSC_OSCDIV_MASK | DDR_PHY_DX8SL2OSC_OSCEN_MASK | 0 );
+ /*
+ * Register : DX8GCR0 @ 0XFD080F00
- RegVal = ((0x00000000U << DDR_PHY_DX8SL2OSC_RESERVED_31_30_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL2OSC_GATEDXRDCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL2OSC_GATEDXDDRCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL2OSC_GATEDXCTLCLK_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_CLKLEVEL_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_LBMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_LBGSDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_LBGDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_LBDQSS_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2OSC_PHYHRST_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2OSC_PHYFRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_DLTST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_DLTMODE_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL2OSC_RESERVED_12_11_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL2OSC_OSCWDDL_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL2OSC_RESERVED_8_7_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL2OSC_OSCWDL_SHIFT
- | 0x0000000FU << DDR_PHY_DX8SL2OSC_OSCDIV_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2OSC_OSCEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL2OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU);
- /*############################################################################################################################ */
+ * Calibration Bypass
+ * PSU_DDR_PHY_DX8GCR0_CALBYP 0x0
- /*Register : DX8SL2DQSCTL @ 0XFD08149C</p>
+ * Master Delay Line Enable
+ * PSU_DDR_PHY_DX8GCR0_MDLEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25 0x0
+ * Configurable ODT(TE) Phase Shift
+ * PSU_DDR_PHY_DX8GCR0_CODTSHFT 0x0
- Read Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL2DQSCTL_RRRMODE 0x1
+ * DQS Duty Cycle Correction
+ * PSU_DDR_PHY_DX8GCR0_DQSDCC 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22 0x0
+ * Number of Cycles ( in terms of ctl_clk) to generate ctl_dx_get_static_rd
+ * input for the respective bypte lane of the PHY
+ * PSU_DDR_PHY_DX8GCR0_RDDLY 0x8
- Write Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL2DQSCTL_WRRMODE 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8GCR0_RESERVED_19_14 0x0
- DQS Gate Extension
- PSU_DDR_PHY_DX8SL2DQSCTL_DQSGX 0x0
+ * DQSNSE Power Down Receiver
+ * PSU_DDR_PHY_DX8GCR0_DQSNSEPDR 0x0
- Low Power PLL Power Down
- PSU_DDR_PHY_DX8SL2DQSCTL_LPPLLPD 0x1
+ * DQSSE Power Down Receiver
+ * PSU_DDR_PHY_DX8GCR0_DQSSEPDR 0x0
- Low Power I/O Power Down
- PSU_DDR_PHY_DX8SL2DQSCTL_LPIOPD 0x1
+ * RTT On Additive Latency
+ * PSU_DDR_PHY_DX8GCR0_RTTOAL 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15 0x0
+ * RTT Output Hold
+ * PSU_DDR_PHY_DX8GCR0_RTTOH 0x3
- QS Counter Enable
- PSU_DDR_PHY_DX8SL2DQSCTL_QSCNTEN 0x1
+ * Configurable PDR Phase Shift
+ * PSU_DDR_PHY_DX8GCR0_CPDRSHFT 0x0
- Unused DQ I/O Mode
- PSU_DDR_PHY_DX8SL2DQSCTL_UDQIOM 0x0
+ * DQSR Power Down
+ * PSU_DDR_PHY_DX8GCR0_DQSRPD 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10 0x0
+ * DQSG Power Down Receiver
+ * PSU_DDR_PHY_DX8GCR0_DQSGPDR 0x1
- Data Slew Rate
- PSU_DDR_PHY_DX8SL2DQSCTL_DXSR 0x3
-
- DQS_N Resistor
- PSU_DDR_PHY_DX8SL2DQSCTL_DQSNRES 0x0
-
- DQS Resistor
- PSU_DDR_PHY_DX8SL2DQSCTL_DQSRES 0x0
-
- DATX8 0-1 DQS Control Register
- (OFFSET, MASK, VALUE) (0XFD08149C, 0xFFFFFFFFU ,0x01264300U)
- RegMask = (DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL2DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL2DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL2DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL2DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL2DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL2DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL2DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL2DQSCTL_DXSR_MASK | DDR_PHY_DX8SL2DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL2DQSCTL_DQSRES_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8GCR0_RESERVED_4 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_RRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_WRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_DQSGX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_LPPLLPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_LPIOPD_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2DQSCTL_QSCNTEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_UDQIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL2DQSCTL_DXSR_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_DQSNRES_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DQSCTL_DQSRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL2DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U);
- /*############################################################################################################################ */
-
- /*Register : DX8SL2DXCTL2 @ 0XFD0814AC</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24 0x0
-
- Configurable Read Data Enable
- PSU_DDR_PHY_DX8SL2DXCTL2_CRDEN 0x0
-
- OX Extension during Post-amble
- PSU_DDR_PHY_DX8SL2DXCTL2_POSOEX 0x0
-
- OE Extension during Pre-amble
- PSU_DDR_PHY_DX8SL2DXCTL2_PREOEX 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_17 0x0
-
- I/O Assisted Gate Select
- PSU_DDR_PHY_DX8SL2DXCTL2_IOAG 0x0
+ * DQSG On-Die Termination
+ * PSU_DDR_PHY_DX8GCR0_DQSGODT 0x0
- I/O Loopback Select
- PSU_DDR_PHY_DX8SL2DXCTL2_IOLB 0x0
+ * DQSG Output Enable
+ * PSU_DDR_PHY_DX8GCR0_DQSGOE 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8GCR0_RESERVED_1_0 0x0
- Low Power Wakeup Threshold
- PSU_DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH 0xc
+ * DATX8 n General Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD080F00, 0xFFFFFFFFU ,0x40800624U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8GCR0_OFFSET, 0xFFFFFFFFU, 0x40800624U);
+/*##################################################################### */
- Read Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL2DXCTL2_RDBI 0x0
+ /*
+ * Register : DX8GCR1 @ 0XFD080F04
- Write Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL2DXCTL2_WDBI 0x0
+ * Enables the PDR mode for DQ[7:0]
+ * PSU_DDR_PHY_DX8GCR1_DXPDRMODE 0x0
- PUB Read FIFO Bypass
- PSU_DDR_PHY_DX8SL2DXCTL2_PRFBYP 0x0
+ * Reserved. Returns zeroes on reads.
+ * PSU_DDR_PHY_DX8GCR1_RESERVED_15 0x0
- DATX8 Receive FIFO Read Mode
- PSU_DDR_PHY_DX8SL2DXCTL2_RDMODE 0x0
+ * Select the delayed or non-delayed read data strobe #
+ * PSU_DDR_PHY_DX8GCR1_QSNSEL 0x1
- Disables the Read FIFO Reset
- PSU_DDR_PHY_DX8SL2DXCTL2_DISRST 0x0
+ * Select the delayed or non-delayed read data strobe
+ * PSU_DDR_PHY_DX8GCR1_QSSEL 0x1
- Read DQS Gate I/O Loopback
- PSU_DDR_PHY_DX8SL2DXCTL2_DQSGLB 0x0
+ * Enables Read Data Strobe in a byte lane
+ * PSU_DDR_PHY_DX8GCR1_OEEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_0 0x0
+ * Enables PDR in a byte lane
+ * PSU_DDR_PHY_DX8GCR1_PDREN 0x1
- DATX8 0-1 DX Control Register 2
- (OFFSET, MASK, VALUE) (0XFD0814AC, 0xFFFFFFFFU ,0x00041800U)
- RegMask = (DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL2DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL2DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL2DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL2DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL2DXCTL2_IOAG_MASK | DDR_PHY_DX8SL2DXCTL2_IOLB_MASK | DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL2DXCTL2_RDBI_MASK | DDR_PHY_DX8SL2DXCTL2_WDBI_MASK | DDR_PHY_DX8SL2DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL2DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL2DXCTL2_DISRST_MASK | DDR_PHY_DX8SL2DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL2DXCTL2_RESERVED_0_MASK | 0 );
+ * Enables ODT/TE in a byte lane
+ * PSU_DDR_PHY_DX8GCR1_TEEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_CRDEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_POSOEX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL2DXCTL2_PREOEX_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_17_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_IOAG_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_IOLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13_SHIFT
- | 0x0000000CU << DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_WDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_PRFBYP_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RDMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_DISRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_DQSGLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2DXCTL2_RESERVED_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL2DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U);
- /*############################################################################################################################ */
+ * Enables Write Data strobe in a byte lane
+ * PSU_DDR_PHY_DX8GCR1_DSEN 0x1
- /*Register : DX8SL2IOCR @ 0XFD0814B0</p>
+ * Enables DM pin in a byte lane
+ * PSU_DDR_PHY_DX8GCR1_DMEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL2IOCR_RESERVED_31 0x0
+ * Enables DQ corresponding to each bit in a byte
+ * PSU_DDR_PHY_DX8GCR1_DQEN 0x0
- PVREF_DAC REFSEL range select
- PSU_DDR_PHY_DX8SL2IOCR_DXDACRANGE 0x7
+ * DATX8 n General Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD080F04, 0xFFFFFFFFU ,0x00007F00U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8GCR1_OFFSET, 0xFFFFFFFFU, 0x00007F00U);
+/*##################################################################### */
- IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
- PSU_DDR_PHY_DX8SL2IOCR_DXVREFIOM 0x0
+ /*
+ * Register : DX8GCR4 @ 0XFD080F10
- DX IO Mode
- PSU_DDR_PHY_DX8SL2IOCR_DXIOM 0x2
+ * Byte lane VREF IOM (Used only by D4MU IOs)
+ * PSU_DDR_PHY_DX8GCR4_RESERVED_31_29 0x0
- DX IO Transmitter Mode
- PSU_DDR_PHY_DX8SL2IOCR_DXTXM 0x0
+ * Byte Lane VREF Pad Enable
+ * PSU_DDR_PHY_DX8GCR4_DXREFPEN 0x0
- DX IO Receiver Mode
- PSU_DDR_PHY_DX8SL2IOCR_DXRXM 0x0
+ * Byte Lane Internal VREF Enable
+ * PSU_DDR_PHY_DX8GCR4_DXREFEEN 0x3
- DATX8 0-1 I/O Configuration Register
- (OFFSET, MASK, VALUE) (0XFD0814B0, 0xFFFFFFFFU ,0x70800000U)
- RegMask = (DDR_PHY_DX8SL2IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL2IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL2IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL2IOCR_DXIOM_MASK | DDR_PHY_DX8SL2IOCR_DXTXM_MASK | DDR_PHY_DX8SL2IOCR_DXRXM_MASK | 0 );
+ * Byte Lane Single-End VREF Enable
+ * PSU_DDR_PHY_DX8GCR4_DXREFSEN 0x1
- RegVal = ((0x00000000U << DDR_PHY_DX8SL2IOCR_RESERVED_31_SHIFT
- | 0x00000007U << DDR_PHY_DX8SL2IOCR_DXDACRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2IOCR_DXVREFIOM_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL2IOCR_DXIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2IOCR_DXTXM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL2IOCR_DXRXM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL2IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U);
- /*############################################################################################################################ */
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR4_RESERVED_24 0x0
- /*Register : DX8SL3OSC @ 0XFD0814C0</p>
+ * External VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX8GCR4_DXREFESELRANGE 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3OSC_RESERVED_31_30 0x0
+ * Byte Lane External VREF Select
+ * PSU_DDR_PHY_DX8GCR4_DXREFESEL 0x0
- Enable Clock Gating for DX ddr_clk
- PSU_DDR_PHY_DX8SL3OSC_GATEDXRDCLK 0x2
+ * Single ended VREF generator REFSEL range select
+ * PSU_DDR_PHY_DX8GCR4_DXREFSSELRANGE 0x1
- Enable Clock Gating for DX ctl_rd_clk
- PSU_DDR_PHY_DX8SL3OSC_GATEDXDDRCLK 0x2
+ * Byte Lane Single-End VREF Select
+ * PSU_DDR_PHY_DX8GCR4_DXREFSSEL 0x30
- Enable Clock Gating for DX ctl_clk
- PSU_DDR_PHY_DX8SL3OSC_GATEDXCTLCLK 0x2
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR4_RESERVED_7_6 0x0
- Selects the level to which clocks will be stalled when clock gating is enabled.
- PSU_DDR_PHY_DX8SL3OSC_CLKLEVEL 0x0
+ * VREF Enable control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX8GCR4_DXREFIEN 0xf
- Loopback Mode
- PSU_DDR_PHY_DX8SL3OSC_LBMODE 0x0
+ * VRMON control for DQ IO (Single Ended) buffers of a byte lane.
+ * PSU_DDR_PHY_DX8GCR4_DXREFIMON 0x0
- Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
- PSU_DDR_PHY_DX8SL3OSC_LBGSDQS 0x0
+ * DATX8 n General Configuration Register 4
+ * (OFFSET, MASK, VALUE) (0XFD080F10, 0xFFFFFFFFU ,0x0E00B03CU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8GCR4_OFFSET, 0xFFFFFFFFU, 0x0E00B03CU);
+/*##################################################################### */
- Loopback DQS Gating
- PSU_DDR_PHY_DX8SL3OSC_LBGDQS 0x0
+ /*
+ * Register : DX8GCR5 @ 0XFD080F14
- Loopback DQS Shift
- PSU_DDR_PHY_DX8SL3OSC_LBDQSS 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR5_RESERVED_31 0x0
- PHY High-Speed Reset
- PSU_DDR_PHY_DX8SL3OSC_PHYHRST 0x1
+ * Byte Lane internal VREF Select for Rank 3
+ * PSU_DDR_PHY_DX8GCR5_DXREFISELR3 0x9
- PHY FIFO Reset
- PSU_DDR_PHY_DX8SL3OSC_PHYFRST 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR5_RESERVED_23 0x0
- Delay Line Test Start
- PSU_DDR_PHY_DX8SL3OSC_DLTST 0x0
+ * Byte Lane internal VREF Select for Rank 2
+ * PSU_DDR_PHY_DX8GCR5_DXREFISELR2 0x9
- Delay Line Test Mode
- PSU_DDR_PHY_DX8SL3OSC_DLTMODE 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR5_RESERVED_15 0x0
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL3OSC_RESERVED_12_11 0x3
-
- Oscillator Mode Write-Data Delay Line Select
- PSU_DDR_PHY_DX8SL3OSC_OSCWDDL 0x3
-
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL3OSC_RESERVED_8_7 0x3
-
- Oscillator Mode Write-Leveling Delay Line Select
- PSU_DDR_PHY_DX8SL3OSC_OSCWDL 0x3
-
- Oscillator Mode Division
- PSU_DDR_PHY_DX8SL3OSC_OSCDIV 0xf
+ * Byte Lane internal VREF Select for Rank 1
+ * PSU_DDR_PHY_DX8GCR5_DXREFISELR1 0x55
- Oscillator Enable
- PSU_DDR_PHY_DX8SL3OSC_OSCEN 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR5_RESERVED_7 0x0
- DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register
- (OFFSET, MASK, VALUE) (0XFD0814C0, 0xFFFFFFFFU ,0x2A019FFEU)
- RegMask = (DDR_PHY_DX8SL3OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL3OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL3OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL3OSC_LBMODE_MASK | DDR_PHY_DX8SL3OSC_LBGSDQS_MASK | DDR_PHY_DX8SL3OSC_LBGDQS_MASK | DDR_PHY_DX8SL3OSC_LBDQSS_MASK | DDR_PHY_DX8SL3OSC_PHYHRST_MASK | DDR_PHY_DX8SL3OSC_PHYFRST_MASK | DDR_PHY_DX8SL3OSC_DLTST_MASK | DDR_PHY_DX8SL3OSC_DLTMODE_MASK | DDR_PHY_DX8SL3OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL3OSC_OSCWDDL_MASK | DDR_PHY_DX8SL3OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL3OSC_OSCWDL_MASK | DDR_PHY_DX8SL3OSC_OSCDIV_MASK | DDR_PHY_DX8SL3OSC_OSCEN_MASK | 0 );
+ * Byte Lane internal VREF Select for Rank 0
+ * PSU_DDR_PHY_DX8GCR5_DXREFISELR0 0x55
- RegVal = ((0x00000000U << DDR_PHY_DX8SL3OSC_RESERVED_31_30_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL3OSC_GATEDXRDCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL3OSC_GATEDXDDRCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL3OSC_GATEDXCTLCLK_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_CLKLEVEL_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_LBMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_LBGSDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_LBGDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_LBDQSS_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3OSC_PHYHRST_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3OSC_PHYFRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_DLTST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_DLTMODE_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL3OSC_RESERVED_12_11_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL3OSC_OSCWDDL_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL3OSC_RESERVED_8_7_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL3OSC_OSCWDL_SHIFT
- | 0x0000000FU << DDR_PHY_DX8SL3OSC_OSCDIV_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3OSC_OSCEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL3OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU);
- /*############################################################################################################################ */
+ * DATX8 n General Configuration Register 5
+ * (OFFSET, MASK, VALUE) (0XFD080F14, 0xFFFFFFFFU ,0x09095555U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8GCR5_OFFSET, 0xFFFFFFFFU, 0x09095555U);
+/*##################################################################### */
- /*Register : DX8SL3DQSCTL @ 0XFD0814DC</p>
+ /*
+ * Register : DX8GCR6 @ 0XFD080F18
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR6_RESERVED_31_30 0x0
- Read Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL3DQSCTL_RRRMODE 0x1
+ * DRAM DQ VREF Select for Rank3
+ * PSU_DDR_PHY_DX8GCR6_DXDQVREFR3 0x9
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR6_RESERVED_23_22 0x0
- Write Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL3DQSCTL_WRRMODE 0x1
+ * DRAM DQ VREF Select for Rank2
+ * PSU_DDR_PHY_DX8GCR6_DXDQVREFR2 0x9
- DQS Gate Extension
- PSU_DDR_PHY_DX8SL3DQSCTL_DQSGX 0x0
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR6_RESERVED_15_14 0x0
- Low Power PLL Power Down
- PSU_DDR_PHY_DX8SL3DQSCTL_LPPLLPD 0x1
+ * DRAM DQ VREF Select for Rank1
+ * PSU_DDR_PHY_DX8GCR6_DXDQVREFR1 0x2b
- Low Power I/O Power Down
- PSU_DDR_PHY_DX8SL3DQSCTL_LPIOPD 0x1
+ * Reserved. Returns zeros on reads.
+ * PSU_DDR_PHY_DX8GCR6_RESERVED_7_6 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15 0x0
+ * DRAM DQ VREF Select for Rank0
+ * PSU_DDR_PHY_DX8GCR6_DXDQVREFR0 0x2b
- QS Counter Enable
- PSU_DDR_PHY_DX8SL3DQSCTL_QSCNTEN 0x1
+ * DATX8 n General Configuration Register 6
+ * (OFFSET, MASK, VALUE) (0XFD080F18, 0xFFFFFFFFU ,0x09092B2BU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8GCR6_OFFSET, 0xFFFFFFFFU, 0x09092B2BU);
+/*##################################################################### */
- Unused DQ I/O Mode
- PSU_DDR_PHY_DX8SL3DQSCTL_UDQIOM 0x0
+ /*
+ * Register : DX8SL0OSC @ 0XFD081400
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0OSC_RESERVED_31_30 0x0
- Data Slew Rate
- PSU_DDR_PHY_DX8SL3DQSCTL_DXSR 0x3
-
- DQS_N Resistor
- PSU_DDR_PHY_DX8SL3DQSCTL_DQSNRES 0x0
-
- DQS Resistor
- PSU_DDR_PHY_DX8SL3DQSCTL_DQSRES 0x0
-
- DATX8 0-1 DQS Control Register
- (OFFSET, MASK, VALUE) (0XFD0814DC, 0xFFFFFFFFU ,0x01264300U)
- RegMask = (DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL3DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL3DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL3DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL3DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL3DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL3DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL3DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL3DQSCTL_DXSR_MASK | DDR_PHY_DX8SL3DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL3DQSCTL_DQSRES_MASK | 0 );
+ * Enable Clock Gating for DX ddr_clk
+ * PSU_DDR_PHY_DX8SL0OSC_GATEDXRDCLK 0x2
- RegVal = ((0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_RRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_WRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_DQSGX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_LPPLLPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_LPIOPD_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3DQSCTL_QSCNTEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_UDQIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL3DQSCTL_DXSR_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_DQSNRES_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DQSCTL_DQSRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL3DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U);
- /*############################################################################################################################ */
-
- /*Register : DX8SL3DXCTL2 @ 0XFD0814EC</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24 0x0
-
- Configurable Read Data Enable
- PSU_DDR_PHY_DX8SL3DXCTL2_CRDEN 0x0
-
- OX Extension during Post-amble
- PSU_DDR_PHY_DX8SL3DXCTL2_POSOEX 0x0
-
- OE Extension during Pre-amble
- PSU_DDR_PHY_DX8SL3DXCTL2_PREOEX 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_17 0x0
-
- I/O Assisted Gate Select
- PSU_DDR_PHY_DX8SL3DXCTL2_IOAG 0x0
+ * Enable Clock Gating for DX ctl_rd_clk
+ * PSU_DDR_PHY_DX8SL0OSC_GATEDXDDRCLK 0x2
- I/O Loopback Select
- PSU_DDR_PHY_DX8SL3DXCTL2_IOLB 0x0
+ * Enable Clock Gating for DX ctl_clk
+ * PSU_DDR_PHY_DX8SL0OSC_GATEDXCTLCLK 0x2
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13 0x0
+ * Selects the level to which clocks will be stalled when clock gating is e
+ * nabled.
+ * PSU_DDR_PHY_DX8SL0OSC_CLKLEVEL 0x0
- Low Power Wakeup Threshold
- PSU_DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH 0xc
+ * Loopback Mode
+ * PSU_DDR_PHY_DX8SL0OSC_LBMODE 0x0
- Read Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL3DXCTL2_RDBI 0x0
+ * Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
+ * PSU_DDR_PHY_DX8SL0OSC_LBGSDQS 0x0
- Write Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL3DXCTL2_WDBI 0x0
+ * Loopback DQS Gating
+ * PSU_DDR_PHY_DX8SL0OSC_LBGDQS 0x0
- PUB Read FIFO Bypass
- PSU_DDR_PHY_DX8SL3DXCTL2_PRFBYP 0x0
+ * Loopback DQS Shift
+ * PSU_DDR_PHY_DX8SL0OSC_LBDQSS 0x0
- DATX8 Receive FIFO Read Mode
- PSU_DDR_PHY_DX8SL3DXCTL2_RDMODE 0x0
+ * PHY High-Speed Reset
+ * PSU_DDR_PHY_DX8SL0OSC_PHYHRST 0x1
- Disables the Read FIFO Reset
- PSU_DDR_PHY_DX8SL3DXCTL2_DISRST 0x0
+ * PHY FIFO Reset
+ * PSU_DDR_PHY_DX8SL0OSC_PHYFRST 0x1
- Read DQS Gate I/O Loopback
- PSU_DDR_PHY_DX8SL3DXCTL2_DQSGLB 0x0
+ * Delay Line Test Start
+ * PSU_DDR_PHY_DX8SL0OSC_DLTST 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_0 0x0
+ * Delay Line Test Mode
+ * PSU_DDR_PHY_DX8SL0OSC_DLTMODE 0x0
- DATX8 0-1 DX Control Register 2
- (OFFSET, MASK, VALUE) (0XFD0814EC, 0xFFFFFFFFU ,0x00041800U)
- RegMask = (DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL3DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL3DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL3DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL3DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL3DXCTL2_IOAG_MASK | DDR_PHY_DX8SL3DXCTL2_IOLB_MASK | DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL3DXCTL2_RDBI_MASK | DDR_PHY_DX8SL3DXCTL2_WDBI_MASK | DDR_PHY_DX8SL3DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL3DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL3DXCTL2_DISRST_MASK | DDR_PHY_DX8SL3DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL3DXCTL2_RESERVED_0_MASK | 0 );
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL0OSC_RESERVED_12_11 0x3
- RegVal = ((0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_CRDEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_POSOEX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL3DXCTL2_PREOEX_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_17_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_IOAG_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_IOLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13_SHIFT
- | 0x0000000CU << DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_WDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_PRFBYP_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RDMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_DISRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_DQSGLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3DXCTL2_RESERVED_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL3DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U);
- /*############################################################################################################################ */
+ * Oscillator Mode Write-Data Delay Line Select
+ * PSU_DDR_PHY_DX8SL0OSC_OSCWDDL 0x3
- /*Register : DX8SL3IOCR @ 0XFD0814F0</p>
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL0OSC_RESERVED_8_7 0x3
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL3IOCR_RESERVED_31 0x0
+ * Oscillator Mode Write-Leveling Delay Line Select
+ * PSU_DDR_PHY_DX8SL0OSC_OSCWDL 0x3
- PVREF_DAC REFSEL range select
- PSU_DDR_PHY_DX8SL3IOCR_DXDACRANGE 0x7
+ * Oscillator Mode Division
+ * PSU_DDR_PHY_DX8SL0OSC_OSCDIV 0xf
- IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
- PSU_DDR_PHY_DX8SL3IOCR_DXVREFIOM 0x0
+ * Oscillator Enable
+ * PSU_DDR_PHY_DX8SL0OSC_OSCEN 0x0
- DX IO Mode
- PSU_DDR_PHY_DX8SL3IOCR_DXIOM 0x2
+ * DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Lo
+ * opback, and Gated Clock Control Register
+ * (OFFSET, MASK, VALUE) (0XFD081400, 0xFFFFFFFFU ,0x2A019FFEU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL0OSC_OFFSET, 0xFFFFFFFFU, 0x2A019FFEU);
+/*##################################################################### */
- DX IO Transmitter Mode
- PSU_DDR_PHY_DX8SL3IOCR_DXTXM 0x0
+ /*
+ * Register : DX8SL0PLLCR0 @ 0XFD081404
- DX IO Receiver Mode
- PSU_DDR_PHY_DX8SL3IOCR_DXRXM 0x0
+ * PLL Bypass
+ * PSU_DDR_PHY_DX8SL0PLLCR0_PLLBYP 0x0
- DATX8 0-1 I/O Configuration Register
- (OFFSET, MASK, VALUE) (0XFD0814F0, 0xFFFFFFFFU ,0x70800000U)
- RegMask = (DDR_PHY_DX8SL3IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL3IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL3IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL3IOCR_DXIOM_MASK | DDR_PHY_DX8SL3IOCR_DXTXM_MASK | DDR_PHY_DX8SL3IOCR_DXRXM_MASK | 0 );
+ * PLL Reset
+ * PSU_DDR_PHY_DX8SL0PLLCR0_PLLRST 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL3IOCR_RESERVED_31_SHIFT
- | 0x00000007U << DDR_PHY_DX8SL3IOCR_DXDACRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3IOCR_DXVREFIOM_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL3IOCR_DXIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3IOCR_DXTXM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL3IOCR_DXRXM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL3IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U);
- /*############################################################################################################################ */
+ * PLL Power Down
+ * PSU_DDR_PHY_DX8SL0PLLCR0_PLLPD 0x0
- /*Register : DX8SL4OSC @ 0XFD081500</p>
+ * Reference Stop Mode
+ * PSU_DDR_PHY_DX8SL0PLLCR0_RSTOPM 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4OSC_RESERVED_31_30 0x0
+ * PLL Frequency Select
+ * PSU_DDR_PHY_DX8SL0PLLCR0_FRQSEL 0x1
- Enable Clock Gating for DX ddr_clk
- PSU_DDR_PHY_DX8SL4OSC_GATEDXRDCLK 0x2
+ * Relock Mode
+ * PSU_DDR_PHY_DX8SL0PLLCR0_RLOCKM 0x0
- Enable Clock Gating for DX ctl_rd_clk
- PSU_DDR_PHY_DX8SL4OSC_GATEDXDDRCLK 0x2
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_DX8SL0PLLCR0_CPPC 0x8
- Enable Clock Gating for DX ctl_clk
- PSU_DDR_PHY_DX8SL4OSC_GATEDXCTLCLK 0x2
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_DX8SL0PLLCR0_CPIC 0x0
- Selects the level to which clocks will be stalled when clock gating is enabled.
- PSU_DDR_PHY_DX8SL4OSC_CLKLEVEL 0x0
+ * Gear Shift
+ * PSU_DDR_PHY_DX8SL0PLLCR0_GSHIFT 0x0
- Loopback Mode
- PSU_DDR_PHY_DX8SL4OSC_LBMODE 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0PLLCR0_RESERVED_11_9 0x0
- Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
- PSU_DDR_PHY_DX8SL4OSC_LBGSDQS 0x0
+ * Analog Test Enable (ATOEN)
+ * PSU_DDR_PHY_DX8SL0PLLCR0_ATOEN 0x0
- Loopback DQS Gating
- PSU_DDR_PHY_DX8SL4OSC_LBGDQS 0x0
+ * Analog Test Control
+ * PSU_DDR_PHY_DX8SL0PLLCR0_ATC 0x0
- Loopback DQS Shift
- PSU_DDR_PHY_DX8SL4OSC_LBDQSS 0x0
+ * Digital Test Control
+ * PSU_DDR_PHY_DX8SL0PLLCR0_DTC 0x0
- PHY High-Speed Reset
- PSU_DDR_PHY_DX8SL4OSC_PHYHRST 0x1
+ * DAXT8 0-1 PLL Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD081404, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL0PLLCR0_OFFSET,
+ 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
- PHY FIFO Reset
- PSU_DDR_PHY_DX8SL4OSC_PHYFRST 0x1
+ /*
+ * Register : DX8SL0DQSCTL @ 0XFD08141C
- Delay Line Test Start
- PSU_DDR_PHY_DX8SL4OSC_DLTST 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_31_25 0x0
- Delay Line Test Mode
- PSU_DDR_PHY_DX8SL4OSC_DLTMODE 0x0
+ * Read Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL0DQSCTL_RRRMODE 0x1
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL4OSC_RESERVED_12_11 0x3
-
- Oscillator Mode Write-Data Delay Line Select
- PSU_DDR_PHY_DX8SL4OSC_OSCWDDL 0x3
-
- Reserved. Caution, do not write to this register field.
- PSU_DDR_PHY_DX8SL4OSC_RESERVED_8_7 0x3
-
- Oscillator Mode Write-Leveling Delay Line Select
- PSU_DDR_PHY_DX8SL4OSC_OSCWDL 0x3
-
- Oscillator Mode Division
- PSU_DDR_PHY_DX8SL4OSC_OSCDIV 0xf
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_23_22 0x0
- Oscillator Enable
- PSU_DDR_PHY_DX8SL4OSC_OSCEN 0x0
+ * Write Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL0DQSCTL_WRRMODE 0x1
- DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Loopback, and Gated Clock Control Register
- (OFFSET, MASK, VALUE) (0XFD081500, 0xFFFFFFFFU ,0x2A019FFEU)
- RegMask = (DDR_PHY_DX8SL4OSC_RESERVED_31_30_MASK | DDR_PHY_DX8SL4OSC_GATEDXRDCLK_MASK | DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_MASK | DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_MASK | DDR_PHY_DX8SL4OSC_CLKLEVEL_MASK | DDR_PHY_DX8SL4OSC_LBMODE_MASK | DDR_PHY_DX8SL4OSC_LBGSDQS_MASK | DDR_PHY_DX8SL4OSC_LBGDQS_MASK | DDR_PHY_DX8SL4OSC_LBDQSS_MASK | DDR_PHY_DX8SL4OSC_PHYHRST_MASK | DDR_PHY_DX8SL4OSC_PHYFRST_MASK | DDR_PHY_DX8SL4OSC_DLTST_MASK | DDR_PHY_DX8SL4OSC_DLTMODE_MASK | DDR_PHY_DX8SL4OSC_RESERVED_12_11_MASK | DDR_PHY_DX8SL4OSC_OSCWDDL_MASK | DDR_PHY_DX8SL4OSC_RESERVED_8_7_MASK | DDR_PHY_DX8SL4OSC_OSCWDL_MASK | DDR_PHY_DX8SL4OSC_OSCDIV_MASK | DDR_PHY_DX8SL4OSC_OSCEN_MASK | 0 );
+ * DQS Gate Extension
+ * PSU_DDR_PHY_DX8SL0DQSCTL_DQSGX 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL4OSC_RESERVED_31_30_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL4OSC_GATEDXRDCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL4OSC_GATEDXDDRCLK_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL4OSC_GATEDXCTLCLK_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_CLKLEVEL_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_LBMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_LBGSDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_LBGDQS_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_LBDQSS_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4OSC_PHYHRST_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4OSC_PHYFRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_DLTST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_DLTMODE_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL4OSC_RESERVED_12_11_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL4OSC_OSCWDDL_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL4OSC_RESERVED_8_7_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL4OSC_OSCWDL_SHIFT
- | 0x0000000FU << DDR_PHY_DX8SL4OSC_OSCDIV_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4OSC_OSCEN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL4OSC_OFFSET ,0xFFFFFFFFU ,0x2A019FFEU);
- /*############################################################################################################################ */
+ * Low Power PLL Power Down
+ * PSU_DDR_PHY_DX8SL0DQSCTL_LPPLLPD 0x1
- /*Register : DX8SL4DQSCTL @ 0XFD08151C</p>
+ * Low Power I/O Power Down
+ * PSU_DDR_PHY_DX8SL0DQSCTL_LPIOPD 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_16_15 0x0
- Read Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL4DQSCTL_RRRMODE 0x1
+ * QS Counter Enable
+ * PSU_DDR_PHY_DX8SL0DQSCTL_QSCNTEN 0x1
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22 0x0
+ * Unused DQ I/O Mode
+ * PSU_DDR_PHY_DX8SL0DQSCTL_UDQIOM 0x0
- Write Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SL4DQSCTL_WRRMODE 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DQSCTL_RESERVED_12_10 0x0
- DQS Gate Extension
- PSU_DDR_PHY_DX8SL4DQSCTL_DQSGX 0x0
+ * Data Slew Rate
+ * PSU_DDR_PHY_DX8SL0DQSCTL_DXSR 0x3
- Low Power PLL Power Down
- PSU_DDR_PHY_DX8SL4DQSCTL_LPPLLPD 0x1
+ * DQS_N Resistor
+ * PSU_DDR_PHY_DX8SL0DQSCTL_DQSNRES 0x0
- Low Power I/O Power Down
- PSU_DDR_PHY_DX8SL4DQSCTL_LPIOPD 0x1
+ * DQS Resistor
+ * PSU_DDR_PHY_DX8SL0DQSCTL_DQSRES 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15 0x0
+ * DATX8 0-1 DQS Control Register
+ * (OFFSET, MASK, VALUE) (0XFD08141C, 0xFFFFFFFFU ,0x01264300U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL0DQSCTL_OFFSET,
+ 0xFFFFFFFFU, 0x01264300U);
+/*##################################################################### */
- QS Counter Enable
- PSU_DDR_PHY_DX8SL4DQSCTL_QSCNTEN 0x1
+ /*
+ * Register : DX8SL0DXCTL2 @ 0XFD08142C
- Unused DQ I/O Mode
- PSU_DDR_PHY_DX8SL4DQSCTL_UDQIOM 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_31_24 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10 0x0
+ * Configurable Read Data Enable
+ * PSU_DDR_PHY_DX8SL0DXCTL2_CRDEN 0x0
- Data Slew Rate
- PSU_DDR_PHY_DX8SL4DQSCTL_DXSR 0x3
-
- DQS_N Resistor
- PSU_DDR_PHY_DX8SL4DQSCTL_DQSNRES 0x0
-
- DQS Resistor
- PSU_DDR_PHY_DX8SL4DQSCTL_DQSRES 0x0
-
- DATX8 0-1 DQS Control Register
- (OFFSET, MASK, VALUE) (0XFD08151C, 0xFFFFFFFFU ,0x01264300U)
- RegMask = (DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SL4DQSCTL_RRRMODE_MASK | DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SL4DQSCTL_WRRMODE_MASK | DDR_PHY_DX8SL4DQSCTL_DQSGX_MASK | DDR_PHY_DX8SL4DQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SL4DQSCTL_LPIOPD_MASK | DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SL4DQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SL4DQSCTL_UDQIOM_MASK | DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SL4DQSCTL_DXSR_MASK | DDR_PHY_DX8SL4DQSCTL_DQSNRES_MASK | DDR_PHY_DX8SL4DQSCTL_DQSRES_MASK | 0 );
+ * OX Extension during Post-amble
+ * PSU_DDR_PHY_DX8SL0DXCTL2_POSOEX 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_RRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_WRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_DQSGX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_LPPLLPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_LPIOPD_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4DQSCTL_QSCNTEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_UDQIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10_SHIFT
- | 0x00000003U << DDR_PHY_DX8SL4DQSCTL_DXSR_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_DQSNRES_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DQSCTL_DQSRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL4DQSCTL_OFFSET ,0xFFFFFFFFU ,0x01264300U);
- /*############################################################################################################################ */
-
- /*Register : DX8SL4DXCTL2 @ 0XFD08152C</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24 0x0
-
- Configurable Read Data Enable
- PSU_DDR_PHY_DX8SL4DXCTL2_CRDEN 0x0
-
- OX Extension during Post-amble
- PSU_DDR_PHY_DX8SL4DXCTL2_POSOEX 0x0
-
- OE Extension during Pre-amble
- PSU_DDR_PHY_DX8SL4DXCTL2_PREOEX 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_17 0x0
-
- I/O Assisted Gate Select
- PSU_DDR_PHY_DX8SL4DXCTL2_IOAG 0x0
+ * OE Extension during Pre-amble
+ * PSU_DDR_PHY_DX8SL0DXCTL2_PREOEX 0x1
- I/O Loopback Select
- PSU_DDR_PHY_DX8SL4DXCTL2_IOLB 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_17 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13 0x0
+ * I/O Assisted Gate Select
+ * PSU_DDR_PHY_DX8SL0DXCTL2_IOAG 0x0
- Low Power Wakeup Threshold
- PSU_DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH 0xc
+ * I/O Loopback Select
+ * PSU_DDR_PHY_DX8SL0DXCTL2_IOLB 0x0
- Read Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL4DXCTL2_RDBI 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_14_13 0x0
- Write Data Bus Inversion Enable
- PSU_DDR_PHY_DX8SL4DXCTL2_WDBI 0x0
+ * Low Power Wakeup Threshold
+ * PSU_DDR_PHY_DX8SL0DXCTL2_LPWAKEUP_THRSH 0xc
- PUB Read FIFO Bypass
- PSU_DDR_PHY_DX8SL4DXCTL2_PRFBYP 0x0
+ * Read Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL0DXCTL2_RDBI 0x0
- DATX8 Receive FIFO Read Mode
- PSU_DDR_PHY_DX8SL4DXCTL2_RDMODE 0x0
+ * Write Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL0DXCTL2_WDBI 0x0
- Disables the Read FIFO Reset
- PSU_DDR_PHY_DX8SL4DXCTL2_DISRST 0x0
+ * PUB Read FIFO Bypass
+ * PSU_DDR_PHY_DX8SL0DXCTL2_PRFBYP 0x0
- Read DQS Gate I/O Loopback
- PSU_DDR_PHY_DX8SL4DXCTL2_DQSGLB 0x0
+ * DATX8 Receive FIFO Read Mode
+ * PSU_DDR_PHY_DX8SL0DXCTL2_RDMODE 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_0 0x0
+ * Disables the Read FIFO Reset
+ * PSU_DDR_PHY_DX8SL0DXCTL2_DISRST 0x0
- DATX8 0-1 DX Control Register 2
- (OFFSET, MASK, VALUE) (0XFD08152C, 0xFFFFFFFFU ,0x00041800U)
- RegMask = (DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_MASK | DDR_PHY_DX8SL4DXCTL2_CRDEN_MASK | DDR_PHY_DX8SL4DXCTL2_POSOEX_MASK | DDR_PHY_DX8SL4DXCTL2_PREOEX_MASK | DDR_PHY_DX8SL4DXCTL2_RESERVED_17_MASK | DDR_PHY_DX8SL4DXCTL2_IOAG_MASK | DDR_PHY_DX8SL4DXCTL2_IOLB_MASK | DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_MASK | DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_MASK | DDR_PHY_DX8SL4DXCTL2_RDBI_MASK | DDR_PHY_DX8SL4DXCTL2_WDBI_MASK | DDR_PHY_DX8SL4DXCTL2_PRFBYP_MASK | DDR_PHY_DX8SL4DXCTL2_RDMODE_MASK | DDR_PHY_DX8SL4DXCTL2_DISRST_MASK | DDR_PHY_DX8SL4DXCTL2_DQSGLB_MASK | DDR_PHY_DX8SL4DXCTL2_RESERVED_0_MASK | 0 );
+ * Read DQS Gate I/O Loopback
+ * PSU_DDR_PHY_DX8SL0DXCTL2_DQSGLB 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_CRDEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_POSOEX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SL4DXCTL2_PREOEX_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_17_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_IOAG_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_IOLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13_SHIFT
- | 0x0000000CU << DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_WDBI_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_PRFBYP_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RDMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_DISRST_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_DQSGLB_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4DXCTL2_RESERVED_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL4DXCTL2_OFFSET ,0xFFFFFFFFU ,0x00041800U);
- /*############################################################################################################################ */
-
- /*Register : DX8SL4IOCR @ 0XFD081530</p>
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SL4IOCR_RESERVED_31 0x0
-
- PVREF_DAC REFSEL range select
- PSU_DDR_PHY_DX8SL4IOCR_DXDACRANGE 0x7
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0DXCTL2_RESERVED_0 0x0
- IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
- PSU_DDR_PHY_DX8SL4IOCR_DXVREFIOM 0x0
+ * DATX8 0-1 DX Control Register 2
+ * (OFFSET, MASK, VALUE) (0XFD08142C, 0xFFFFFFFFU ,0x00041800U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL0DXCTL2_OFFSET,
+ 0xFFFFFFFFU, 0x00041800U);
+/*##################################################################### */
- DX IO Mode
- PSU_DDR_PHY_DX8SL4IOCR_DXIOM 0x2
+ /*
+ * Register : DX8SL0IOCR @ 0XFD081430
- DX IO Transmitter Mode
- PSU_DDR_PHY_DX8SL4IOCR_DXTXM 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL0IOCR_RESERVED_31 0x0
- DX IO Receiver Mode
- PSU_DDR_PHY_DX8SL4IOCR_DXRXM 0x0
+ * PVREF_DAC REFSEL range select
+ * PSU_DDR_PHY_DX8SL0IOCR_DXDACRANGE 0x7
- DATX8 0-1 I/O Configuration Register
- (OFFSET, MASK, VALUE) (0XFD081530, 0xFFFFFFFFU ,0x70800000U)
- RegMask = (DDR_PHY_DX8SL4IOCR_RESERVED_31_MASK | DDR_PHY_DX8SL4IOCR_DXDACRANGE_MASK | DDR_PHY_DX8SL4IOCR_DXVREFIOM_MASK | DDR_PHY_DX8SL4IOCR_DXIOM_MASK | DDR_PHY_DX8SL4IOCR_DXTXM_MASK | DDR_PHY_DX8SL4IOCR_DXRXM_MASK | 0 );
+ * IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
+ * PSU_DDR_PHY_DX8SL0IOCR_DXVREFIOM 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SL4IOCR_RESERVED_31_SHIFT
- | 0x00000007U << DDR_PHY_DX8SL4IOCR_DXDACRANGE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4IOCR_DXVREFIOM_SHIFT
- | 0x00000002U << DDR_PHY_DX8SL4IOCR_DXIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4IOCR_DXTXM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SL4IOCR_DXRXM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SL4IOCR_OFFSET ,0xFFFFFFFFU ,0x70800000U);
- /*############################################################################################################################ */
+ * DX IO Mode
+ * PSU_DDR_PHY_DX8SL0IOCR_DXIOM 0x2
- /*Register : DX8SLbDQSCTL @ 0XFD0817DC</p>
+ * DX IO Transmitter Mode
+ * PSU_DDR_PHY_DX8SL0IOCR_DXTXM 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25 0x0
+ * DX IO Receiver Mode
+ * PSU_DDR_PHY_DX8SL0IOCR_DXRXM 0x0
- Read Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SLBDQSCTL_RRRMODE 0x1
+ * DATX8 0-1 I/O Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD081430, 0xFFFFFFFFU ,0x70800000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL0IOCR_OFFSET, 0xFFFFFFFFU, 0x70800000U);
+/*##################################################################### */
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22 0x0
+ /*
+ * Register : DX8SL1OSC @ 0XFD081440
- Write Path Rise-to-Rise Mode
- PSU_DDR_PHY_DX8SLBDQSCTL_WRRMODE 0x1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1OSC_RESERVED_31_30 0x0
- DQS Gate Extension
- PSU_DDR_PHY_DX8SLBDQSCTL_DQSGX 0x0
+ * Enable Clock Gating for DX ddr_clk
+ * PSU_DDR_PHY_DX8SL1OSC_GATEDXRDCLK 0x2
- Low Power PLL Power Down
- PSU_DDR_PHY_DX8SLBDQSCTL_LPPLLPD 0x1
+ * Enable Clock Gating for DX ctl_rd_clk
+ * PSU_DDR_PHY_DX8SL1OSC_GATEDXDDRCLK 0x2
- Low Power I/O Power Down
- PSU_DDR_PHY_DX8SLBDQSCTL_LPIOPD 0x1
+ * Enable Clock Gating for DX ctl_clk
+ * PSU_DDR_PHY_DX8SL1OSC_GATEDXCTLCLK 0x2
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15 0x0
+ * Selects the level to which clocks will be stalled when clock gating is e
+ * nabled.
+ * PSU_DDR_PHY_DX8SL1OSC_CLKLEVEL 0x0
- QS Counter Enable
- PSU_DDR_PHY_DX8SLBDQSCTL_QSCNTEN 0x1
+ * Loopback Mode
+ * PSU_DDR_PHY_DX8SL1OSC_LBMODE 0x0
- Unused DQ I/O Mode
- PSU_DDR_PHY_DX8SLBDQSCTL_UDQIOM 0x0
+ * Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
+ * PSU_DDR_PHY_DX8SL1OSC_LBGSDQS 0x0
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10 0x0
+ * Loopback DQS Gating
+ * PSU_DDR_PHY_DX8SL1OSC_LBGDQS 0x0
- Data Slew Rate
- PSU_DDR_PHY_DX8SLBDQSCTL_DXSR 0x3
+ * Loopback DQS Shift
+ * PSU_DDR_PHY_DX8SL1OSC_LBDQSS 0x0
- DQS# Resistor
- PSU_DDR_PHY_DX8SLBDQSCTL_DQSNRES 0xc
+ * PHY High-Speed Reset
+ * PSU_DDR_PHY_DX8SL1OSC_PHYHRST 0x1
- DQS Resistor
- PSU_DDR_PHY_DX8SLBDQSCTL_DQSRES 0x4
+ * PHY FIFO Reset
+ * PSU_DDR_PHY_DX8SL1OSC_PHYFRST 0x1
- DATX8 0-8 DQS Control Register
- (OFFSET, MASK, VALUE) (0XFD0817DC, 0xFFFFFFFFU ,0x012643C4U)
- RegMask = (DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_MASK | DDR_PHY_DX8SLBDQSCTL_RRRMODE_MASK | DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_MASK | DDR_PHY_DX8SLBDQSCTL_WRRMODE_MASK | DDR_PHY_DX8SLBDQSCTL_DQSGX_MASK | DDR_PHY_DX8SLBDQSCTL_LPPLLPD_MASK | DDR_PHY_DX8SLBDQSCTL_LPIOPD_MASK | DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_MASK | DDR_PHY_DX8SLBDQSCTL_QSCNTEN_MASK | DDR_PHY_DX8SLBDQSCTL_UDQIOM_MASK | DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_MASK | DDR_PHY_DX8SLBDQSCTL_DXSR_MASK | DDR_PHY_DX8SLBDQSCTL_DQSNRES_MASK | DDR_PHY_DX8SLBDQSCTL_DQSRES_MASK | 0 );
+ * Delay Line Test Start
+ * PSU_DDR_PHY_DX8SL1OSC_DLTST 0x0
- RegVal = ((0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25_SHIFT
- | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_RRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22_SHIFT
- | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_WRRMODE_SHIFT
- | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_DQSGX_SHIFT
- | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_LPPLLPD_SHIFT
- | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_LPIOPD_SHIFT
- | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15_SHIFT
- | 0x00000001U << DDR_PHY_DX8SLBDQSCTL_QSCNTEN_SHIFT
- | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_UDQIOM_SHIFT
- | 0x00000000U << DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10_SHIFT
- | 0x00000003U << DDR_PHY_DX8SLBDQSCTL_DXSR_SHIFT
- | 0x0000000CU << DDR_PHY_DX8SLBDQSCTL_DQSNRES_SHIFT
- | 0x00000004U << DDR_PHY_DX8SLBDQSCTL_DQSRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_DX8SLBDQSCTL_OFFSET ,0xFFFFFFFFU ,0x012643C4U);
- /*############################################################################################################################ */
+ * Delay Line Test Mode
+ * PSU_DDR_PHY_DX8SL1OSC_DLTMODE 0x0
- /*Register : PIR @ 0XFD080004</p>
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL1OSC_RESERVED_12_11 0x3
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_PIR_RESERVED_31 0x0
+ * Oscillator Mode Write-Data Delay Line Select
+ * PSU_DDR_PHY_DX8SL1OSC_OSCWDDL 0x3
- Impedance Calibration Bypass
- PSU_DDR_PHY_PIR_ZCALBYP 0x0
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL1OSC_RESERVED_8_7 0x3
- Digital Delay Line (DDL) Calibration Pause
- PSU_DDR_PHY_PIR_DCALPSE 0x0
+ * Oscillator Mode Write-Leveling Delay Line Select
+ * PSU_DDR_PHY_DX8SL1OSC_OSCWDL 0x3
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_PIR_RESERVED_28_21 0x0
+ * Oscillator Mode Division
+ * PSU_DDR_PHY_DX8SL1OSC_OSCDIV 0xf
- Write DQS2DQ Training
- PSU_DDR_PHY_PIR_DQS2DQ 0x0
+ * Oscillator Enable
+ * PSU_DDR_PHY_DX8SL1OSC_OSCEN 0x0
- RDIMM Initialization
- PSU_DDR_PHY_PIR_RDIMMINIT 0x0
+ * DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Lo
+ * opback, and Gated Clock Control Register
+ * (OFFSET, MASK, VALUE) (0XFD081440, 0xFFFFFFFFU ,0x2A019FFEU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL1OSC_OFFSET, 0xFFFFFFFFU, 0x2A019FFEU);
+/*##################################################################### */
- Controller DRAM Initialization
- PSU_DDR_PHY_PIR_CTLDINIT 0x1
+ /*
+ * Register : DX8SL1PLLCR0 @ 0XFD081444
- VREF Training
- PSU_DDR_PHY_PIR_VREF 0x0
+ * PLL Bypass
+ * PSU_DDR_PHY_DX8SL1PLLCR0_PLLBYP 0x0
- Static Read Training
- PSU_DDR_PHY_PIR_SRD 0x0
+ * PLL Reset
+ * PSU_DDR_PHY_DX8SL1PLLCR0_PLLRST 0x0
- Write Data Eye Training
- PSU_DDR_PHY_PIR_WREYE 0x0
+ * PLL Power Down
+ * PSU_DDR_PHY_DX8SL1PLLCR0_PLLPD 0x0
- Read Data Eye Training
- PSU_DDR_PHY_PIR_RDEYE 0x0
+ * Reference Stop Mode
+ * PSU_DDR_PHY_DX8SL1PLLCR0_RSTOPM 0x0
- Write Data Bit Deskew
- PSU_DDR_PHY_PIR_WRDSKW 0x0
+ * PLL Frequency Select
+ * PSU_DDR_PHY_DX8SL1PLLCR0_FRQSEL 0x1
- Read Data Bit Deskew
- PSU_DDR_PHY_PIR_RDDSKW 0x0
+ * Relock Mode
+ * PSU_DDR_PHY_DX8SL1PLLCR0_RLOCKM 0x0
- Write Leveling Adjust
- PSU_DDR_PHY_PIR_WLADJ 0x0
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_DX8SL1PLLCR0_CPPC 0x8
- Read DQS Gate Training
- PSU_DDR_PHY_PIR_QSGATE 0x0
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_DX8SL1PLLCR0_CPIC 0x0
- Write Leveling
- PSU_DDR_PHY_PIR_WL 0x0
+ * Gear Shift
+ * PSU_DDR_PHY_DX8SL1PLLCR0_GSHIFT 0x0
- DRAM Initialization
- PSU_DDR_PHY_PIR_DRAMINIT 0x0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1PLLCR0_RESERVED_11_9 0x0
- DRAM Reset (DDR3/DDR4/LPDDR4 Only)
- PSU_DDR_PHY_PIR_DRAMRST 0x0
+ * Analog Test Enable (ATOEN)
+ * PSU_DDR_PHY_DX8SL1PLLCR0_ATOEN 0x0
- PHY Reset
- PSU_DDR_PHY_PIR_PHYRST 0x1
+ * Analog Test Control
+ * PSU_DDR_PHY_DX8SL1PLLCR0_ATC 0x0
- Digital Delay Line (DDL) Calibration
- PSU_DDR_PHY_PIR_DCAL 0x1
+ * Digital Test Control
+ * PSU_DDR_PHY_DX8SL1PLLCR0_DTC 0x0
- PLL Initialiazation
- PSU_DDR_PHY_PIR_PLLINIT 0x1
-
- Reserved. Return zeroes on reads.
- PSU_DDR_PHY_PIR_RESERVED_3 0x0
-
- CA Training
- PSU_DDR_PHY_PIR_CA 0x0
-
- Impedance Calibration
- PSU_DDR_PHY_PIR_ZCAL 0x1
-
- Initialization Trigger
- PSU_DDR_PHY_PIR_INIT 0x1
-
- PHY Initialization Register
- (OFFSET, MASK, VALUE) (0XFD080004, 0xFFFFFFFFU ,0x00040073U)
- RegMask = (DDR_PHY_PIR_RESERVED_31_MASK | DDR_PHY_PIR_ZCALBYP_MASK | DDR_PHY_PIR_DCALPSE_MASK | DDR_PHY_PIR_RESERVED_28_21_MASK | DDR_PHY_PIR_DQS2DQ_MASK | DDR_PHY_PIR_RDIMMINIT_MASK | DDR_PHY_PIR_CTLDINIT_MASK | DDR_PHY_PIR_VREF_MASK | DDR_PHY_PIR_SRD_MASK | DDR_PHY_PIR_WREYE_MASK | DDR_PHY_PIR_RDEYE_MASK | DDR_PHY_PIR_WRDSKW_MASK | DDR_PHY_PIR_RDDSKW_MASK | DDR_PHY_PIR_WLADJ_MASK | DDR_PHY_PIR_QSGATE_MASK | DDR_PHY_PIR_WL_MASK | DDR_PHY_PIR_DRAMINIT_MASK | DDR_PHY_PIR_DRAMRST_MASK | DDR_PHY_PIR_PHYRST_MASK | DDR_PHY_PIR_DCAL_MASK | DDR_PHY_PIR_PLLINIT_MASK | DDR_PHY_PIR_RESERVED_3_MASK | DDR_PHY_PIR_CA_MASK | DDR_PHY_PIR_ZCAL_MASK | DDR_PHY_PIR_INIT_MASK | 0 );
-
- RegVal = ((0x00000000U << DDR_PHY_PIR_RESERVED_31_SHIFT
- | 0x00000000U << DDR_PHY_PIR_ZCALBYP_SHIFT
- | 0x00000000U << DDR_PHY_PIR_DCALPSE_SHIFT
- | 0x00000000U << DDR_PHY_PIR_RESERVED_28_21_SHIFT
- | 0x00000000U << DDR_PHY_PIR_DQS2DQ_SHIFT
- | 0x00000000U << DDR_PHY_PIR_RDIMMINIT_SHIFT
- | 0x00000001U << DDR_PHY_PIR_CTLDINIT_SHIFT
- | 0x00000000U << DDR_PHY_PIR_VREF_SHIFT
- | 0x00000000U << DDR_PHY_PIR_SRD_SHIFT
- | 0x00000000U << DDR_PHY_PIR_WREYE_SHIFT
- | 0x00000000U << DDR_PHY_PIR_RDEYE_SHIFT
- | 0x00000000U << DDR_PHY_PIR_WRDSKW_SHIFT
- | 0x00000000U << DDR_PHY_PIR_RDDSKW_SHIFT
- | 0x00000000U << DDR_PHY_PIR_WLADJ_SHIFT
- | 0x00000000U << DDR_PHY_PIR_QSGATE_SHIFT
- | 0x00000000U << DDR_PHY_PIR_WL_SHIFT
- | 0x00000000U << DDR_PHY_PIR_DRAMINIT_SHIFT
- | 0x00000000U << DDR_PHY_PIR_DRAMRST_SHIFT
- | 0x00000001U << DDR_PHY_PIR_PHYRST_SHIFT
- | 0x00000001U << DDR_PHY_PIR_DCAL_SHIFT
- | 0x00000001U << DDR_PHY_PIR_PLLINIT_SHIFT
- | 0x00000000U << DDR_PHY_PIR_RESERVED_3_SHIFT
- | 0x00000000U << DDR_PHY_PIR_CA_SHIFT
- | 0x00000001U << DDR_PHY_PIR_ZCAL_SHIFT
- | 0x00000001U << DDR_PHY_PIR_INIT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DDR_PHY_PIR_OFFSET ,0xFFFFFFFFU ,0x00040073U);
- /*############################################################################################################################ */
+ * DAXT8 0-1 PLL Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD081444, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL1PLLCR0_OFFSET,
+ 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
+ /*
+ * Register : DX8SL1DQSCTL @ 0XFD08145C
- return 1;
-}
-unsigned long psu_mio_init_data() {
- // : MIO PROGRAMMING
- /*Register : MIO_PIN_0 @ 0XFF180000</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out- (QSPI Clock)
- PSU_IOU_SLCR_MIO_PIN_0_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_0_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[0]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[0]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_0_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[0]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[0]- (GPIO bank 0) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cloc
- ) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_
- lk- (Trace Port Clock)
- PSU_IOU_SLCR_MIO_PIN_0_L3_SEL 0
-
- Configures MIO Pin 0 peripheral interface mapping. S
- (OFFSET, MASK, VALUE) (0XFF180000, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_0_L0_SEL_MASK | IOU_SLCR_MIO_PIN_0_L1_SEL_MASK | IOU_SLCR_MIO_PIN_0_L2_SEL_MASK | IOU_SLCR_MIO_PIN_0_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_0_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_0_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_0_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_0_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_0_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_1 @ 0XFF180004</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_mi1- (QSPI Databus) 1= qspi, Output, qspi_so_mo1- (QSPI Data
- us)
- PSU_IOU_SLCR_MIO_PIN_1_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_1_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[1]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[1]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_1_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[1]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[1]- (GPIO bank 0) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_o
- t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control
- Signal)
- PSU_IOU_SLCR_MIO_PIN_1_L3_SEL 0
-
- Configures MIO Pin 1 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180004, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_1_L0_SEL_MASK | IOU_SLCR_MIO_PIN_1_L1_SEL_MASK | IOU_SLCR_MIO_PIN_1_L2_SEL_MASK | IOU_SLCR_MIO_PIN_1_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_1_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_1_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_1_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_1_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_1_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_2 @ 0XFF180008</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi2- (QSPI Databus) 1= qspi, Output, qspi_mo2- (QSPI Databus)
- PSU_IOU_SLCR_MIO_PIN_2_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_2_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[2]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[2]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_2_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[2]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[2]- (GPIO bank 0) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc2, Input, ttc2_clk_in
- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[0]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_2_L3_SEL 0
-
- Configures MIO Pin 2 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180008, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_2_L0_SEL_MASK | IOU_SLCR_MIO_PIN_2_L1_SEL_MASK | IOU_SLCR_MIO_PIN_2_L2_SEL_MASK | IOU_SLCR_MIO_PIN_2_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_2_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_2_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_2_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_2_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_2_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_3 @ 0XFF18000C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi3- (QSPI Databus) 1= qspi, Output, qspi_mo3- (QSPI Databus)
- PSU_IOU_SLCR_MIO_PIN_3_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_3_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[3]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[3]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_3_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[3]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[3]- (GPIO bank 0) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0
- - (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial
- output) 7= trace, Output, tracedq[1]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_3_L3_SEL 0
-
- Configures MIO Pin 3 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18000C, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_3_L0_SEL_MASK | IOU_SLCR_MIO_PIN_3_L1_SEL_MASK | IOU_SLCR_MIO_PIN_3_L2_SEL_MASK | IOU_SLCR_MIO_PIN_3_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_3_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_3_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_3_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_3_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_3_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_4 @ 0XFF180010</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_mo_mo0- (QSPI Databus) 1= qspi, Input, qspi_si_mi0- (QSPI Data
- us)
- PSU_IOU_SLCR_MIO_PIN_4_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_4_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[4]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[4]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_4_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[4]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[4]- (GPIO bank 0) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_s
- - (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace,
- utput, tracedq[2]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_4_L3_SEL 0
-
- Configures MIO Pin 4 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180010, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_4_L0_SEL_MASK | IOU_SLCR_MIO_PIN_4_L1_SEL_MASK | IOU_SLCR_MIO_PIN_4_L2_SEL_MASK | IOU_SLCR_MIO_PIN_4_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_4_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_4_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_4_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_4_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_4_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_5 @ 0XFF180014</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out- (QSPI Slave Select)
- PSU_IOU_SLCR_MIO_PIN_5_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_5_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[5]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[5]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_5_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[5]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[5]- (GPIO bank 0) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi0
- si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7
- trace, Output, tracedq[3]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_5_L3_SEL 0
-
- Configures MIO Pin 5 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180014, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_5_L0_SEL_MASK | IOU_SLCR_MIO_PIN_5_L1_SEL_MASK | IOU_SLCR_MIO_PIN_5_L2_SEL_MASK | IOU_SLCR_MIO_PIN_5_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_5_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_5_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_5_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_5_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_5_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_6 @ 0XFF180018</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_clk_for_lpbk- (QSPI Clock to be fed-back)
- PSU_IOU_SLCR_MIO_PIN_6_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_6_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[6]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[6]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_6_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[6]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[6]- (GPIO bank 0) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1
- sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace,
- Output, tracedq[4]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_6_L3_SEL 0
-
- Configures MIO Pin 6 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180018, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_6_L0_SEL_MASK | IOU_SLCR_MIO_PIN_6_L1_SEL_MASK | IOU_SLCR_MIO_PIN_6_L2_SEL_MASK | IOU_SLCR_MIO_PIN_6_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_6_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_6_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_6_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_6_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_6_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_7 @ 0XFF18001C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out_upper- (QSPI Slave Select upper)
- PSU_IOU_SLCR_MIO_PIN_7_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_7_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[7]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[7]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_7_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[7]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[7]- (GPIO bank 0) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5=
- tc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output,
- racedq[5]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_7_L3_SEL 0
-
- Configures MIO Pin 7 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18001C, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_7_L0_SEL_MASK | IOU_SLCR_MIO_PIN_7_L1_SEL_MASK | IOU_SLCR_MIO_PIN_7_L2_SEL_MASK | IOU_SLCR_MIO_PIN_7_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_7_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_7_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_7_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_7_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_7_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_8 @ 0XFF180020</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[0]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe
- [0]- (QSPI Upper Databus)
- PSU_IOU_SLCR_MIO_PIN_8_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_8_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[8]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[8]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_8_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[8]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[8]- (GPIO bank 0) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc
- , Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Tr
- ce Port Databus)
- PSU_IOU_SLCR_MIO_PIN_8_L3_SEL 0
-
- Configures MIO Pin 8 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180020, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_8_L0_SEL_MASK | IOU_SLCR_MIO_PIN_8_L1_SEL_MASK | IOU_SLCR_MIO_PIN_8_L2_SEL_MASK | IOU_SLCR_MIO_PIN_8_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_8_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_8_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_8_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_8_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_8_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_9 @ 0XFF180024</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[1]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe
- [1]- (QSPI Upper Databus)
- PSU_IOU_SLCR_MIO_PIN_9_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NAND chip enable)
- PSU_IOU_SLCR_MIO_PIN_9_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[9]- (Test Scan Port) = test_scan, Outp
- t, test_scan_out[9]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_9_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[9]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[9]- (GPIO bank 0) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1,
- utput, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (U
- RT receiver serial input) 7= trace, Output, tracedq[7]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_9_L3_SEL 0
-
- Configures MIO Pin 9 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180024, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_9_L0_SEL_MASK | IOU_SLCR_MIO_PIN_9_L1_SEL_MASK | IOU_SLCR_MIO_PIN_9_L2_SEL_MASK | IOU_SLCR_MIO_PIN_9_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_9_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_9_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_9_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_9_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_9_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_10 @ 0XFF180028</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[2]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe
- [2]- (QSPI Upper Databus)
- PSU_IOU_SLCR_MIO_PIN_10_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (NAND Ready/Busy)
- PSU_IOU_SLCR_MIO_PIN_10_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[10]- (Test Scan Port) = test_scan, Out
- ut, test_scan_out[10]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_10_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[10]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[10]- (GPIO bank 0) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_
- o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp
- t, tracedq[8]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_10_L3_SEL 0
-
- Configures MIO Pin 10 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180028, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_10_L0_SEL_MASK | IOU_SLCR_MIO_PIN_10_L1_SEL_MASK | IOU_SLCR_MIO_PIN_10_L2_SEL_MASK | IOU_SLCR_MIO_PIN_10_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_10_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_10_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_10_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_10_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_10_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_11 @ 0XFF18002C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[3]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_uppe
- [3]- (QSPI Upper Databus)
- PSU_IOU_SLCR_MIO_PIN_11_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (NAND Ready/Busy)
- PSU_IOU_SLCR_MIO_PIN_11_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[11]- (Test Scan Port) = test_scan, Out
- ut, test_scan_out[11]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_11_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[11]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[11]- (GPIO bank 0) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s
- i1_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o
- tput) 7= trace, Output, tracedq[9]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_11_L3_SEL 0
-
- Configures MIO Pin 11 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18002C, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_11_L0_SEL_MASK | IOU_SLCR_MIO_PIN_11_L1_SEL_MASK | IOU_SLCR_MIO_PIN_11_L2_SEL_MASK | IOU_SLCR_MIO_PIN_11_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_11_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_11_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_11_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_11_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_11_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_12 @ 0XFF180030</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out_upper- (QSPI Upper Clock)
- PSU_IOU_SLCR_MIO_PIN_12_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NAND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe
-
- PSU_IOU_SLCR_MIO_PIN_12_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input, test_scan_in[12]- (Test Scan Port) = test_scan, Out
- ut, test_scan_out[12]- (Test Scan Port) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_12_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[12]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[12]- (GPIO bank 0) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cl
- ck) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trac
- dq[10]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_12_L3_SEL 0
-
- Configures MIO Pin 12 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180030, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_12_L0_SEL_MASK | IOU_SLCR_MIO_PIN_12_L1_SEL_MASK | IOU_SLCR_MIO_PIN_12_L2_SEL_MASK | IOU_SLCR_MIO_PIN_12_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_12_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_12_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_12_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_12_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_12_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_13 @ 0XFF180034</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_13_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[0]- (NAND chip enable)
- PSU_IOU_SLCR_MIO_PIN_13_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[13]- (Test Scan Port) = test_scan, Output, test_scan_out[13]- (Test Scan Port
- 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_13_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[13]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[13]- (GPIO bank 0) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave
- out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, tracedq[11]- (Trace Port Dat
- bus)
- PSU_IOU_SLCR_MIO_PIN_13_L3_SEL 0
-
- Configures MIO Pin 13 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180034, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_13_L0_SEL_MASK | IOU_SLCR_MIO_PIN_13_L1_SEL_MASK | IOU_SLCR_MIO_PIN_13_L2_SEL_MASK | IOU_SLCR_MIO_PIN_13_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_13_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_13_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_13_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_13_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_13_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_14 @ 0XFF180038</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_14_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_cle- (NAND Command Latch Enable)
- PSU_IOU_SLCR_MIO_PIN_14_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[14]- (Test Scan Port) = test_scan, Output, test_scan_out[14]- (Test Scan Port
- 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_14_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[14]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[14]- (GPIO bank 0) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, Input, ttc0_clk_
- n- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_14_L3_SEL 2
-
- Configures MIO Pin 14 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180038, 0x000000FEU ,0x00000040U)
- RegMask = (IOU_SLCR_MIO_PIN_14_L0_SEL_MASK | IOU_SLCR_MIO_PIN_14_L1_SEL_MASK | IOU_SLCR_MIO_PIN_14_L2_SEL_MASK | IOU_SLCR_MIO_PIN_14_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_14_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_14_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_14_L2_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_14_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_14_OFFSET ,0x000000FEU ,0x00000040U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_15 @ 0XFF18003C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_15_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ale- (NAND Address Latch Enable)
- PSU_IOU_SLCR_MIO_PIN_15_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[15]- (Test Scan Port) = test_scan, Output, test_scan_out[15]- (Test Scan Port
- 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_15_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[15]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[15]- (GPIO bank 0) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out
- 0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter seri
- l output) 7= trace, Output, tracedq[13]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_15_L3_SEL 2
-
- Configures MIO Pin 15 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18003C, 0x000000FEU ,0x00000040U)
- RegMask = (IOU_SLCR_MIO_PIN_15_L0_SEL_MASK | IOU_SLCR_MIO_PIN_15_L1_SEL_MASK | IOU_SLCR_MIO_PIN_15_L2_SEL_MASK | IOU_SLCR_MIO_PIN_15_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_15_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_15_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_15_L2_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_15_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_15_OFFSET ,0x000000FEU ,0x00000040U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_16 @ 0XFF180040</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_16_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[0]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[0]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_16_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[16]- (Test Scan Port) = test_scan, Output, test_scan_out[16]- (Test Scan Port
- 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_16_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[16]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[16]- (GPIO bank 0) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0
- so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace
- Output, tracedq[14]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_16_L3_SEL 2
-
- Configures MIO Pin 16 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180040, 0x000000FEU ,0x00000040U)
- RegMask = (IOU_SLCR_MIO_PIN_16_L0_SEL_MASK | IOU_SLCR_MIO_PIN_16_L1_SEL_MASK | IOU_SLCR_MIO_PIN_16_L2_SEL_MASK | IOU_SLCR_MIO_PIN_16_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_16_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_16_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_16_L2_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_16_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_16_OFFSET ,0x000000FEU ,0x00000040U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_17 @ 0XFF180044</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_17_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[1]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[1]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_17_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[17]- (Test Scan Port) = test_scan, Output, test_scan_out[17]- (Test Scan Port
- 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_17_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[17]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[17]- (GPIO bank 0) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, sp
- 0_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
- 7= trace, Output, tracedq[15]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_17_L3_SEL 2
-
- Configures MIO Pin 17 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180044, 0x000000FEU ,0x00000040U)
- RegMask = (IOU_SLCR_MIO_PIN_17_L0_SEL_MASK | IOU_SLCR_MIO_PIN_17_L1_SEL_MASK | IOU_SLCR_MIO_PIN_17_L2_SEL_MASK | IOU_SLCR_MIO_PIN_17_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_17_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_17_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_17_L2_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_17_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_17_OFFSET ,0x000000FEU ,0x00000040U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_18 @ 0XFF180048</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_18_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[2]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[2]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_18_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[18]- (Test Scan Port) = test_scan, Output, test_scan_out[18]- (Test Scan Port
- 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_18_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[18]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[18]- (GPIO bank 0) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_
- o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_18_L3_SEL 6
-
- Configures MIO Pin 18 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180048, 0x000000FEU ,0x000000C0U)
- RegMask = (IOU_SLCR_MIO_PIN_18_L0_SEL_MASK | IOU_SLCR_MIO_PIN_18_L1_SEL_MASK | IOU_SLCR_MIO_PIN_18_L2_SEL_MASK | IOU_SLCR_MIO_PIN_18_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_18_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_18_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_18_L2_SEL_SHIFT
- | 0x00000006U << IOU_SLCR_MIO_PIN_18_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_18_OFFSET ,0x000000FEU ,0x000000C0U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_19 @ 0XFF18004C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_19_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[3]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[3]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_19_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[19]- (Test Scan Port) = test_scan, Output, test_scan_out[19]- (Test Scan Port
- 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_19_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[19]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[19]- (GPIO bank 0) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5
- ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_19_L3_SEL 6
-
- Configures MIO Pin 19 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18004C, 0x000000FEU ,0x000000C0U)
- RegMask = (IOU_SLCR_MIO_PIN_19_L0_SEL_MASK | IOU_SLCR_MIO_PIN_19_L1_SEL_MASK | IOU_SLCR_MIO_PIN_19_L2_SEL_MASK | IOU_SLCR_MIO_PIN_19_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_19_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_19_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_19_L2_SEL_SHIFT
- | 0x00000006U << IOU_SLCR_MIO_PIN_19_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_19_OFFSET ,0x000000FEU ,0x000000C0U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_20 @ 0XFF180050</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_20_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[4]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[4]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_20_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8
- bit Data bus) 2= test_scan, Input, test_scan_in[20]- (Test Scan Port) = test_scan, Output, test_scan_out[20]- (Test Scan Port
- 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_20_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[20]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[20]- (GPIO bank 0) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= t
- c1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_20_L3_SEL 6
-
- Configures MIO Pin 20 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180050, 0x000000FEU ,0x000000C0U)
- RegMask = (IOU_SLCR_MIO_PIN_20_L0_SEL_MASK | IOU_SLCR_MIO_PIN_20_L1_SEL_MASK | IOU_SLCR_MIO_PIN_20_L2_SEL_MASK | IOU_SLCR_MIO_PIN_20_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_20_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_20_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_20_L2_SEL_SHIFT
- | 0x00000006U << IOU_SLCR_MIO_PIN_20_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_20_OFFSET ,0x000000FEU ,0x000000C0U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_21 @ 0XFF180054</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_21_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[5]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[5]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_21_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman
- Indicator) 2= test_scan, Input, test_scan_in[21]- (Test Scan Port) = test_scan, Output, test_scan_out[21]- (Test Scan Port)
- = csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_21_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[21]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[21]- (GPIO bank 0) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1
- Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd-
- UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_21_L3_SEL 6
-
- Configures MIO Pin 21 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180054, 0x000000FEU ,0x000000C0U)
- RegMask = (IOU_SLCR_MIO_PIN_21_L0_SEL_MASK | IOU_SLCR_MIO_PIN_21_L1_SEL_MASK | IOU_SLCR_MIO_PIN_21_L2_SEL_MASK | IOU_SLCR_MIO_PIN_21_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_21_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_21_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_21_L2_SEL_SHIFT
- | 0x00000006U << IOU_SLCR_MIO_PIN_21_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_21_OFFSET ,0x000000FEU ,0x000000C0U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_22 @ 0XFF180058</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_22_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_we_b- (NAND Write Enable)
- PSU_IOU_SLCR_MIO_PIN_22_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= test_scan, Input, test_scan_in[22]-
- (Test Scan Port) = test_scan, Output, test_scan_out[22]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_22_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[22]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[22]- (GPIO bank 0) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, sp
- 1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not
- sed
- PSU_IOU_SLCR_MIO_PIN_22_L3_SEL 0
-
- Configures MIO Pin 22 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180058, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_22_L0_SEL_MASK | IOU_SLCR_MIO_PIN_22_L1_SEL_MASK | IOU_SLCR_MIO_PIN_22_L2_SEL_MASK | IOU_SLCR_MIO_PIN_22_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_22_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_22_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_22_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_22_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_22_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_23 @ 0XFF18005C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_23_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[6]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[6]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_23_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= test_scan, Input, test_scan_in
- 23]- (Test Scan Port) = test_scan, Output, test_scan_out[23]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper
-
- PSU_IOU_SLCR_MIO_PIN_23_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[23]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[23]- (GPIO bank 0) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s
- i1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o
- tput) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_23_L3_SEL 0
-
- Configures MIO Pin 23 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18005C, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_23_L0_SEL_MASK | IOU_SLCR_MIO_PIN_23_L1_SEL_MASK | IOU_SLCR_MIO_PIN_23_L2_SEL_MASK | IOU_SLCR_MIO_PIN_23_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_23_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_23_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_23_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_23_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_23_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_24 @ 0XFF180060</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_24_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[7]- (NAND Data Bus) 1= nand, Output, nfc_dq_out[7]- (NAND
- ata Bus)
- PSU_IOU_SLCR_MIO_PIN_24_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= test_scan, Input, test
- scan_in[24]- (Test Scan Port) = test_scan, Output, test_scan_out[24]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ex
- Tamper)
- PSU_IOU_SLCR_MIO_PIN_24_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[24]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[24]- (GPIO bank 0) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= Not Used 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1,
- Output, ua1_txd- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_24_L3_SEL 1
-
- Configures MIO Pin 24 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180060, 0x000000FEU ,0x00000020U)
- RegMask = (IOU_SLCR_MIO_PIN_24_L0_SEL_MASK | IOU_SLCR_MIO_PIN_24_L1_SEL_MASK | IOU_SLCR_MIO_PIN_24_L2_SEL_MASK | IOU_SLCR_MIO_PIN_24_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_24_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_24_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_24_L2_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_24_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_24_OFFSET ,0x000000FEU ,0x00000020U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_25 @ 0XFF180064</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_25_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_re_n- (NAND Read Enable)
- PSU_IOU_SLCR_MIO_PIN_25_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= test_scan, Input,
- test_scan_in[25]- (Test Scan Port) = test_scan, Output, test_scan_out[25]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (C
- U Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_25_L2_SEL 0
-
- Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[25]- (GPIO bank 0) 0= gpio0, Output, gpio_0_pin_out[25]- (GPIO bank 0) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= Not Used 5= ttc3, Output, ttc3_wave_out- (TTC Waveform
- lock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_25_L3_SEL 1
-
- Configures MIO Pin 25 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180064, 0x000000FEU ,0x00000020U)
- RegMask = (IOU_SLCR_MIO_PIN_25_L0_SEL_MASK | IOU_SLCR_MIO_PIN_25_L1_SEL_MASK | IOU_SLCR_MIO_PIN_25_L2_SEL_MASK | IOU_SLCR_MIO_PIN_25_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_25_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_25_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_25_L2_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_25_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_25_OFFSET ,0x000000FEU ,0x00000020U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_26 @ 0XFF180068</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_clk- (TX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_26_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NAND chip enable)
- PSU_IOU_SLCR_MIO_PIN_26_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[0]- (PMU GPI) 2= test_scan, Input, test_scan_in[26]- (Test Sc
- n Port) = test_scan, Output, test_scan_out[26]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_26_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[0]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[0]- (GPIO bank 1) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Clock
- 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]-
- Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_26_L3_SEL 0
-
- Configures MIO Pin 26 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180068, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_26_L0_SEL_MASK | IOU_SLCR_MIO_PIN_26_L1_SEL_MASK | IOU_SLCR_MIO_PIN_26_L2_SEL_MASK | IOU_SLCR_MIO_PIN_26_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_26_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_26_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_26_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_26_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_26_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_27 @ 0XFF18006C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[0]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_27_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (NAND Ready/Busy)
- PSU_IOU_SLCR_MIO_PIN_27_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[1]- (PMU GPI) 2= test_scan, Input, test_scan_in[27]- (Test Sc
- n Port) = test_scan, Output, test_scan_out[27]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Outp
- t, dp_aux_data_out- (Dp Aux Data)
- PSU_IOU_SLCR_MIO_PIN_27_L2_SEL 3
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[1]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[1]- (GPIO bank 1) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_
- ut- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port
- atabus)
- PSU_IOU_SLCR_MIO_PIN_27_L3_SEL 0
-
- Configures MIO Pin 27 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18006C, 0x000000FEU ,0x00000018U)
- RegMask = (IOU_SLCR_MIO_PIN_27_L0_SEL_MASK | IOU_SLCR_MIO_PIN_27_L1_SEL_MASK | IOU_SLCR_MIO_PIN_27_L2_SEL_MASK | IOU_SLCR_MIO_PIN_27_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_27_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_27_L1_SEL_SHIFT
- | 0x00000003U << IOU_SLCR_MIO_PIN_27_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_27_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_27_OFFSET ,0x000000FEU ,0x00000018U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_28 @ 0XFF180070</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[1]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_28_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (NAND Ready/Busy)
- PSU_IOU_SLCR_MIO_PIN_28_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[2]- (PMU GPI) 2= test_scan, Input, test_scan_in[28]- (Test Sc
- n Port) = test_scan, Output, test_scan_out[28]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)
- PSU_IOU_SLCR_MIO_PIN_28_L2_SEL 3
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[2]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[2]- (GPIO bank 1) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc1, Input, ttc1_clk_i
- - (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_28_L3_SEL 0
-
- Configures MIO Pin 28 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180070, 0x000000FEU ,0x00000018U)
- RegMask = (IOU_SLCR_MIO_PIN_28_L0_SEL_MASK | IOU_SLCR_MIO_PIN_28_L1_SEL_MASK | IOU_SLCR_MIO_PIN_28_L2_SEL_MASK | IOU_SLCR_MIO_PIN_28_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_28_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_28_L1_SEL_SHIFT
- | 0x00000003U << IOU_SLCR_MIO_PIN_28_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_28_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_28_OFFSET ,0x000000FEU ,0x00000018U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_29 @ 0XFF180074</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[2]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_29_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_29_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[3]- (PMU GPI) 2= test_scan, Input, test_scan_in[29]- (Test Sc
- n Port) = test_scan, Output, test_scan_out[29]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Outp
- t, dp_aux_data_out- (Dp Aux Data)
- PSU_IOU_SLCR_MIO_PIN_29_L2_SEL 3
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[3]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[3]- (GPIO bank 1) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0]
- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inpu
- ) 7= trace, Output, tracedq[7]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_29_L3_SEL 0
-
- Configures MIO Pin 29 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180074, 0x000000FEU ,0x00000018U)
- RegMask = (IOU_SLCR_MIO_PIN_29_L0_SEL_MASK | IOU_SLCR_MIO_PIN_29_L1_SEL_MASK | IOU_SLCR_MIO_PIN_29_L2_SEL_MASK | IOU_SLCR_MIO_PIN_29_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_29_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_29_L1_SEL_SHIFT
- | 0x00000003U << IOU_SLCR_MIO_PIN_29_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_29_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_29_OFFSET ,0x000000FEU ,0x00000018U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_30 @ 0XFF180078</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd[3]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_30_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_30_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[4]- (PMU GPI) 2= test_scan, Input, test_scan_in[30]- (Test Sc
- n Port) = test_scan, Output, test_scan_out[30]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)
- PSU_IOU_SLCR_MIO_PIN_30_L2_SEL 3
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[4]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[4]- (GPIO bank 1) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_so
- (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output
- tracedq[8]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_30_L3_SEL 0
-
- Configures MIO Pin 30 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180078, 0x000000FEU ,0x00000018U)
- RegMask = (IOU_SLCR_MIO_PIN_30_L0_SEL_MASK | IOU_SLCR_MIO_PIN_30_L1_SEL_MASK | IOU_SLCR_MIO_PIN_30_L2_SEL_MASK | IOU_SLCR_MIO_PIN_30_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_30_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_30_L1_SEL_SHIFT
- | 0x00000003U << IOU_SLCR_MIO_PIN_30_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_30_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_30_OFFSET ,0x000000FEU ,0x00000018U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_31 @ 0XFF18007C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_ctl- (TX RGMII control)
- PSU_IOU_SLCR_MIO_PIN_31_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_31_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[5]- (PMU GPI) 2= test_scan, Input, test_scan_in[31]- (Test Sc
- n Port) = test_scan, Output, test_scan_out[31]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_31_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[5]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[5]- (GPIO bank 1) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi
- _si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial out
- ut) 7= trace, Output, tracedq[9]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_31_L3_SEL 0
-
- Configures MIO Pin 31 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18007C, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_31_L0_SEL_MASK | IOU_SLCR_MIO_PIN_31_L1_SEL_MASK | IOU_SLCR_MIO_PIN_31_L2_SEL_MASK | IOU_SLCR_MIO_PIN_31_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_31_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_31_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_31_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_31_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_31_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_32 @ 0XFF180080</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_clk- (RX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_32_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NAND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe
-
- PSU_IOU_SLCR_MIO_PIN_32_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[0]- (PMU GPI) 2= test_scan, Input, test_scan_in[32]- (Test S
- an Port) = test_scan, Output, test_scan_out[32]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_32_L2_SEL 1
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[6]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[6]- (GPIO bank 1) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi
- _sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7=
- race, Output, tracedq[10]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_32_L3_SEL 0
-
- Configures MIO Pin 32 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180080, 0x000000FEU ,0x00000008U)
- RegMask = (IOU_SLCR_MIO_PIN_32_L0_SEL_MASK | IOU_SLCR_MIO_PIN_32_L1_SEL_MASK | IOU_SLCR_MIO_PIN_32_L2_SEL_MASK | IOU_SLCR_MIO_PIN_32_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_32_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_32_L1_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_32_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_32_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_32_OFFSET ,0x000000FEU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_33 @ 0XFF180084</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[0]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_33_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_33_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[1]- (PMU GPI) 2= test_scan, Input, test_scan_in[33]- (Test S
- an Port) = test_scan, Output, test_scan_out[33]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
- PSU_IOU_SLCR_MIO_PIN_33_L2_SEL 1
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[7]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[7]- (GPIO bank 1) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= t
- c3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, traced
- [11]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_33_L3_SEL 0
-
- Configures MIO Pin 33 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180084, 0x000000FEU ,0x00000008U)
- RegMask = (IOU_SLCR_MIO_PIN_33_L0_SEL_MASK | IOU_SLCR_MIO_PIN_33_L1_SEL_MASK | IOU_SLCR_MIO_PIN_33_L2_SEL_MASK | IOU_SLCR_MIO_PIN_33_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_33_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_33_L1_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_33_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_33_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_33_OFFSET ,0x000000FEU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_34 @ 0XFF180088</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[1]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_34_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_34_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[2]- (PMU GPI) 2= test_scan, Input, test_scan_in[34]- (Test S
- an Port) = test_scan, Output, test_scan_out[34]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Out
- ut, dp_aux_data_out- (Dp Aux Data)
- PSU_IOU_SLCR_MIO_PIN_34_L2_SEL 1
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[8]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[8]- (GPIO bank 1) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc2
- Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace P
- rt Databus)
- PSU_IOU_SLCR_MIO_PIN_34_L3_SEL 0
-
- Configures MIO Pin 34 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180088, 0x000000FEU ,0x00000008U)
- RegMask = (IOU_SLCR_MIO_PIN_34_L0_SEL_MASK | IOU_SLCR_MIO_PIN_34_L1_SEL_MASK | IOU_SLCR_MIO_PIN_34_L2_SEL_MASK | IOU_SLCR_MIO_PIN_34_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_34_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_34_L1_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_34_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_34_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_34_OFFSET ,0x000000FEU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_35 @ 0XFF18008C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[2]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_35_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_35_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[3]- (PMU GPI) 2= test_scan, Input, test_scan_in[35]- (Test S
- an Port) = test_scan, Output, test_scan_out[35]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)
- PSU_IOU_SLCR_MIO_PIN_35_L2_SEL 1
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[9]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[9]- (GPIO bank 1) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1,
- Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd-
- UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_35_L3_SEL 0
-
- Configures MIO Pin 35 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18008C, 0x000000FEU ,0x00000008U)
- RegMask = (IOU_SLCR_MIO_PIN_35_L0_SEL_MASK | IOU_SLCR_MIO_PIN_35_L1_SEL_MASK | IOU_SLCR_MIO_PIN_35_L2_SEL_MASK | IOU_SLCR_MIO_PIN_35_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_35_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_35_L1_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_35_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_35_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_35_OFFSET ,0x000000FEU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_36 @ 0XFF180090</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[3]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_36_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_36_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[4]- (PMU GPI) 2= test_scan, Input, test_scan_in[36]- (Test S
- an Port) = test_scan, Output, test_scan_out[36]- (Test Scan Port) 3= dpaux, Input, dp_aux_data_in- (Dp Aux Data) = dpaux, Out
- ut, dp_aux_data_out- (Dp Aux Data)
- PSU_IOU_SLCR_MIO_PIN_36_L2_SEL 1
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[10]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[10]- (GPIO bank 1) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1
- so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace
- Output, tracedq[14]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_36_L3_SEL 0
-
- Configures MIO Pin 36 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180090, 0x000000FEU ,0x00000008U)
- RegMask = (IOU_SLCR_MIO_PIN_36_L0_SEL_MASK | IOU_SLCR_MIO_PIN_36_L1_SEL_MASK | IOU_SLCR_MIO_PIN_36_L2_SEL_MASK | IOU_SLCR_MIO_PIN_36_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_36_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_36_L1_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_36_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_36_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_36_OFFSET ,0x000000FEU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_37 @ 0XFF180094</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_ctl- (RX RGMII control )
- PSU_IOU_SLCR_MIO_PIN_37_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (PCIE Reset signal)
- PSU_IOU_SLCR_MIO_PIN_37_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[5]- (PMU GPI) 2= test_scan, Input, test_scan_in[37]- (Test S
- an Port) = test_scan, Output, test_scan_out[37]- (Test Scan Port) 3= dpaux, Input, dp_hot_plug_detect- (Dp Aux Hot Plug)
- PSU_IOU_SLCR_MIO_PIN_37_L2_SEL 1
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[11]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[11]- (GPIO bank 1) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, sp
- 1_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
- 7= trace, Output, tracedq[15]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_37_L3_SEL 0
-
- Configures MIO Pin 37 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180094, 0x000000FEU ,0x00000008U)
- RegMask = (IOU_SLCR_MIO_PIN_37_L0_SEL_MASK | IOU_SLCR_MIO_PIN_37_L1_SEL_MASK | IOU_SLCR_MIO_PIN_37_L2_SEL_MASK | IOU_SLCR_MIO_PIN_37_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_37_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_37_L1_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_37_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_37_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_37_OFFSET ,0x000000FEU ,0x00000008U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_38 @ 0XFF180098</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_clk- (TX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_38_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_38_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_38_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[12]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[12]- (GPIO bank 1) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Clo
- k) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, trace_clk-
- (Trace Port Clock)
- PSU_IOU_SLCR_MIO_PIN_38_L3_SEL 0
-
- Configures MIO Pin 38 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180098, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_38_L0_SEL_MASK | IOU_SLCR_MIO_PIN_38_L1_SEL_MASK | IOU_SLCR_MIO_PIN_38_L2_SEL_MASK | IOU_SLCR_MIO_PIN_38_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_38_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_38_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_38_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_38_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_38_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_39 @ 0XFF18009C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[0]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_39_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_39_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= sd1, Input, sd1_data_i
- [4]- (8-bit Data bus) = sd1, Output, sdio1_data_out[4]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_39_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[13]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[13]- (GPIO bank 1) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc0, Output, ttc0_wav
- _out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, trace_ctl- (Trace Port
- Control Signal)
- PSU_IOU_SLCR_MIO_PIN_39_L3_SEL 0
-
- Configures MIO Pin 39 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18009C, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_39_L0_SEL_MASK | IOU_SLCR_MIO_PIN_39_L1_SEL_MASK | IOU_SLCR_MIO_PIN_39_L2_SEL_MASK | IOU_SLCR_MIO_PIN_39_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_39_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_39_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_39_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_39_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_39_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_40 @ 0XFF1800A0</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[1]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_40_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_40_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman
- Indicator) 2= sd1, Input, sd1_data_in[5]- (8-bit Data bus) = sd1, Output, sdio1_data_out[5]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_40_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[14]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[14]- (GPIO bank 1) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc3, Input, ttc3_clk
- in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[0]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_40_L3_SEL 0
-
- Configures MIO Pin 40 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800A0, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_40_L0_SEL_MASK | IOU_SLCR_MIO_PIN_40_L1_SEL_MASK | IOU_SLCR_MIO_PIN_40_L2_SEL_MASK | IOU_SLCR_MIO_PIN_40_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_40_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_40_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_40_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_40_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_40_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_41 @ 0XFF1800A4</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[2]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_41_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_41_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[6]- (8-bit Data bus) = sd1, Output, sdio1_data_out[6]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_41_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[15]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[15]- (GPIO bank 1) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[
- ]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial in
- ut) 7= trace, Output, tracedq[1]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_41_L3_SEL 0
-
- Configures MIO Pin 41 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800A4, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_41_L0_SEL_MASK | IOU_SLCR_MIO_PIN_41_L1_SEL_MASK | IOU_SLCR_MIO_PIN_41_L2_SEL_MASK | IOU_SLCR_MIO_PIN_41_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_41_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_41_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_41_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_41_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_41_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_42 @ 0XFF1800A8</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd[3]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_42_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_42_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[7]- (8-bit Data bus) = sd1, Output, sdio1_data_out[7]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_42_L2_SEL 0
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[16]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[16]- (GPIO bank 1) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_
- o- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp
- t, tracedq[2]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_42_L3_SEL 0
-
- Configures MIO Pin 42 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800A8, 0x000000FEU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_PIN_42_L0_SEL_MASK | IOU_SLCR_MIO_PIN_42_L1_SEL_MASK | IOU_SLCR_MIO_PIN_42_L2_SEL_MASK | IOU_SLCR_MIO_PIN_42_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_42_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_42_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_42_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_42_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_42_OFFSET ,0x000000FEU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_43 @ 0XFF1800AC</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_ctl- (TX RGMII control)
- PSU_IOU_SLCR_MIO_PIN_43_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_43_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8
- bit Data bus) 2= sd1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_43_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[17]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[17]- (GPIO bank 1) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, s
- i0_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o
- tput) 7= trace, Output, tracedq[3]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_43_L3_SEL 0
-
- Configures MIO Pin 43 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800AC, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_43_L0_SEL_MASK | IOU_SLCR_MIO_PIN_43_L1_SEL_MASK | IOU_SLCR_MIO_PIN_43_L2_SEL_MASK | IOU_SLCR_MIO_PIN_43_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_43_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_43_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_43_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_43_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_43_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_44 @ 0XFF1800B0</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_clk- (RX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_44_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_44_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8
- bit Data bus) 2= sd1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_44_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[18]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[18]- (GPIO bank 1) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, s
- i1_sclk_out- (SPI Clock) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7
- Not Used
- PSU_IOU_SLCR_MIO_PIN_44_L3_SEL 0
-
- Configures MIO Pin 44 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800B0, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_44_L0_SEL_MASK | IOU_SLCR_MIO_PIN_44_L1_SEL_MASK | IOU_SLCR_MIO_PIN_44_L2_SEL_MASK | IOU_SLCR_MIO_PIN_44_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_44_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_44_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_44_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_44_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_44_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_45 @ 0XFF1800B4</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[0]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_45_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_45_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8
- bit Data bus) 2= sd1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_45_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[19]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[19]- (GPIO bank 1) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5=
- ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_45_L3_SEL 0
-
- Configures MIO Pin 45 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800B4, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_45_L0_SEL_MASK | IOU_SLCR_MIO_PIN_45_L1_SEL_MASK | IOU_SLCR_MIO_PIN_45_L2_SEL_MASK | IOU_SLCR_MIO_PIN_45_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_45_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_45_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_45_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_45_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_45_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_46 @ 0XFF1800B8</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[1]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_46_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_46_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_out[0]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_46_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[20]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[20]- (GPIO bank 1) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= tt
- 0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_46_L3_SEL 0
-
- Configures MIO Pin 46 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800B8, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_46_L0_SEL_MASK | IOU_SLCR_MIO_PIN_46_L1_SEL_MASK | IOU_SLCR_MIO_PIN_46_L2_SEL_MASK | IOU_SLCR_MIO_PIN_46_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_46_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_46_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_46_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_46_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_46_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_47 @ 0XFF1800BC</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[2]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_47_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_47_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_out[1]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_47_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[21]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[21]- (GPIO bank 1) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi
- , Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd
- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_47_L3_SEL 0
-
- Configures MIO Pin 47 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800BC, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_47_L0_SEL_MASK | IOU_SLCR_MIO_PIN_47_L1_SEL_MASK | IOU_SLCR_MIO_PIN_47_L2_SEL_MASK | IOU_SLCR_MIO_PIN_47_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_47_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_47_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_47_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_47_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_47_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_48 @ 0XFF1800C0</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[3]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_48_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_48_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_out[2]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_48_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[22]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[22]- (GPIO bank 1) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1
- so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not U
- ed
- PSU_IOU_SLCR_MIO_PIN_48_L3_SEL 0
-
- Configures MIO Pin 48 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800C0, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_48_L0_SEL_MASK | IOU_SLCR_MIO_PIN_48_L1_SEL_MASK | IOU_SLCR_MIO_PIN_48_L2_SEL_MASK | IOU_SLCR_MIO_PIN_48_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_48_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_48_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_48_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_48_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_48_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_49 @ 0XFF1800C4</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_ctl- (RX RGMII control )
- PSU_IOU_SLCR_MIO_PIN_49_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_49_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= sd1, Input, sd1_data_in[3]- (8
- bit Data bus) = sd1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_49_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[23]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[23]- (GPIO bank 1) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, sp
- 1_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
- 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_49_L3_SEL 0
-
- Configures MIO Pin 49 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800C4, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_49_L0_SEL_MASK | IOU_SLCR_MIO_PIN_49_L1_SEL_MASK | IOU_SLCR_MIO_PIN_49_L2_SEL_MASK | IOU_SLCR_MIO_PIN_49_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_49_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_49_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_49_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_49_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_49_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_50 @ 0XFF1800C8</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk- (TSU clock)
- PSU_IOU_SLCR_MIO_PIN_50_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_50_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= sd1, Input, sd1_c
- d_in- (Command Indicator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_50_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[24]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[24]- (GPIO bank 1) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= ttc2, Input, ttc2
- clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_50_L3_SEL 0
-
- Configures MIO Pin 50 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800C8, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_50_L0_SEL_MASK | IOU_SLCR_MIO_PIN_50_L1_SEL_MASK | IOU_SLCR_MIO_PIN_50_L2_SEL_MASK | IOU_SLCR_MIO_PIN_50_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_50_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_50_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_50_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_50_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_50_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_51 @ 0XFF1800CC</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk- (TSU clock)
- PSU_IOU_SLCR_MIO_PIN_51_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_51_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Output, sdio1_clk_out- (SDSDIO clock) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_51_L2_SEL 2
-
- Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[25]- (GPIO bank 1) 0= gpio1, Output, gpio_1_pin_out[25]- (GPIO bank 1) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= mdio1, Input, gem1_mdio_in- (MDIO Data) 4= mdio1, Outp
- t, gem1_mdio_out- (MDIO Data) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter
- serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_51_L3_SEL 0
-
- Configures MIO Pin 51 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800CC, 0x000000FEU ,0x00000010U)
- RegMask = (IOU_SLCR_MIO_PIN_51_L0_SEL_MASK | IOU_SLCR_MIO_PIN_51_L1_SEL_MASK | IOU_SLCR_MIO_PIN_51_L2_SEL_MASK | IOU_SLCR_MIO_PIN_51_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_51_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_51_L1_SEL_SHIFT
- | 0x00000002U << IOU_SLCR_MIO_PIN_51_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_51_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_51_OFFSET ,0x000000FEU ,0x00000010U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_52 @ 0XFF1800D0</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_clk- (TX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_52_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_clk_in- (ULPI Clock)
- PSU_IOU_SLCR_MIO_PIN_52_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_52_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[0]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[0]- (GPIO bank 2) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sclk_out- (SPI Cloc
- ) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_
- lk- (Trace Port Clock)
- PSU_IOU_SLCR_MIO_PIN_52_L3_SEL 0
-
- Configures MIO Pin 52 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800D0, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_52_L0_SEL_MASK | IOU_SLCR_MIO_PIN_52_L1_SEL_MASK | IOU_SLCR_MIO_PIN_52_L2_SEL_MASK | IOU_SLCR_MIO_PIN_52_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_52_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_52_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_52_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_52_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_52_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_53 @ 0XFF1800D4</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[0]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_53_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_dir- (Data bus direction control)
- PSU_IOU_SLCR_MIO_PIN_53_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_53_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[1]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[1]- (GPIO bank 2) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_o
- t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control
- Signal)
- PSU_IOU_SLCR_MIO_PIN_53_L3_SEL 0
-
- Configures MIO Pin 53 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800D4, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_53_L0_SEL_MASK | IOU_SLCR_MIO_PIN_53_L1_SEL_MASK | IOU_SLCR_MIO_PIN_53_L2_SEL_MASK | IOU_SLCR_MIO_PIN_53_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_53_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_53_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_53_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_53_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_53_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_54 @ 0XFF1800D8</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[1]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_54_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[2]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[2]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_54_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_54_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[2]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[2]- (GPIO bank 2) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, Input, ttc0_clk_in
- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[0]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_54_L3_SEL 0
-
- Configures MIO Pin 54 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800D8, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_54_L0_SEL_MASK | IOU_SLCR_MIO_PIN_54_L1_SEL_MASK | IOU_SLCR_MIO_PIN_54_L2_SEL_MASK | IOU_SLCR_MIO_PIN_54_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_54_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_54_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_54_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_54_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_54_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_55 @ 0XFF1800DC</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[2]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_55_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_nxt- (Data flow control signal from the PHY)
- PSU_IOU_SLCR_MIO_PIN_55_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_55_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[3]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[3]- (GPIO bank 2) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output, spi0_n_ss_out[0
- - (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial
- output) 7= trace, Output, tracedq[1]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_55_L3_SEL 0
-
- Configures MIO Pin 55 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800DC, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_55_L0_SEL_MASK | IOU_SLCR_MIO_PIN_55_L1_SEL_MASK | IOU_SLCR_MIO_PIN_55_L2_SEL_MASK | IOU_SLCR_MIO_PIN_55_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_55_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_55_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_55_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_55_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_55_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_56 @ 0XFF1800E0</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd[3]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_56_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[0]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[0]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_56_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_56_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[4]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[4]- (GPIO bank 2) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0_s
- - (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace,
- utput, tracedq[2]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_56_L3_SEL 0
-
- Configures MIO Pin 56 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800E0, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_56_L0_SEL_MASK | IOU_SLCR_MIO_PIN_56_L1_SEL_MASK | IOU_SLCR_MIO_PIN_56_L2_SEL_MASK | IOU_SLCR_MIO_PIN_56_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_56_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_56_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_56_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_56_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_56_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_57 @ 0XFF1800E4</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_ctl- (TX RGMII control)
- PSU_IOU_SLCR_MIO_PIN_57_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[1]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[1]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_57_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_57_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[5]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[5]- (GPIO bank 2) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, spi0
- si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7
- trace, Output, tracedq[3]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_57_L3_SEL 0
-
- Configures MIO Pin 57 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800E4, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_57_L0_SEL_MASK | IOU_SLCR_MIO_PIN_57_L1_SEL_MASK | IOU_SLCR_MIO_PIN_57_L2_SEL_MASK | IOU_SLCR_MIO_PIN_57_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_57_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_57_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_57_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_57_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_57_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_58 @ 0XFF1800E8</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_clk- (RX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_58_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Output, usb0_ulpi_stp- (Asserted to end or interrupt transfers)
- PSU_IOU_SLCR_MIO_PIN_58_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_58_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[6]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[6]- (GPIO bank 2) 1= can
- , Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL signal
- 3= pjtag, Input, pjtag_tck- (PJTAG TCK) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1_sclk_out- (SPI Clock
- 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]-
- Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_58_L3_SEL 0
-
- Configures MIO Pin 58 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800E8, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_58_L0_SEL_MASK | IOU_SLCR_MIO_PIN_58_L1_SEL_MASK | IOU_SLCR_MIO_PIN_58_L2_SEL_MASK | IOU_SLCR_MIO_PIN_58_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_58_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_58_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_58_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_58_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_58_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_59 @ 0XFF1800EC</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[0]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_59_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[3]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[3]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_59_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_59_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[7]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[7]- (GPIO bank 2) 1= can
- , Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA signa
- ) 3= pjtag, Input, pjtag_tdi- (PJTAG TDI) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_
- ut- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port
- atabus)
- PSU_IOU_SLCR_MIO_PIN_59_L3_SEL 0
-
- Configures MIO Pin 59 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800EC, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_59_L0_SEL_MASK | IOU_SLCR_MIO_PIN_59_L1_SEL_MASK | IOU_SLCR_MIO_PIN_59_L2_SEL_MASK | IOU_SLCR_MIO_PIN_59_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_59_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_59_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_59_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_59_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_59_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_60 @ 0XFF1800F0</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[1]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_60_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[4]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[4]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_60_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_60_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[8]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[8]- (GPIO bank 2) 1= can
- , Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL signa
- ) 3= pjtag, Output, pjtag_tdo- (PJTAG TDO) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc1, Input, ttc1_clk_i
- - (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_60_L3_SEL 0
-
- Configures MIO Pin 60 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800F0, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_60_L0_SEL_MASK | IOU_SLCR_MIO_PIN_60_L1_SEL_MASK | IOU_SLCR_MIO_PIN_60_L2_SEL_MASK | IOU_SLCR_MIO_PIN_60_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_60_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_60_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_60_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_60_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_60_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_61 @ 0XFF1800F4</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[2]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_61_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[5]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[5]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_61_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_61_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[9]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[9]- (GPIO bank 2) 1= can
- , Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA signal
- 3= pjtag, Input, pjtag_tms- (PJTAG TMS) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, Output, spi1_n_ss_out[0]
- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inpu
- ) 7= trace, Output, tracedq[7]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_61_L3_SEL 0
-
- Configures MIO Pin 61 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800F4, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_61_L0_SEL_MASK | IOU_SLCR_MIO_PIN_61_L1_SEL_MASK | IOU_SLCR_MIO_PIN_61_L2_SEL_MASK | IOU_SLCR_MIO_PIN_61_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_61_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_61_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_61_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_61_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_61_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_62 @ 0XFF1800F8</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[3]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_62_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[6]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[6]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_62_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_62_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[10]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[10]- (GPIO bank 2) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_
- o- (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outp
- t, tracedq[8]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_62_L3_SEL 0
-
- Configures MIO Pin 62 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800F8, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_62_L0_SEL_MASK | IOU_SLCR_MIO_PIN_62_L1_SEL_MASK | IOU_SLCR_MIO_PIN_62_L2_SEL_MASK | IOU_SLCR_MIO_PIN_62_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_62_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_62_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_62_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_62_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_62_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_63 @ 0XFF1800FC</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_ctl- (RX RGMII control )
- PSU_IOU_SLCR_MIO_PIN_63_L0_SEL 0
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_data[7]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_
- ata[7]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_63_L1_SEL 1
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_63_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[11]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[11]- (GPIO bank 2) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s
- i1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial o
- tput) 7= trace, Output, tracedq[9]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_63_L3_SEL 0
-
- Configures MIO Pin 63 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF1800FC, 0x000000FEU ,0x00000004U)
- RegMask = (IOU_SLCR_MIO_PIN_63_L0_SEL_MASK | IOU_SLCR_MIO_PIN_63_L1_SEL_MASK | IOU_SLCR_MIO_PIN_63_L2_SEL_MASK | IOU_SLCR_MIO_PIN_63_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_63_L0_SEL_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_PIN_63_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_63_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_63_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_63_OFFSET ,0x000000FEU ,0x00000004U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_64 @ 0XFF180100</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_clk- (TX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_64_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_clk_in- (ULPI Clock)
- PSU_IOU_SLCR_MIO_PIN_64_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out- (SDSDIO clock) 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_64_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[12]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[12]- (GPIO bank 2) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, s
- i0_sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7
- trace, Output, tracedq[10]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_64_L3_SEL 0
-
- Configures MIO Pin 64 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180100, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_64_L0_SEL_MASK | IOU_SLCR_MIO_PIN_64_L1_SEL_MASK | IOU_SLCR_MIO_PIN_64_L2_SEL_MASK | IOU_SLCR_MIO_PIN_64_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_64_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_64_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_64_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_64_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_64_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_65 @ 0XFF180104</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[0]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_65_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_dir- (Data bus direction control)
- PSU_IOU_SLCR_MIO_PIN_65_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD card detect from connector) 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_65_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[13]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[13]- (GPIO bank 2) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5=
- ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trac
- dq[11]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_65_L3_SEL 0
-
- Configures MIO Pin 65 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180104, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_65_L0_SEL_MASK | IOU_SLCR_MIO_PIN_65_L1_SEL_MASK | IOU_SLCR_MIO_PIN_65_L2_SEL_MASK | IOU_SLCR_MIO_PIN_65_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_65_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_65_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_65_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_65_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_65_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_66 @ 0XFF180108</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[1]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_66_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[2]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[2]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_66_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Command Indicator) = sd0, Output, sdio0_cmd_out- (Comman
- Indicator) 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_66_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[14]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[14]- (GPIO bank 2) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= tt
- 2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace
- Port Databus)
- PSU_IOU_SLCR_MIO_PIN_66_L3_SEL 0
-
- Configures MIO Pin 66 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180108, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_66_L0_SEL_MASK | IOU_SLCR_MIO_PIN_66_L1_SEL_MASK | IOU_SLCR_MIO_PIN_66_L2_SEL_MASK | IOU_SLCR_MIO_PIN_66_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_66_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_66_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_66_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_66_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_66_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_67 @ 0XFF18010C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[2]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_67_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_nxt- (Data flow control signal from the PHY)
- PSU_IOU_SLCR_MIO_PIN_67_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]- (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8
- bit Data bus) 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_67_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[15]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[15]- (GPIO bank 2) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi
- , Output, spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd
- (UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_67_L3_SEL 0
-
- Configures MIO Pin 67 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18010C, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_67_L0_SEL_MASK | IOU_SLCR_MIO_PIN_67_L1_SEL_MASK | IOU_SLCR_MIO_PIN_67_L2_SEL_MASK | IOU_SLCR_MIO_PIN_67_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_67_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_67_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_67_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_67_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_67_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_68 @ 0XFF180110</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd[3]- (TX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_68_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[0]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[0]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_68_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]- (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8
- bit Data bus) 2= Not Used 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_68_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[16]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[16]- (GPIO bank 2) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0, Output, spi0
- so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace
- Output, tracedq[14]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_68_L3_SEL 0
-
- Configures MIO Pin 68 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180110, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_68_L0_SEL_MASK | IOU_SLCR_MIO_PIN_68_L1_SEL_MASK | IOU_SLCR_MIO_PIN_68_L2_SEL_MASK | IOU_SLCR_MIO_PIN_68_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_68_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_68_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_68_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_68_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_68_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_69 @ 0XFF180114</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_ctl- (TX RGMII control)
- PSU_IOU_SLCR_MIO_PIN_69_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[1]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[1]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_69_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]- (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8
- bit Data bus) 2= sd1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_69_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[17]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[17]- (GPIO bank 2) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4= spi0, Input, sp
- 0_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
- 7= trace, Output, tracedq[15]- (Trace Port Databus)
- PSU_IOU_SLCR_MIO_PIN_69_L3_SEL 0
-
- Configures MIO Pin 69 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180114, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_69_L0_SEL_MASK | IOU_SLCR_MIO_PIN_69_L1_SEL_MASK | IOU_SLCR_MIO_PIN_69_L2_SEL_MASK | IOU_SLCR_MIO_PIN_69_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_69_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_69_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_69_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_69_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_69_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_70 @ 0XFF180118</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_clk- (RX RGMII clock)
- PSU_IOU_SLCR_MIO_PIN_70_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Output, usb1_ulpi_stp- (Asserted to end or interrupt transfers)
- PSU_IOU_SLCR_MIO_PIN_70_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]- (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8
- bit Data bus) 2= sd1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_70_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[18]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[18]- (GPIO bank 2) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, sp
- 1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not
- sed
- PSU_IOU_SLCR_MIO_PIN_70_L3_SEL 0
-
- Configures MIO Pin 70 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180118, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_70_L0_SEL_MASK | IOU_SLCR_MIO_PIN_70_L1_SEL_MASK | IOU_SLCR_MIO_PIN_70_L2_SEL_MASK | IOU_SLCR_MIO_PIN_70_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_70_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_70_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_70_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_70_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_70_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_71 @ 0XFF18011C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[0]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_71_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[3]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[3]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_71_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]- (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_out[0]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_71_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[19]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[19]- (GPIO bank 2) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5
- ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_71_L3_SEL 0
-
- Configures MIO Pin 71 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18011C, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_71_L0_SEL_MASK | IOU_SLCR_MIO_PIN_71_L1_SEL_MASK | IOU_SLCR_MIO_PIN_71_L2_SEL_MASK | IOU_SLCR_MIO_PIN_71_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_71_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_71_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_71_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_71_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_71_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_72 @ 0XFF180120</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[1]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_72_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[4]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[4]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_72_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]- (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_out[1]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_72_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[20]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[20]- (GPIO bank 2) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= swdt1, Input, swdt1_clk_in- (Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= N
- t Used 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_72_L3_SEL 0
-
- Configures MIO Pin 72 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180120, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_72_L0_SEL_MASK | IOU_SLCR_MIO_PIN_72_L1_SEL_MASK | IOU_SLCR_MIO_PIN_72_L2_SEL_MASK | IOU_SLCR_MIO_PIN_72_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_72_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_72_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_72_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_72_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_72_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_73 @ 0XFF180124</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[2]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_73_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[5]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[5]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_73_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]- (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_out[2]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_73_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[21]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[21]- (GPIO bank 2) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= swdt1, Output, swdt1_rst_out- (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1
- Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= Not Used 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_73_L3_SEL 0
-
- Configures MIO Pin 73 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180124, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_73_L0_SEL_MASK | IOU_SLCR_MIO_PIN_73_L1_SEL_MASK | IOU_SLCR_MIO_PIN_73_L2_SEL_MASK | IOU_SLCR_MIO_PIN_73_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_73_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_73_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_73_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_73_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_73_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_74 @ 0XFF180128</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[3]- (RX RGMII data)
- PSU_IOU_SLCR_MIO_PIN_74_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[6]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[6]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_74_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]- (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8
- bit Data bus) 2= sd1, Input, sd1_data_in[3]- (8-bit Data bus) = sd1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_74_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[22]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[22]- (GPIO bank 2) 1= c
- n0, Input, can0_phy_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0, Output, i2c0_scl_out- (SCL sign
- l) 3= swdt0, Input, swdt0_clk_in- (Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= spi1, Output, spi1_
- o- (MISO signal) 5= Not Used 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_74_L3_SEL 0
-
- Configures MIO Pin 74 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180128, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_74_L0_SEL_MASK | IOU_SLCR_MIO_PIN_74_L1_SEL_MASK | IOU_SLCR_MIO_PIN_74_L2_SEL_MASK | IOU_SLCR_MIO_PIN_74_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_74_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_74_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_74_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_74_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_74_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_75 @ 0XFF18012C</p>
-
- Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_ctl- (RX RGMII control )
- PSU_IOU_SLCR_MIO_PIN_75_L0_SEL 1
-
- Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_data[7]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_
- ata[7]- (ULPI data bus)
- PSU_IOU_SLCR_MIO_PIN_75_L1_SEL 0
-
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow- (SD card bus power) 2= sd1, Input, sd1_cmd_in- (Comma
- d Indicator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_75_L2_SEL 0
-
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[23]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[23]- (GPIO bank 2) 1= c
- n0, Output, can0_phy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c0, Output, i2c0_sda_out- (SDA sig
- al) 3= swdt0, Output, swdt0_rst_out- (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4= spi1, Input, s
- i1_si- (MOSI signal) 5= Not Used 6= ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_75_L3_SEL 0
-
- Configures MIO Pin 75 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF18012C, 0x000000FEU ,0x00000002U)
- RegMask = (IOU_SLCR_MIO_PIN_75_L0_SEL_MASK | IOU_SLCR_MIO_PIN_75_L1_SEL_MASK | IOU_SLCR_MIO_PIN_75_L2_SEL_MASK | IOU_SLCR_MIO_PIN_75_L3_SEL_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SLCR_MIO_PIN_75_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_75_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_75_L2_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_75_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_75_OFFSET ,0x000000FEU ,0x00000002U);
- /*############################################################################################################################ */
-
- /*Register : MIO_PIN_76 @ 0XFF180130</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_31_25 0x0
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_76_L0_SEL 0
+ * Read Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL1DQSCTL_RRRMODE 0x1
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_76_L1_SEL 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_23_22 0x0
- Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD card write protect from connector) 2= sd1, Output, sdio
- _clk_out- (SDSDIO clock) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_76_L2_SEL 0
+ * Write Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL1DQSCTL_WRRMODE 0x1
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[24]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[24]- (GPIO bank 2) 1= c
- n1, Output, can1_phy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c1, Output, i2c1_scl_out- (SCL sig
- al) 3= mdio0, Output, gem0_mdc- (MDIO Clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= mdio2, Output, gem2_mdc- (MDIO Clock
- 6= mdio3, Output, gem3_mdc- (MDIO Clock) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_76_L3_SEL 6
+ * DQS Gate Extension
+ * PSU_DDR_PHY_DX8SL1DQSCTL_DQSGX 0x0
- Configures MIO Pin 76 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180130, 0x000000FEU ,0x000000C0U)
- RegMask = (IOU_SLCR_MIO_PIN_76_L0_SEL_MASK | IOU_SLCR_MIO_PIN_76_L1_SEL_MASK | IOU_SLCR_MIO_PIN_76_L2_SEL_MASK | IOU_SLCR_MIO_PIN_76_L3_SEL_MASK | 0 );
+ * Low Power PLL Power Down
+ * PSU_DDR_PHY_DX8SL1DQSCTL_LPPLLPD 0x1
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_76_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_76_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_76_L2_SEL_SHIFT
- | 0x00000006U << IOU_SLCR_MIO_PIN_76_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_76_OFFSET ,0x000000FEU ,0x000000C0U);
- /*############################################################################################################################ */
+ * Low Power I/O Power Down
+ * PSU_DDR_PHY_DX8SL1DQSCTL_LPIOPD 0x1
- /*Register : MIO_PIN_77 @ 0XFF180134</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_16_15 0x0
- Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_77_L0_SEL 0
+ * QS Counter Enable
+ * PSU_DDR_PHY_DX8SL1DQSCTL_QSCNTEN 0x1
- Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
- PSU_IOU_SLCR_MIO_PIN_77_L1_SEL 0
+ * Unused DQ I/O Mode
+ * PSU_DDR_PHY_DX8SL1DQSCTL_UDQIOM 0x0
- Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used
- PSU_IOU_SLCR_MIO_PIN_77_L2_SEL 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DQSCTL_RESERVED_12_10 0x0
- Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[25]- (GPIO bank 2) 0= gpio2, Output, gpio_2_pin_out[25]- (GPIO bank 2) 1= c
- n1, Input, can1_phy_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1, Output, i2c1_sda_out- (SDA sign
- l) 3= mdio0, Input, gem0_mdio_in- (MDIO Data) 3= mdio0, Output, gem0_mdio_out- (MDIO Data) 4= mdio1, Input, gem1_mdio_in- (MD
- O Data) 4= mdio1, Output, gem1_mdio_out- (MDIO Data) 5= mdio2, Input, gem2_mdio_in- (MDIO Data) 5= mdio2, Output, gem2_mdio_o
- t- (MDIO Data) 6= mdio3, Input, gem3_mdio_in- (MDIO Data) 6= mdio3, Output, gem3_mdio_out- (MDIO Data) 7= Not Used
- PSU_IOU_SLCR_MIO_PIN_77_L3_SEL 6
+ * Data Slew Rate
+ * PSU_DDR_PHY_DX8SL1DQSCTL_DXSR 0x3
- Configures MIO Pin 77 peripheral interface mapping
- (OFFSET, MASK, VALUE) (0XFF180134, 0x000000FEU ,0x000000C0U)
- RegMask = (IOU_SLCR_MIO_PIN_77_L0_SEL_MASK | IOU_SLCR_MIO_PIN_77_L1_SEL_MASK | IOU_SLCR_MIO_PIN_77_L2_SEL_MASK | IOU_SLCR_MIO_PIN_77_L3_SEL_MASK | 0 );
+ * DQS_N Resistor
+ * PSU_DDR_PHY_DX8SL1DQSCTL_DQSNRES 0x0
- RegVal = ((0x00000000U << IOU_SLCR_MIO_PIN_77_L0_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_77_L1_SEL_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_PIN_77_L2_SEL_SHIFT
- | 0x00000006U << IOU_SLCR_MIO_PIN_77_L3_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_PIN_77_OFFSET ,0x000000FEU ,0x000000C0U);
- /*############################################################################################################################ */
+ * DQS Resistor
+ * PSU_DDR_PHY_DX8SL1DQSCTL_DQSRES 0x0
- /*Register : MIO_MST_TRI0 @ 0XFF180204</p>
+ * DATX8 0-1 DQS Control Register
+ * (OFFSET, MASK, VALUE) (0XFD08145C, 0xFFFFFFFFU ,0x01264300U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL1DQSCTL_OFFSET,
+ 0xFFFFFFFFU, 0x01264300U);
+/*##################################################################### */
- Master Tri-state Enable for pin 0, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI 0
+ /*
+ * Register : DX8SL1DXCTL2 @ 0XFD08146C
- Master Tri-state Enable for pin 1, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_31_24 0x0
- Master Tri-state Enable for pin 2, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI 0
+ * Configurable Read Data Enable
+ * PSU_DDR_PHY_DX8SL1DXCTL2_CRDEN 0x0
- Master Tri-state Enable for pin 3, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI 0
+ * OX Extension during Post-amble
+ * PSU_DDR_PHY_DX8SL1DXCTL2_POSOEX 0x0
- Master Tri-state Enable for pin 4, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI 0
+ * OE Extension during Pre-amble
+ * PSU_DDR_PHY_DX8SL1DXCTL2_PREOEX 0x1
- Master Tri-state Enable for pin 5, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_17 0x0
- Master Tri-state Enable for pin 6, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI 0
+ * I/O Assisted Gate Select
+ * PSU_DDR_PHY_DX8SL1DXCTL2_IOAG 0x0
- Master Tri-state Enable for pin 7, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI 0
+ * I/O Loopback Select
+ * PSU_DDR_PHY_DX8SL1DXCTL2_IOLB 0x0
- Master Tri-state Enable for pin 8, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_14_13 0x0
- Master Tri-state Enable for pin 9, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI 0
+ * Low Power Wakeup Threshold
+ * PSU_DDR_PHY_DX8SL1DXCTL2_LPWAKEUP_THRSH 0xc
- Master Tri-state Enable for pin 10, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI 0
-
- Master Tri-state Enable for pin 11, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI 0
+ * Read Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL1DXCTL2_RDBI 0x0
- Master Tri-state Enable for pin 12, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI 0
+ * Write Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL1DXCTL2_WDBI 0x0
- Master Tri-state Enable for pin 13, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI 0
+ * PUB Read FIFO Bypass
+ * PSU_DDR_PHY_DX8SL1DXCTL2_PRFBYP 0x0
- Master Tri-state Enable for pin 14, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI 0
+ * DATX8 Receive FIFO Read Mode
+ * PSU_DDR_PHY_DX8SL1DXCTL2_RDMODE 0x0
- Master Tri-state Enable for pin 15, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI 0
+ * Disables the Read FIFO Reset
+ * PSU_DDR_PHY_DX8SL1DXCTL2_DISRST 0x0
- Master Tri-state Enable for pin 16, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI 0
+ * Read DQS Gate I/O Loopback
+ * PSU_DDR_PHY_DX8SL1DXCTL2_DQSGLB 0x0
- Master Tri-state Enable for pin 17, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1DXCTL2_RESERVED_0 0x0
- Master Tri-state Enable for pin 18, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI 1
+ * DATX8 0-1 DX Control Register 2
+ * (OFFSET, MASK, VALUE) (0XFD08146C, 0xFFFFFFFFU ,0x00041800U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL1DXCTL2_OFFSET,
+ 0xFFFFFFFFU, 0x00041800U);
+/*##################################################################### */
- Master Tri-state Enable for pin 19, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI 0
+ /*
+ * Register : DX8SL1IOCR @ 0XFD081470
- Master Tri-state Enable for pin 20, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL1IOCR_RESERVED_31 0x0
- Master Tri-state Enable for pin 21, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI 1
+ * PVREF_DAC REFSEL range select
+ * PSU_DDR_PHY_DX8SL1IOCR_DXDACRANGE 0x7
- Master Tri-state Enable for pin 22, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI 0
+ * IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
+ * PSU_DDR_PHY_DX8SL1IOCR_DXVREFIOM 0x0
- Master Tri-state Enable for pin 23, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI 0
+ * DX IO Mode
+ * PSU_DDR_PHY_DX8SL1IOCR_DXIOM 0x2
- Master Tri-state Enable for pin 24, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI 0
+ * DX IO Transmitter Mode
+ * PSU_DDR_PHY_DX8SL1IOCR_DXTXM 0x0
- Master Tri-state Enable for pin 25, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI 1
+ * DX IO Receiver Mode
+ * PSU_DDR_PHY_DX8SL1IOCR_DXRXM 0x0
- Master Tri-state Enable for pin 26, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI 0
+ * DATX8 0-1 I/O Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD081470, 0xFFFFFFFFU ,0x70800000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL1IOCR_OFFSET, 0xFFFFFFFFU, 0x70800000U);
+/*##################################################################### */
- Master Tri-state Enable for pin 27, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI 0
+ /*
+ * Register : DX8SL2OSC @ 0XFD081480
- Master Tri-state Enable for pin 28, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2OSC_RESERVED_31_30 0x0
- Master Tri-state Enable for pin 29, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI 0
+ * Enable Clock Gating for DX ddr_clk
+ * PSU_DDR_PHY_DX8SL2OSC_GATEDXRDCLK 0x2
- Master Tri-state Enable for pin 30, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI 1
+ * Enable Clock Gating for DX ctl_rd_clk
+ * PSU_DDR_PHY_DX8SL2OSC_GATEDXDDRCLK 0x2
- Master Tri-state Enable for pin 31, active high
- PSU_IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI 0
+ * Enable Clock Gating for DX ctl_clk
+ * PSU_DDR_PHY_DX8SL2OSC_GATEDXCTLCLK 0x2
- MIO pin Tri-state Enables, 31:0
- (OFFSET, MASK, VALUE) (0XFF180204, 0xFFFFFFFFU ,0x52240000U)
- RegMask = (IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_MASK | IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_MASK | 0 );
+ * Selects the level to which clocks will be stalled when clock gating is e
+ * nabled.
+ * PSU_DDR_PHY_DX8SL2OSC_CLKLEVEL 0x0
- RegVal = ((0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_MST_TRI0_OFFSET ,0xFFFFFFFFU ,0x52240000U);
- /*############################################################################################################################ */
+ * Loopback Mode
+ * PSU_DDR_PHY_DX8SL2OSC_LBMODE 0x0
- /*Register : MIO_MST_TRI1 @ 0XFF180208</p>
+ * Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
+ * PSU_DDR_PHY_DX8SL2OSC_LBGSDQS 0x0
- Master Tri-state Enable for pin 32, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI 0
+ * Loopback DQS Gating
+ * PSU_DDR_PHY_DX8SL2OSC_LBGDQS 0x0
- Master Tri-state Enable for pin 33, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI 0
+ * Loopback DQS Shift
+ * PSU_DDR_PHY_DX8SL2OSC_LBDQSS 0x0
- Master Tri-state Enable for pin 34, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI 0
+ * PHY High-Speed Reset
+ * PSU_DDR_PHY_DX8SL2OSC_PHYHRST 0x1
- Master Tri-state Enable for pin 35, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI 0
+ * PHY FIFO Reset
+ * PSU_DDR_PHY_DX8SL2OSC_PHYFRST 0x1
- Master Tri-state Enable for pin 36, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI 0
+ * Delay Line Test Start
+ * PSU_DDR_PHY_DX8SL2OSC_DLTST 0x0
- Master Tri-state Enable for pin 37, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI 0
+ * Delay Line Test Mode
+ * PSU_DDR_PHY_DX8SL2OSC_DLTMODE 0x0
- Master Tri-state Enable for pin 38, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI 0
-
- Master Tri-state Enable for pin 39, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI 0
-
- Master Tri-state Enable for pin 40, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI 0
-
- Master Tri-state Enable for pin 41, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI 0
-
- Master Tri-state Enable for pin 42, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI 0
-
- Master Tri-state Enable for pin 43, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI 0
-
- Master Tri-state Enable for pin 44, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI 1
-
- Master Tri-state Enable for pin 45, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI 1
-
- Master Tri-state Enable for pin 46, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI 0
-
- Master Tri-state Enable for pin 47, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI 0
-
- Master Tri-state Enable for pin 48, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI 0
-
- Master Tri-state Enable for pin 49, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI 0
-
- Master Tri-state Enable for pin 50, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI 0
-
- Master Tri-state Enable for pin 51, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI 0
-
- Master Tri-state Enable for pin 52, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI 1
-
- Master Tri-state Enable for pin 53, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI 1
-
- Master Tri-state Enable for pin 54, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI 0
-
- Master Tri-state Enable for pin 55, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI 1
-
- Master Tri-state Enable for pin 56, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI 0
-
- Master Tri-state Enable for pin 57, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI 0
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL2OSC_RESERVED_12_11 0x3
- Master Tri-state Enable for pin 58, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI 0
+ * Oscillator Mode Write-Data Delay Line Select
+ * PSU_DDR_PHY_DX8SL2OSC_OSCWDDL 0x3
- Master Tri-state Enable for pin 59, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI 0
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL2OSC_RESERVED_8_7 0x3
- Master Tri-state Enable for pin 60, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI 0
+ * Oscillator Mode Write-Leveling Delay Line Select
+ * PSU_DDR_PHY_DX8SL2OSC_OSCWDL 0x3
- Master Tri-state Enable for pin 61, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI 0
+ * Oscillator Mode Division
+ * PSU_DDR_PHY_DX8SL2OSC_OSCDIV 0xf
- Master Tri-state Enable for pin 62, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI 0
+ * Oscillator Enable
+ * PSU_DDR_PHY_DX8SL2OSC_OSCEN 0x0
- Master Tri-state Enable for pin 63, active high
- PSU_IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI 0
+ * DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Lo
+ * opback, and Gated Clock Control Register
+ * (OFFSET, MASK, VALUE) (0XFD081480, 0xFFFFFFFFU ,0x2A019FFEU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL2OSC_OFFSET, 0xFFFFFFFFU, 0x2A019FFEU);
+/*##################################################################### */
- MIO pin Tri-state Enables, 63:32
- (OFFSET, MASK, VALUE) (0XFF180208, 0xFFFFFFFFU ,0x00B03000U)
- RegMask = (IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_MASK | IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_MASK | 0 );
+ /*
+ * Register : DX8SL2PLLCR0 @ 0XFD081484
- RegVal = ((0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_MST_TRI1_OFFSET ,0xFFFFFFFFU ,0x00B03000U);
- /*############################################################################################################################ */
+ * PLL Bypass
+ * PSU_DDR_PHY_DX8SL2PLLCR0_PLLBYP 0x0
- /*Register : MIO_MST_TRI2 @ 0XFF18020C</p>
+ * PLL Reset
+ * PSU_DDR_PHY_DX8SL2PLLCR0_PLLRST 0x0
- Master Tri-state Enable for pin 64, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI 0
+ * PLL Power Down
+ * PSU_DDR_PHY_DX8SL2PLLCR0_PLLPD 0x0
- Master Tri-state Enable for pin 65, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI 0
+ * Reference Stop Mode
+ * PSU_DDR_PHY_DX8SL2PLLCR0_RSTOPM 0x0
- Master Tri-state Enable for pin 66, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI 0
+ * PLL Frequency Select
+ * PSU_DDR_PHY_DX8SL2PLLCR0_FRQSEL 0x1
- Master Tri-state Enable for pin 67, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI 0
+ * Relock Mode
+ * PSU_DDR_PHY_DX8SL2PLLCR0_RLOCKM 0x0
- Master Tri-state Enable for pin 68, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI 0
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_DX8SL2PLLCR0_CPPC 0x8
- Master Tri-state Enable for pin 69, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI 0
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_DX8SL2PLLCR0_CPIC 0x0
- Master Tri-state Enable for pin 70, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI 1
+ * Gear Shift
+ * PSU_DDR_PHY_DX8SL2PLLCR0_GSHIFT 0x0
- Master Tri-state Enable for pin 71, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2PLLCR0_RESERVED_11_9 0x0
- Master Tri-state Enable for pin 72, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI 1
+ * Analog Test Enable (ATOEN)
+ * PSU_DDR_PHY_DX8SL2PLLCR0_ATOEN 0x0
- Master Tri-state Enable for pin 73, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI 1
+ * Analog Test Control
+ * PSU_DDR_PHY_DX8SL2PLLCR0_ATC 0x0
- Master Tri-state Enable for pin 74, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI 1
+ * Digital Test Control
+ * PSU_DDR_PHY_DX8SL2PLLCR0_DTC 0x0
- Master Tri-state Enable for pin 75, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI 1
+ * DAXT8 0-1 PLL Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD081484, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL2PLLCR0_OFFSET,
+ 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
- Master Tri-state Enable for pin 76, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI 0
+ /*
+ * Register : DX8SL2DQSCTL @ 0XFD08149C
- Master Tri-state Enable for pin 77, active high
- PSU_IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_31_25 0x0
- MIO pin Tri-state Enables, 77:64
- (OFFSET, MASK, VALUE) (0XFF18020C, 0x00003FFFU ,0x00000FC0U)
- RegMask = (IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_MASK | IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_MASK | 0 );
+ * Read Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL2DQSCTL_RRRMODE 0x1
- RegVal = ((0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI_SHIFT
- | 0x00000001U << IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_MST_TRI2_OFFSET ,0x00003FFFU ,0x00000FC0U);
- /*############################################################################################################################ */
-
- /*Register : bank0_ctrl0 @ 0XFF180138</p>
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_23_22 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7 1
+ * Write Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL2DQSCTL_WRRMODE 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8 1
+ * DQS Gate Extension
+ * PSU_DDR_PHY_DX8SL2DQSCTL_DQSGX 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9 1
+ * Low Power PLL Power Down
+ * PSU_DDR_PHY_DX8SL2DQSCTL_LPPLLPD 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10 1
+ * Low Power I/O Power Down
+ * PSU_DDR_PHY_DX8SL2DQSCTL_LPIOPD 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_16_15 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12 1
+ * QS Counter Enable
+ * PSU_DDR_PHY_DX8SL2DQSCTL_QSCNTEN 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13 1
+ * Unused DQ I/O Mode
+ * PSU_DDR_PHY_DX8SL2DQSCTL_UDQIOM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DQSCTL_RESERVED_12_10 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15 1
+ * Data Slew Rate
+ * PSU_DDR_PHY_DX8SL2DQSCTL_DXSR 0x3
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16 1
+ * DQS_N Resistor
+ * PSU_DDR_PHY_DX8SL2DQSCTL_DQSNRES 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17 1
+ * DQS Resistor
+ * PSU_DDR_PHY_DX8SL2DQSCTL_DQSRES 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18 1
+ * DATX8 0-1 DQS Control Register
+ * (OFFSET, MASK, VALUE) (0XFD08149C, 0xFFFFFFFFU ,0x01264300U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL2DQSCTL_OFFSET,
+ 0xFFFFFFFFU, 0x01264300U);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19 1
+ /*
+ * Register : DX8SL2DXCTL2 @ 0XFD0814AC
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_31_24 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21 1
+ * Configurable Read Data Enable
+ * PSU_DDR_PHY_DX8SL2DXCTL2_CRDEN 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22 1
+ * OX Extension during Post-amble
+ * PSU_DDR_PHY_DX8SL2DXCTL2_POSOEX 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23 1
+ * OE Extension during Pre-amble
+ * PSU_DDR_PHY_DX8SL2DXCTL2_PREOEX 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_17 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25 1
+ * I/O Assisted Gate Select
+ * PSU_DDR_PHY_DX8SL2DXCTL2_IOAG 0x0
- Drive0 control to MIO Bank 0 - control MIO[25:0]
- (OFFSET, MASK, VALUE) (0XFF180138, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_MASK | IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_MASK | 0 );
+ * I/O Loopback Select
+ * PSU_DDR_PHY_DX8SL2DXCTL2_IOLB 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK0_CTRL0_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_14_13 0x0
- /*Register : bank0_ctrl1 @ 0XFF18013C</p>
+ * Low Power Wakeup Threshold
+ * PSU_DDR_PHY_DX8SL2DXCTL2_LPWAKEUP_THRSH 0xc
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0 1
+ * Read Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL2DXCTL2_RDBI 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1 1
+ * Write Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL2DXCTL2_WDBI 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23 1
+ * PUB Read FIFO Bypass
+ * PSU_DDR_PHY_DX8SL2DXCTL2_PRFBYP 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24 1
+ * DATX8 Receive FIFO Read Mode
+ * PSU_DDR_PHY_DX8SL2DXCTL2_RDMODE 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25 1
+ * Disables the Read FIFO Reset
+ * PSU_DDR_PHY_DX8SL2DXCTL2_DISRST 0x0
- Drive1 control to MIO Bank 0 - control MIO[25:0]
- (OFFSET, MASK, VALUE) (0XFF18013C, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_MASK | IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_MASK | 0 );
+ * Read DQS Gate I/O Loopback
+ * PSU_DDR_PHY_DX8SL2DXCTL2_DQSGLB 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK0_CTRL1_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2DXCTL2_RESERVED_0 0x0
- /*Register : bank0_ctrl3 @ 0XFF180140</p>
+ * DATX8 0-1 DX Control Register 2
+ * (OFFSET, MASK, VALUE) (0XFD0814AC, 0xFFFFFFFFU ,0x00041800U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL2DXCTL2_OFFSET,
+ 0xFFFFFFFFU, 0x00041800U);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0 0
+ /*
+ * Register : DX8SL2IOCR @ 0XFD0814B0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL2IOCR_RESERVED_31 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23 0
+ * PVREF_DAC REFSEL range select
+ * PSU_DDR_PHY_DX8SL2IOCR_DXDACRANGE 0x7
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24 0
+ * IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
+ * PSU_DDR_PHY_DX8SL2IOCR_DXVREFIOM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25 0
+ * DX IO Mode
+ * PSU_DDR_PHY_DX8SL2IOCR_DXIOM 0x2
- Selects either Schmitt or CMOS input for MIO Bank 0 - control MIO[25:0]
- (OFFSET, MASK, VALUE) (0XFF180140, 0x03FFFFFFU ,0x00000000U)
- RegMask = (IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK | IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK | 0 );
+ * DX IO Transmitter Mode
+ * PSU_DDR_PHY_DX8SL2IOCR_DXTXM 0x0
- RegVal = ((0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK0_CTRL3_OFFSET ,0x03FFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * DX IO Receiver Mode
+ * PSU_DDR_PHY_DX8SL2IOCR_DXRXM 0x0
- /*Register : bank0_ctrl4 @ 0XFF180144</p>
+ * DATX8 0-1 I/O Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD0814B0, 0xFFFFFFFFU ,0x70800000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL2IOCR_OFFSET, 0xFFFFFFFFU, 0x70800000U);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0 1
+ /*
+ * Register : DX8SL3OSC @ 0XFD0814C0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3OSC_RESERVED_31_30 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23 1
+ * Enable Clock Gating for DX ddr_clk
+ * PSU_DDR_PHY_DX8SL3OSC_GATEDXRDCLK 0x2
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24 1
+ * Enable Clock Gating for DX ctl_rd_clk
+ * PSU_DDR_PHY_DX8SL3OSC_GATEDXDDRCLK 0x2
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25 1
+ * Enable Clock Gating for DX ctl_clk
+ * PSU_DDR_PHY_DX8SL3OSC_GATEDXCTLCLK 0x2
- When mio_bank0_pull_enable is set, this selects pull up or pull down for MIO Bank 0 - control MIO[25:0]
- (OFFSET, MASK, VALUE) (0XFF180144, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK | IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK | 0 );
+ * Selects the level to which clocks will be stalled when clock gating is e
+ * nabled.
+ * PSU_DDR_PHY_DX8SL3OSC_CLKLEVEL 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK0_CTRL4_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Loopback Mode
+ * PSU_DDR_PHY_DX8SL3OSC_LBMODE 0x0
- /*Register : bank0_ctrl5 @ 0XFF180148</p>
+ * Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
+ * PSU_DDR_PHY_DX8SL3OSC_LBGSDQS 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0 1
+ * Loopback DQS Gating
+ * PSU_DDR_PHY_DX8SL3OSC_LBGDQS 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1 1
+ * Loopback DQS Shift
+ * PSU_DDR_PHY_DX8SL3OSC_LBDQSS 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23 1
+ * PHY High-Speed Reset
+ * PSU_DDR_PHY_DX8SL3OSC_PHYHRST 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24 1
+ * PHY FIFO Reset
+ * PSU_DDR_PHY_DX8SL3OSC_PHYFRST 0x1
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25 1
+ * Delay Line Test Start
+ * PSU_DDR_PHY_DX8SL3OSC_DLTST 0x0
- When set, this enables mio_bank0_pullupdown to selects pull up or pull down for MIO Bank 0 - control MIO[25:0]
- (OFFSET, MASK, VALUE) (0XFF180148, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_MASK | IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_MASK | 0 );
+ * Delay Line Test Mode
+ * PSU_DDR_PHY_DX8SL3OSC_DLTMODE 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK0_CTRL5_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL3OSC_RESERVED_12_11 0x3
- /*Register : bank0_ctrl6 @ 0XFF18014C</p>
+ * Oscillator Mode Write-Data Delay Line Select
+ * PSU_DDR_PHY_DX8SL3OSC_OSCWDDL 0x3
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL3OSC_RESERVED_8_7 0x3
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0
+ * Oscillator Mode Write-Leveling Delay Line Select
+ * PSU_DDR_PHY_DX8SL3OSC_OSCWDL 0x3
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0
-
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0
+ * Oscillator Mode Division
+ * PSU_DDR_PHY_DX8SL3OSC_OSCDIV 0xf
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0
+ * Oscillator Enable
+ * PSU_DDR_PHY_DX8SL3OSC_OSCEN 0x0
- Each bit applies to a single IO. Bit 0 for MIO[0].
- PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0
+ * DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Lo
+ * opback, and Gated Clock Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0814C0, 0xFFFFFFFFU ,0x2A019FFEU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL3OSC_OFFSET, 0xFFFFFFFFU, 0x2A019FFEU);
+/*##################################################################### */
- Slew rate control to MIO Bank 0 - control MIO[25:0]
- (OFFSET, MASK, VALUE) (0XFF18014C, 0x03FFFFFFU ,0x00000000U)
- RegMask = (IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK | IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK | 0 );
+ /*
+ * Register : DX8SL3PLLCR0 @ 0XFD0814C4
- RegVal = ((0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT
- | 0x00000000U << IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK0_CTRL6_OFFSET ,0x03FFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * PLL Bypass
+ * PSU_DDR_PHY_DX8SL3PLLCR0_PLLBYP 0x0
- /*Register : bank1_ctrl0 @ 0XFF180154</p>
+ * PLL Reset
+ * PSU_DDR_PHY_DX8SL3PLLCR0_PLLRST 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0 1
+ * PLL Power Down
+ * PSU_DDR_PHY_DX8SL3PLLCR0_PLLPD 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1 1
+ * Reference Stop Mode
+ * PSU_DDR_PHY_DX8SL3PLLCR0_RSTOPM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23 1
+ * PLL Frequency Select
+ * PSU_DDR_PHY_DX8SL3PLLCR0_FRQSEL 0x1
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24 1
+ * Relock Mode
+ * PSU_DDR_PHY_DX8SL3PLLCR0_RLOCKM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25 1
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_DX8SL3PLLCR0_CPPC 0x8
- Drive0 control to MIO Bank 1 - control MIO[51:26]
- (OFFSET, MASK, VALUE) (0XFF180154, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_MASK | IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_MASK | 0 );
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_DX8SL3PLLCR0_CPIC 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK1_CTRL0_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Gear Shift
+ * PSU_DDR_PHY_DX8SL3PLLCR0_GSHIFT 0x0
- /*Register : bank1_ctrl1 @ 0XFF180158</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3PLLCR0_RESERVED_11_9 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0 1
+ * Analog Test Enable (ATOEN)
+ * PSU_DDR_PHY_DX8SL3PLLCR0_ATOEN 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1 1
+ * Analog Test Control
+ * PSU_DDR_PHY_DX8SL3PLLCR0_ATC 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23 1
+ * Digital Test Control
+ * PSU_DDR_PHY_DX8SL3PLLCR0_DTC 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24 1
+ * DAXT8 0-1 PLL Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0814C4, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL3PLLCR0_OFFSET,
+ 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25 1
+ /*
+ * Register : DX8SL3DQSCTL @ 0XFD0814DC
- Drive1 control to MIO Bank 1 - control MIO[51:26]
- (OFFSET, MASK, VALUE) (0XFF180158, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_MASK | IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_31_25 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK1_CTRL1_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Read Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL3DQSCTL_RRRMODE 0x1
- /*Register : bank1_ctrl3 @ 0XFF18015C</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_23_22 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0 0
+ * Write Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL3DQSCTL_WRRMODE 0x1
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1 0
+ * DQS Gate Extension
+ * PSU_DDR_PHY_DX8SL3DQSCTL_DQSGX 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23 0
+ * Low Power PLL Power Down
+ * PSU_DDR_PHY_DX8SL3DQSCTL_LPPLLPD 0x1
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24 0
+ * Low Power I/O Power Down
+ * PSU_DDR_PHY_DX8SL3DQSCTL_LPIOPD 0x1
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_16_15 0x0
- Selects either Schmitt or CMOS input for MIO Bank 1 - control MIO[51:26]
- (OFFSET, MASK, VALUE) (0XFF18015C, 0x03FFFFFFU ,0x00000000U)
- RegMask = (IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK | IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK | 0 );
+ * QS Counter Enable
+ * PSU_DDR_PHY_DX8SL3DQSCTL_QSCNTEN 0x1
- RegVal = ((0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK1_CTRL3_OFFSET ,0x03FFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Unused DQ I/O Mode
+ * PSU_DDR_PHY_DX8SL3DQSCTL_UDQIOM 0x0
- /*Register : bank1_ctrl4 @ 0XFF180160</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DQSCTL_RESERVED_12_10 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0 1
+ * Data Slew Rate
+ * PSU_DDR_PHY_DX8SL3DQSCTL_DXSR 0x3
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1 1
+ * DQS_N Resistor
+ * PSU_DDR_PHY_DX8SL3DQSCTL_DQSNRES 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23 1
+ * DQS Resistor
+ * PSU_DDR_PHY_DX8SL3DQSCTL_DQSRES 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24 1
+ * DATX8 0-1 DQS Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0814DC, 0xFFFFFFFFU ,0x01264300U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL3DQSCTL_OFFSET,
+ 0xFFFFFFFFU, 0x01264300U);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25 1
+ /*
+ * Register : DX8SL3DXCTL2 @ 0XFD0814EC
- When mio_bank1_pull_enable is set, this selects pull up or pull down for MIO Bank 1 - control MIO[51:26]
- (OFFSET, MASK, VALUE) (0XFF180160, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK | IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_31_24 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK1_CTRL4_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Configurable Read Data Enable
+ * PSU_DDR_PHY_DX8SL3DXCTL2_CRDEN 0x0
- /*Register : bank1_ctrl5 @ 0XFF180164</p>
+ * OX Extension during Post-amble
+ * PSU_DDR_PHY_DX8SL3DXCTL2_POSOEX 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0 1
+ * OE Extension during Pre-amble
+ * PSU_DDR_PHY_DX8SL3DXCTL2_PREOEX 0x1
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_17 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23 1
+ * I/O Assisted Gate Select
+ * PSU_DDR_PHY_DX8SL3DXCTL2_IOAG 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24 1
+ * I/O Loopback Select
+ * PSU_DDR_PHY_DX8SL3DXCTL2_IOLB 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25 1
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_14_13 0x0
- When set, this enables mio_bank1_pullupdown to selects pull up or pull down for MIO Bank 1 - control MIO[51:26]
- (OFFSET, MASK, VALUE) (0XFF180164, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_MASK | IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_MASK | 0 );
+ * Low Power Wakeup Threshold
+ * PSU_DDR_PHY_DX8SL3DXCTL2_LPWAKEUP_THRSH 0xc
- RegVal = ((0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK1_CTRL5_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Read Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL3DXCTL2_RDBI 0x0
- /*Register : bank1_ctrl6 @ 0XFF180168</p>
+ * Write Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL3DXCTL2_WDBI 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0
+ * PUB Read FIFO Bypass
+ * PSU_DDR_PHY_DX8SL3DXCTL2_PRFBYP 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0
+ * DATX8 Receive FIFO Read Mode
+ * PSU_DDR_PHY_DX8SL3DXCTL2_RDMODE 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0
-
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0
+ * Disables the Read FIFO Reset
+ * PSU_DDR_PHY_DX8SL3DXCTL2_DISRST 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0
+ * Read DQS Gate I/O Loopback
+ * PSU_DDR_PHY_DX8SL3DXCTL2_DQSGLB 0x0
- Each bit applies to a single IO. Bit 0 for MIO[26].
- PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3DXCTL2_RESERVED_0 0x0
- Slew rate control to MIO Bank 1 - control MIO[51:26]
- (OFFSET, MASK, VALUE) (0XFF180168, 0x03FFFFFFU ,0x00000000U)
- RegMask = (IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK | IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK | 0 );
+ * DATX8 0-1 DX Control Register 2
+ * (OFFSET, MASK, VALUE) (0XFD0814EC, 0xFFFFFFFFU ,0x00041800U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL3DXCTL2_OFFSET,
+ 0xFFFFFFFFU, 0x00041800U);
+/*##################################################################### */
- RegVal = ((0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT
- | 0x00000000U << IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK1_CTRL6_OFFSET ,0x03FFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ /*
+ * Register : DX8SL3IOCR @ 0XFD0814F0
- /*Register : bank2_ctrl0 @ 0XFF180170</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL3IOCR_RESERVED_31 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0 1
+ * PVREF_DAC REFSEL range select
+ * PSU_DDR_PHY_DX8SL3IOCR_DXDACRANGE 0x7
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1 1
+ * IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
+ * PSU_DDR_PHY_DX8SL3IOCR_DXVREFIOM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23 1
+ * DX IO Mode
+ * PSU_DDR_PHY_DX8SL3IOCR_DXIOM 0x2
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24 1
+ * DX IO Transmitter Mode
+ * PSU_DDR_PHY_DX8SL3IOCR_DXTXM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25 1
+ * DX IO Receiver Mode
+ * PSU_DDR_PHY_DX8SL3IOCR_DXRXM 0x0
- Drive0 control to MIO Bank 2 - control MIO[77:52]
- (OFFSET, MASK, VALUE) (0XFF180170, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_MASK | IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_MASK | 0 );
+ * DATX8 0-1 I/O Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD0814F0, 0xFFFFFFFFU ,0x70800000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL3IOCR_OFFSET, 0xFFFFFFFFU, 0x70800000U);
+/*##################################################################### */
- RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK2_CTRL0_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ /*
+ * Register : DX8SL4OSC @ 0XFD081500
- /*Register : bank2_ctrl1 @ 0XFF180174</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4OSC_RESERVED_31_30 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0 1
+ * Enable Clock Gating for DX ddr_clk
+ * PSU_DDR_PHY_DX8SL4OSC_GATEDXRDCLK 0x2
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1 1
+ * Enable Clock Gating for DX ctl_rd_clk
+ * PSU_DDR_PHY_DX8SL4OSC_GATEDXDDRCLK 0x2
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23 1
+ * Enable Clock Gating for DX ctl_clk
+ * PSU_DDR_PHY_DX8SL4OSC_GATEDXCTLCLK 0x2
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24 1
+ * Selects the level to which clocks will be stalled when clock gating is e
+ * nabled.
+ * PSU_DDR_PHY_DX8SL4OSC_CLKLEVEL 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25 1
+ * Loopback Mode
+ * PSU_DDR_PHY_DX8SL4OSC_LBMODE 0x0
- Drive1 control to MIO Bank 2 - control MIO[77:52]
- (OFFSET, MASK, VALUE) (0XFF180174, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_MASK | IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_MASK | 0 );
+ * Load GSDQS LCDL with 2x the calibrated GSDQSPRD value
+ * PSU_DDR_PHY_DX8SL4OSC_LBGSDQS 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK2_CTRL1_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Loopback DQS Gating
+ * PSU_DDR_PHY_DX8SL4OSC_LBGDQS 0x0
- /*Register : bank2_ctrl3 @ 0XFF180178</p>
+ * Loopback DQS Shift
+ * PSU_DDR_PHY_DX8SL4OSC_LBDQSS 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0 0
+ * PHY High-Speed Reset
+ * PSU_DDR_PHY_DX8SL4OSC_PHYHRST 0x1
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1 0
+ * PHY FIFO Reset
+ * PSU_DDR_PHY_DX8SL4OSC_PHYFRST 0x1
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23 0
+ * Delay Line Test Start
+ * PSU_DDR_PHY_DX8SL4OSC_DLTST 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24 0
+ * Delay Line Test Mode
+ * PSU_DDR_PHY_DX8SL4OSC_DLTMODE 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25 0
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL4OSC_RESERVED_12_11 0x3
- Selects either Schmitt or CMOS input for MIO Bank 2 - control MIO[77:52]
- (OFFSET, MASK, VALUE) (0XFF180178, 0x03FFFFFFU ,0x00000000U)
- RegMask = (IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_MASK | IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_MASK | 0 );
+ * Oscillator Mode Write-Data Delay Line Select
+ * PSU_DDR_PHY_DX8SL4OSC_OSCWDDL 0x3
- RegVal = ((0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK2_CTRL3_OFFSET ,0x03FFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Reserved. Caution, do not write to this register field.
+ * PSU_DDR_PHY_DX8SL4OSC_RESERVED_8_7 0x3
- /*Register : bank2_ctrl4 @ 0XFF18017C</p>
+ * Oscillator Mode Write-Leveling Delay Line Select
+ * PSU_DDR_PHY_DX8SL4OSC_OSCWDL 0x3
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0 1
+ * Oscillator Mode Division
+ * PSU_DDR_PHY_DX8SL4OSC_OSCDIV 0xf
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1 1
+ * Oscillator Enable
+ * PSU_DDR_PHY_DX8SL4OSC_OSCEN 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23 1
+ * DATX8 0-1 Oscillator, Delay Line Test, PHY FIFO and High Speed Reset, Lo
+ * opback, and Gated Clock Control Register
+ * (OFFSET, MASK, VALUE) (0XFD081500, 0xFFFFFFFFU ,0x2A019FFEU)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL4OSC_OFFSET, 0xFFFFFFFFU, 0x2A019FFEU);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24 1
+ /*
+ * Register : DX8SL4PLLCR0 @ 0XFD081504
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25 1
+ * PLL Bypass
+ * PSU_DDR_PHY_DX8SL4PLLCR0_PLLBYP 0x0
- When mio_bank2_pull_enable is set, this selects pull up or pull down for MIO Bank 2 - control MIO[77:52]
- (OFFSET, MASK, VALUE) (0XFF18017C, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_MASK | IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_MASK | 0 );
+ * PLL Reset
+ * PSU_DDR_PHY_DX8SL4PLLCR0_PLLRST 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK2_CTRL4_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * PLL Power Down
+ * PSU_DDR_PHY_DX8SL4PLLCR0_PLLPD 0x0
- /*Register : bank2_ctrl5 @ 0XFF180180</p>
+ * Reference Stop Mode
+ * PSU_DDR_PHY_DX8SL4PLLCR0_RSTOPM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0 1
+ * PLL Frequency Select
+ * PSU_DDR_PHY_DX8SL4PLLCR0_FRQSEL 0x1
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1 1
+ * Relock Mode
+ * PSU_DDR_PHY_DX8SL4PLLCR0_RLOCKM 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22 1
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23 1
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_DX8SL4PLLCR0_CPPC 0x8
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24 1
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_DX8SL4PLLCR0_CPIC 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25 1
+ * Gear Shift
+ * PSU_DDR_PHY_DX8SL4PLLCR0_GSHIFT 0x0
- When set, this enables mio_bank2_pullupdown to selects pull up or pull down for MIO Bank 2 - control MIO[77:52]
- (OFFSET, MASK, VALUE) (0XFF180180, 0x03FFFFFFU ,0x03FFFFFFU)
- RegMask = (IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_MASK | IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4PLLCR0_RESERVED_11_9 0x0
- RegVal = ((0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24_SHIFT
- | 0x00000001U << IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK2_CTRL5_OFFSET ,0x03FFFFFFU ,0x03FFFFFFU);
- /*############################################################################################################################ */
+ * Analog Test Enable (ATOEN)
+ * PSU_DDR_PHY_DX8SL4PLLCR0_ATOEN 0x0
- /*Register : bank2_ctrl6 @ 0XFF180184</p>
+ * Analog Test Control
+ * PSU_DDR_PHY_DX8SL4PLLCR0_ATC 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0
+ * Digital Test Control
+ * PSU_DDR_PHY_DX8SL4PLLCR0_DTC 0x0
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0
+ * DAXT8 0-1 PLL Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD081504, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL4PLLCR0_OFFSET,
+ 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0
-
- Each bit applies to a single IO. Bit 0 for MIO[52].
- PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0
-
- Slew rate control to MIO Bank 2 - control MIO[77:52]
- (OFFSET, MASK, VALUE) (0XFF180184, 0x03FFFFFFU ,0x00000000U)
- RegMask = (IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_MASK | IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24_SHIFT
- | 0x00000000U << IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_BANK2_CTRL6_OFFSET ,0x03FFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ /*
+ * Register : DX8SL4DQSCTL @ 0XFD08151C
- // : LOOPBACK
- /*Register : MIO_LOOPBACK @ 0XFF180200</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_31_25 0x0
- I2C Loopback Control. 0 = Connect I2C inputs according to MIO mapping. 1 = Loop I2C 0 outputs to I2C 1 inputs, and I2C 1 outp
- ts to I2C 0 inputs.
- PSU_IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1 0
-
- CAN Loopback Control. 0 = Connect CAN inputs according to MIO mapping. 1 = Loop CAN 0 Tx to CAN 1 Rx, and CAN 1 Tx to CAN 0 R
- .
- PSU_IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1 0
-
- UART Loopback Control. 0 = Connect UART inputs according to MIO mapping. 1 = Loop UART 0 outputs to UART 1 inputs, and UART 1
- outputs to UART 0 inputs. RXD/TXD cross-connected. RTS/CTS cross-connected. DSR, DTR, DCD and RI not used.
- PSU_IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1 0
-
- SPI Loopback Control. 0 = Connect SPI inputs according to MIO mapping. 1 = Loop SPI 0 outputs to SPI 1 inputs, and SPI 1 outp
- ts to SPI 0 inputs. The other SPI core will appear on the LS Slave Select.
- PSU_IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1 0
-
- Loopback function within MIO
- (OFFSET, MASK, VALUE) (0XFF180200, 0x0000000FU ,0x00000000U)
- RegMask = (IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_MASK | IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_MASK | IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_MASK | IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1_SHIFT
- | 0x00000000U << IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_MIO_LOOPBACK_OFFSET ,0x0000000FU ,0x00000000U);
- /*############################################################################################################################ */
-
-
- return 1;
-}
-unsigned long psu_peripherals_init_data() {
- // : RESET BLOCKS
- // : TIMESTAMP
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ * Read Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL4DQSCTL_RRRMODE 0x1
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_23_22 0x0
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00100000U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_MASK | 0 );
+ * Write Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SL4DQSCTL_WRRMODE 0x1
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00100000U ,0x00000000U);
- /*############################################################################################################################ */
+ * DQS Gate Extension
+ * PSU_DDR_PHY_DX8SL4DQSCTL_DQSGX 0x0
- // : ENET
- /*Register : RST_LPD_IOU0 @ 0XFF5E0230</p>
+ * Low Power PLL Power Down
+ * PSU_DDR_PHY_DX8SL4DQSCTL_LPPLLPD 0x1
- GEM 3 reset
- PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0
+ * Low Power I/O Power Down
+ * PSU_DDR_PHY_DX8SL4DQSCTL_LPIOPD 0x1
- Software controlled reset for the GEMs
- (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK | 0 );
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_16_15 0x0
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU0_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
+ * QS Counter Enable
+ * PSU_DDR_PHY_DX8SL4DQSCTL_QSCNTEN 0x1
- // : QSPI
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ * Unused DQ I/O Mode
+ * PSU_DDR_PHY_DX8SL4DQSCTL_UDQIOM 0x0
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_QSPI_RESET 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DQSCTL_RESERVED_12_10 0x0
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000001U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_QSPI_RESET_MASK | 0 );
+ * Data Slew Rate
+ * PSU_DDR_PHY_DX8SL4DQSCTL_DXSR 0x3
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_QSPI_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
+ * DQS_N Resistor
+ * PSU_DDR_PHY_DX8SL4DQSCTL_DQSNRES 0x0
- // : QSPI TAP DELAY
- /*Register : IOU_TAPDLY_BYPASS @ 0XFF180390</p>
+ * DQS Resistor
+ * PSU_DDR_PHY_DX8SL4DQSCTL_DQSRES 0x0
- 0: Do not by pass the tap delays on the Rx clock signal of LQSPI 1: Bypass the Tap delay on the Rx clock signal of LQSPI
- PSU_IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX 1
+ * DATX8 0-1 DQS Control Register
+ * (OFFSET, MASK, VALUE) (0XFD08151C, 0xFFFFFFFFU ,0x01264300U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL4DQSCTL_OFFSET,
+ 0xFFFFFFFFU, 0x01264300U);
+/*##################################################################### */
- IOU tap delay bypass for the LQSPI and NAND controllers
- (OFFSET, MASK, VALUE) (0XFF180390, 0x00000004U ,0x00000004U)
- RegMask = (IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_MASK | 0 );
+ /*
+ * Register : DX8SL4DXCTL2 @ 0XFD08152C
- RegVal = ((0x00000001U << IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_IOU_TAPDLY_BYPASS_OFFSET ,0x00000004U ,0x00000004U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_31_24 0x0
- // : NAND
- // : USB
- /*Register : RST_LPD_TOP @ 0XFF5E023C</p>
+ * Configurable Read Data Enable
+ * PSU_DDR_PHY_DX8SL4DXCTL2_CRDEN 0x0
- USB 0 reset for control registers
- PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0
+ * OX Extension during Post-amble
+ * PSU_DDR_PHY_DX8SL4DXCTL2_POSOEX 0x0
- USB 0 sleep circuit reset
- PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0
+ * OE Extension during Pre-amble
+ * PSU_DDR_PHY_DX8SL4DXCTL2_PREOEX 0x1
- USB 0 reset
- PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_17 0x0
- Software control register for the LPD block.
- (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000540U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK | CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK | CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK | 0 );
+ * I/O Assisted Gate Select
+ * PSU_DDR_PHY_DX8SL4DXCTL2_IOAG 0x0
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000540U ,0x00000000U);
- /*############################################################################################################################ */
+ * I/O Loopback Select
+ * PSU_DDR_PHY_DX8SL4DXCTL2_IOLB 0x0
- // : FPD RESET
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_14_13 0x0
- PCIE config reset
- PSU_CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET 0
+ * Low Power Wakeup Threshold
+ * PSU_DDR_PHY_DX8SL4DXCTL2_LPWAKEUP_THRSH 0xc
- PCIE control block level reset
- PSU_CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET 0
+ * Read Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL4DXCTL2_RDBI 0x0
- PCIE bridge block level reset (AXI interface)
- PSU_CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET 0
+ * Write Data Bus Inversion Enable
+ * PSU_DDR_PHY_DX8SL4DXCTL2_WDBI 0x0
- Display Port block level reset (includes DPDMA)
- PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0
+ * PUB Read FIFO Bypass
+ * PSU_DDR_PHY_DX8SL4DXCTL2_PRFBYP 0x0
- FPD WDT reset
- PSU_CRF_APB_RST_FPD_TOP_SWDT_RESET 0
+ * DATX8 Receive FIFO Read Mode
+ * PSU_DDR_PHY_DX8SL4DXCTL2_RDMODE 0x0
- GDMA block level reset
- PSU_CRF_APB_RST_FPD_TOP_GDMA_RESET 0
+ * Disables the Read FIFO Reset
+ * PSU_DDR_PHY_DX8SL4DXCTL2_DISRST 0x0
- Pixel Processor (submodule of GPU) block level reset
- PSU_CRF_APB_RST_FPD_TOP_GPU_PP0_RESET 0
+ * Read DQS Gate I/O Loopback
+ * PSU_DDR_PHY_DX8SL4DXCTL2_DQSGLB 0x0
- Pixel Processor (submodule of GPU) block level reset
- PSU_CRF_APB_RST_FPD_TOP_GPU_PP1_RESET 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4DXCTL2_RESERVED_0 0x0
- GPU block level reset
- PSU_CRF_APB_RST_FPD_TOP_GPU_RESET 0
+ * DATX8 0-1 DX Control Register 2
+ * (OFFSET, MASK, VALUE) (0XFD08152C, 0xFFFFFFFFU ,0x00041800U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL4DXCTL2_OFFSET,
+ 0xFFFFFFFFU, 0x00041800U);
+/*##################################################################### */
- GT block level reset
- PSU_CRF_APB_RST_FPD_TOP_GT_RESET 0
+ /*
+ * Register : DX8SL4IOCR @ 0XFD081530
- Sata block level reset
- PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SL4IOCR_RESERVED_31 0x0
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x000F807EU ,0x00000000U)
- RegMask = (CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET_MASK | CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET_MASK | CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET_MASK | CRF_APB_RST_FPD_TOP_DP_RESET_MASK | CRF_APB_RST_FPD_TOP_SWDT_RESET_MASK | CRF_APB_RST_FPD_TOP_GDMA_RESET_MASK | CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_MASK | CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_MASK | CRF_APB_RST_FPD_TOP_GPU_RESET_MASK | CRF_APB_RST_FPD_TOP_GT_RESET_MASK | CRF_APB_RST_FPD_TOP_SATA_RESET_MASK | 0 );
+ * PVREF_DAC REFSEL range select
+ * PSU_DDR_PHY_DX8SL4IOCR_DXDACRANGE 0x7
- RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_SWDT_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_GDMA_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_GPU_PP0_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_GPU_PP1_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_GPU_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_GT_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x000F807EU ,0x00000000U);
- /*############################################################################################################################ */
+ * IOM bits for PVREF, PVREF_DAC and PVREFE cells in DX IO ring
+ * PSU_DDR_PHY_DX8SL4IOCR_DXVREFIOM 0x0
- // : SD
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ * DX IO Mode
+ * PSU_DDR_PHY_DX8SL4IOCR_DXIOM 0x2
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_SDIO1_RESET 0
+ * DX IO Transmitter Mode
+ * PSU_DDR_PHY_DX8SL4IOCR_DXTXM 0x0
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000040U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_SDIO1_RESET_MASK | 0 );
+ * DX IO Receiver Mode
+ * PSU_DDR_PHY_DX8SL4IOCR_DXRXM 0x0
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_SDIO1_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000040U ,0x00000000U);
- /*############################################################################################################################ */
+ * DATX8 0-1 I/O Configuration Register
+ * (OFFSET, MASK, VALUE) (0XFD081530, 0xFFFFFFFFU ,0x70800000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SL4IOCR_OFFSET, 0xFFFFFFFFU, 0x70800000U);
+/*##################################################################### */
- /*Register : CTRL_REG_SD @ 0XFF180310</p>
+ /*
+ * Register : DX8SLbPLLCR0 @ 0XFD0817C4
- SD or eMMC selection on SDIO1 0: SD enabled 1: eMMC enabled
- PSU_IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL 0
+ * PLL Bypass
+ * PSU_DDR_PHY_DX8SLBPLLCR0_PLLBYP 0x0
- SD eMMC selection
- (OFFSET, MASK, VALUE) (0XFF180310, 0x00008000U ,0x00000000U)
- RegMask = (IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_MASK | 0 );
+ * PLL Reset
+ * PSU_DDR_PHY_DX8SLBPLLCR0_PLLRST 0x0
- RegVal = ((0x00000000U << IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_CTRL_REG_SD_OFFSET ,0x00008000U ,0x00000000U);
- /*############################################################################################################################ */
+ * PLL Power Down
+ * PSU_DDR_PHY_DX8SLBPLLCR0_PLLPD 0x0
- /*Register : SD_CONFIG_REG2 @ 0XFF180320</p>
+ * Reference Stop Mode
+ * PSU_DDR_PHY_DX8SLBPLLCR0_RSTOPM 0x0
- Should be set based on the final product usage 00 - Removable SCard Slot 01 - Embedded Slot for One Device 10 - Shared Bus Sl
- t 11 - Reserved
- PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE 0
+ * PLL Frequency Select
+ * PSU_DDR_PHY_DX8SLBPLLCR0_FRQSEL 0x1
- 1.8V Support 1: 1.8V supported 0: 1.8V not supported support
- PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V 0
+ * Relock Mode
+ * PSU_DDR_PHY_DX8SLBPLLCR0_RLOCKM 0x0
- 3.0V Support 1: 3.0V supported 0: 3.0V not supported support
- PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V 0
+ * Charge Pump Proportional Current Control
+ * PSU_DDR_PHY_DX8SLBPLLCR0_CPPC 0x8
- 3.3V Support 1: 3.3V supported 0: 3.3V not supported support
- PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V 1
+ * Charge Pump Integrating Current Control
+ * PSU_DDR_PHY_DX8SLBPLLCR0_CPIC 0x0
- SD Config Register 2
- (OFFSET, MASK, VALUE) (0XFF180320, 0x33800000U ,0x00800000U)
- RegMask = (IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_MASK | IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_MASK | IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_MASK | IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_MASK | 0 );
+ * Gear Shift
+ * PSU_DDR_PHY_DX8SLBPLLCR0_GSHIFT 0x0
- RegVal = ((0x00000000U << IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE_SHIFT
- | 0x00000000U << IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V_SHIFT
- | 0x00000000U << IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V_SHIFT
- | 0x00000001U << IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_SD_CONFIG_REG2_OFFSET ,0x33800000U ,0x00800000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SLBPLLCR0_RESERVED_11_9 0x0
- // : SD1 BASE CLOCK
- /*Register : SD_CONFIG_REG1 @ 0XFF18031C</p>
+ * Analog Test Enable (ATOEN)
+ * PSU_DDR_PHY_DX8SLBPLLCR0_ATOEN 0x0
- Base Clock Frequency for SD Clock. This is the frequency of the xin_clk.
- PSU_IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK 0xc7
+ * Analog Test Control
+ * PSU_DDR_PHY_DX8SLBPLLCR0_ATC 0x0
- SD Config Register 1
- (OFFSET, MASK, VALUE) (0XFF18031C, 0x7F800000U ,0x63800000U)
- RegMask = (IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_MASK | 0 );
+ * Digital Test Control
+ * PSU_DDR_PHY_DX8SLBPLLCR0_DTC 0x0
- RegVal = ((0x000000C7U << IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_SD_CONFIG_REG1_OFFSET ,0x7F800000U ,0x63800000U);
- /*############################################################################################################################ */
+ * DAXT8 0-8 PLL Control Register 0
+ * (OFFSET, MASK, VALUE) (0XFD0817C4, 0xFFFFFFFFU ,0x01100000U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SLBPLLCR0_OFFSET,
+ 0xFFFFFFFFU, 0x01100000U);
+/*##################################################################### */
- // : SD1 RETUNER
- /*Register : SD_CONFIG_REG3 @ 0XFF180324</p>
+ /*
+ * Register : DX8SLbDQSCTL @ 0XFD0817DC
- This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. Setting to 4'b0 disables Re-Tuning Timer. 0h - Get inf
- rmation via other source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds -- n = 2(n-1) seconds -- Bh = 1024 secon
- s Fh - Ch = Reserved
- PSU_IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR 0X0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_31_25 0x0
- SD Config Register 3
- (OFFSET, MASK, VALUE) (0XFF180324, 0x03C00000U ,0x00000000U)
- RegMask = (IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_MASK | 0 );
-
- RegVal = ((0x00000000U << IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SLCR_SD_CONFIG_REG3_OFFSET ,0x03C00000U ,0x00000000U);
- /*############################################################################################################################ */
+ * Read Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SLBDQSCTL_RRRMODE 0x1
- // : CAN
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_23_22 0x0
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_CAN1_RESET 0
+ * Write Path Rise-to-Rise Mode
+ * PSU_DDR_PHY_DX8SLBDQSCTL_WRRMODE 0x1
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000100U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_CAN1_RESET_MASK | 0 );
+ * DQS Gate Extension
+ * PSU_DDR_PHY_DX8SLBDQSCTL_DQSGX 0x0
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_CAN1_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000100U ,0x00000000U);
- /*############################################################################################################################ */
+ * Low Power PLL Power Down
+ * PSU_DDR_PHY_DX8SLBDQSCTL_LPPLLPD 0x1
- // : I2C
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ * Low Power I/O Power Down
+ * PSU_DDR_PHY_DX8SLBDQSCTL_LPIOPD 0x1
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_I2C0_RESET 0
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_16_15 0x0
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_I2C1_RESET 0
+ * QS Counter Enable
+ * PSU_DDR_PHY_DX8SLBDQSCTL_QSCNTEN 0x1
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000600U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_I2C0_RESET_MASK | CRL_APB_RST_LPD_IOU2_I2C1_RESET_MASK | 0 );
+ * Unused DQ I/O Mode
+ * PSU_DDR_PHY_DX8SLBDQSCTL_UDQIOM 0x0
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_I2C0_RESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_IOU2_I2C1_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000600U ,0x00000000U);
- /*############################################################################################################################ */
+ * Reserved. Return zeroes on reads.
+ * PSU_DDR_PHY_DX8SLBDQSCTL_RESERVED_12_10 0x0
- // : SWDT
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ * Data Slew Rate
+ * PSU_DDR_PHY_DX8SLBDQSCTL_DXSR 0x3
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_SWDT_RESET 0
+ * DQS# Resistor
+ * PSU_DDR_PHY_DX8SLBDQSCTL_DQSNRES 0xc
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00008000U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_SWDT_RESET_MASK | 0 );
+ * DQS Resistor
+ * PSU_DDR_PHY_DX8SLBDQSCTL_DQSRES 0x4
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_SWDT_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00008000U ,0x00000000U);
- /*############################################################################################################################ */
+ * DATX8 0-8 DQS Control Register
+ * (OFFSET, MASK, VALUE) (0XFD0817DC, 0xFFFFFFFFU ,0x012643C4U)
+ */
+ PSU_Mask_Write(DDR_PHY_DX8SLBDQSCTL_OFFSET,
+ 0xFFFFFFFFU, 0x012643C4U);
+/*##################################################################### */
- // : SPI
- // : TTC
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_TTC0_RESET 0
+ return 1;
+}
+unsigned long psu_ddr_qos_init_data(void)
+{
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_TTC1_RESET 0
+ return 1;
+}
+unsigned long psu_mio_init_data(void)
+{
+ /*
+ * MIO PROGRAMMING
+ */
+ /*
+ * Register : MIO_PIN_0 @ 0XFF180000
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out-
+ * (QSPI Clock)
+ * PSU_IOU_SLCR_MIO_PIN_0_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_0_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[0]- (Test Scan Port) = test_scan, Output, test_scan_out[0
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_0_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[0]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[0]- (GPIO bank 0) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= pjtag, Input, pjtag_tck- (PJTAG
+ * TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sc
+ * lk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Out
+ * put, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_c
+ * lk- (Trace Port Clock)
+ * PSU_IOU_SLCR_MIO_PIN_0_L3_SEL 0
+
+ * Configures MIO Pin 0 peripheral interface mapping. S
+ * (OFFSET, MASK, VALUE) (0XFF180000, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_0_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_1 @ 0XFF180004
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_mi1- (Q
+ * SPI Databus) 1= qspi, Output, qspi_so_mo1- (QSPI Databus)
+ * PSU_IOU_SLCR_MIO_PIN_1_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_1_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[1]- (Test Scan Port) = test_scan, Output, test_scan_out[1
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_1_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[1]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[1]- (GPIO bank 0) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tdi- (PJTAG
+ * TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc3, Ou
+ * tput, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART
+ * receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control
+ * Signal)
+ * PSU_IOU_SLCR_MIO_PIN_1_L3_SEL 0
+
+ * Configures MIO Pin 1 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180004, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_1_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_2 @ 0XFF180008
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi2- (QSPI
+ * Databus) 1= qspi, Output, qspi_mo2- (QSPI Databus)
+ * PSU_IOU_SLCR_MIO_PIN_2_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_2_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[2]- (Test Scan Port) = test_scan, Output, test_scan_out[2
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_2_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[2]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[2]- (GPIO bank 0) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= pjtag, Output, pjtag_tdo- (PJTAG
+ * TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc2, I
+ * nput, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver se
+ * rial input) 7= trace, Output, tracedq[0]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_2_L3_SEL 0
+
+ * Configures MIO Pin 2 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180008, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_2_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_3 @ 0XFF18000C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi3- (QSPI
+ * Databus) 1= qspi, Output, qspi_mo3- (QSPI Databus)
+ * PSU_IOU_SLCR_MIO_PIN_3_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_3_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[3]- (Test Scan Port) = test_scan, Output, test_scan_out[3
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_3_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[3]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[3]- (GPIO bank 0) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tms- (PJTAG
+ * TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output
+ * , spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc2, Output, ttc2_wave_out-
+ * (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial
+ * output) 7= trace, Output, tracedq[1]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_3_L3_SEL 0
+
+ * Configures MIO Pin 3 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18000C, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_3_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_4 @ 0XFF180010
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_mo_mo0- (
+ * QSPI Databus) 1= qspi, Input, qspi_si_mi0- (QSPI Databus)
+ * PSU_IOU_SLCR_MIO_PIN_4_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_4_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[4]- (Test Scan Port) = test_scan, Output, test_scan_out[4
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_4_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[4]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[4]- (GPIO bank 0) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (Wa
+ * tch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi
+ * 0, Output, spi0_so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Cloc
+ * k) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, O
+ * utput, tracedq[2]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_4_L3_SEL 0
+
+ * Configures MIO Pin 4 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180010, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_4_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_5 @ 0XFF180014
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out-
+ * (QSPI Slave Select)
+ * PSU_IOU_SLCR_MIO_PIN_5_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_5_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[5]- (Test Scan Port) = test_scan, Output, test_scan_out[5
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_5_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[5]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[5]- (GPIO bank 0) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out- (W
+ * atch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4=
+ * spi0, Input, spi0_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (TTC
+ * Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7=
+ * trace, Output, tracedq[3]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_5_L3_SEL 0
+
+ * Configures MIO Pin 5 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180014, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_5_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_6 @ 0XFF180018
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_clk_for_l
+ * pbk- (QSPI Clock to be fed-back)
+ * PSU_IOU_SLCR_MIO_PIN_6_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_6_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[6]- (Test Scan Port) = test_scan, Output, test_scan_out[6
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_6_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[6]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[6]- (GPIO bank 0) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (Wat
+ * ch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= s
+ * pi1, Output, spi1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TT
+ * C Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace,
+ * Output, tracedq[4]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_6_L3_SEL 0
+
+ * Configures MIO Pin 6 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180018, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_6_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_7 @ 0XFF18001C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_n_ss_out_
+ * upper- (QSPI Slave Select upper)
+ * PSU_IOU_SLCR_MIO_PIN_7_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_7_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[7]- (Test Scan Port) = test_scan, Output, test_scan_out[7
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_7_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[7]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[7]- (GPIO bank 0) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out- (
+ * Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Ma
+ * ster Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua
+ * 0, Output, ua0_txd- (UART transmitter serial output) 7= trace, Output, t
+ * racedq[5]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_7_L3_SEL 0
+
+ * Configures MIO Pin 7 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18001C, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_7_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_8 @ 0XFF180020
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[0
+ * ]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_upper[0]- (QSPI Upper D
+ * atabus)
+ * PSU_IOU_SLCR_MIO_PIN_8_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_8_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[8]- (Test Scan Port) = test_scan, Output, test_scan_out[8
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_8_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[8]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[8]- (GPIO bank 0) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (Wa
+ * tch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Maste
+ * r Selects) 5= ttc3, Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_
+ * txd- (UART transmitter serial output) 7= trace, Output, tracedq[6]- (Tra
+ * ce Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_8_L3_SEL 0
+
+ * Configures MIO Pin 8 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180020, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_8_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_9 @ 0XFF180024
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[1
+ * ]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_upper[1]- (QSPI Upper D
+ * atabus)
+ * PSU_IOU_SLCR_MIO_PIN_9_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NA
+ * ND chip enable)
+ * PSU_IOU_SLCR_MIO_PIN_9_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[9]- (Test Scan Port) = test_scan, Output, test_scan_out[9
+ * ]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_9_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[9]- (GPIO bank 0) 0= g
+ * pio0, Output, gpio_0_pin_out[9]- (GPIO bank 0) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out- (W
+ * atch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master S
+ * elects) 4= spi1, Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc3,
+ * Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UA
+ * RT receiver serial input) 7= trace, Output, tracedq[7]- (Trace Port Data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_9_L3_SEL 0
+
+ * Configures MIO Pin 9 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180024, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_9_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_10 @ 0XFF180028
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[2
+ * ]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_upper[2]- (QSPI Upper D
+ * atabus)
+ * PSU_IOU_SLCR_MIO_PIN_10_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (N
+ * AND Ready/Busy)
+ * PSU_IOU_SLCR_MIO_PIN_10_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[10]- (Test Scan Port) = test_scan, Output, test_scan_out[
+ * 10]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_10_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[10]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[10]- (GPIO bank 0) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= sp
+ * i1, Output, spi1_so- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clo
+ * ck) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outpu
+ * t, tracedq[8]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_10_L3_SEL 0
+
+ * Configures MIO Pin 10 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180028, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_10_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_11 @ 0XFF18002C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Input, qspi_mi_upper[3
+ * ]- (QSPI Upper Databus) 1= qspi, Output, qspi_mo_upper[3]- (QSPI Upper D
+ * atabus)
+ * PSU_IOU_SLCR_MIO_PIN_11_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (N
+ * AND Ready/Busy)
+ * PSU_IOU_SLCR_MIO_PIN_11_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[11]- (Test Scan Port) = test_scan, Output, test_scan_out[
+ * 11]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_11_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[11]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[11]- (GPIO bank 0) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal)
+ * 4= spi1, Input, spi1_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (
+ * TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial ou
+ * tput) 7= trace, Output, tracedq[9]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_11_L3_SEL 0
+
+ * Configures MIO Pin 11 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18002C, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_11_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_12 @ 0XFF180030
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= qspi, Output, qspi_sclk_out_
+ * upper- (QSPI Upper Clock)
+ * PSU_IOU_SLCR_MIO_PIN_12_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NA
+ * ND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe)
+ * PSU_IOU_SLCR_MIO_PIN_12_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= test_scan, Input
+ * , test_scan_in[12]- (Test Scan Port) = test_scan, Output, test_scan_out[
+ * 12]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_12_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[12]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[12]- (GPIO bank 0) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= pjtag, Input, pjtag_tck- (PJT
+ * AG TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_
+ * sclk_out- (SPI Clock) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, O
+ * utput, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace
+ * dq[10]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_12_L3_SEL 0
+
+ * Configures MIO Pin 12 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180030, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_12_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_13 @ 0XFF180034
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_13_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[0]- (NA
+ * ND chip enable)
+ * PSU_IOU_SLCR_MIO_PIN_13_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[13]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[13]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_13_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[13]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[13]- (GPIO bank 0) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tdi- (PJTA
+ * G TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1,
+ * Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UAR
+ * T receiver serial input) 7= trace, Output, tracedq[11]- (Trace Port Data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_13_L3_SEL 0
+
+ * Configures MIO Pin 13 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180034, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_13_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_14 @ 0XFF180038
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_14_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_cle- (NAND
+ * Command Latch Enable)
+ * PSU_IOU_SLCR_MIO_PIN_14_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[14]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[14]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_14_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[14]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[14]- (GPIO bank 0) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= pjtag, Output, pjtag_tdo- (PJT
+ * AG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0,
+ * Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver
+ * serial input) 7= trace, Output, tracedq[12]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_14_L3_SEL 2
+
+ * Configures MIO Pin 14 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180038, 0x000000FEU ,0x00000040U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_14_OFFSET, 0x000000FEU, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_15 @ 0XFF18003C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_15_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ale- (NAND
+ * Address Latch Enable)
+ * PSU_IOU_SLCR_MIO_PIN_15_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[15]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[15]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_15_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[15]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[15]- (GPIO bank 0) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tms- (PJT
+ * AG TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Outp
+ * ut, spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_ou
+ * t- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter seria
+ * l output) 7= trace, Output, tracedq[13]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_15_L3_SEL 2
+
+ * Configures MIO Pin 15 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18003C, 0x000000FEU ,0x00000040U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_15_OFFSET, 0x000000FEU, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_16 @ 0XFF180040
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_16_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[0]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[0]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_16_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[16]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[16]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_16_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[16]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[16]- (GPIO bank 0) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= s
+ * pi0, Output, spi0_so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Cl
+ * ock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace,
+ * Output, tracedq[14]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_16_L3_SEL 2
+
+ * Configures MIO Pin 16 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180040, 0x000000FEU ,0x00000040U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_16_OFFSET, 0x000000FEU, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_17 @ 0XFF180044
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_17_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[1]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[1]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_17_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[17]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[17]- (Test Scan Port) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_17_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[17]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[17]- (GPIO bank 0) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4
+ * = spi0, Input, spi0_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (T
+ * TC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
+ * 7= trace, Output, tracedq[15]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_17_L3_SEL 2
+
+ * Configures MIO Pin 17 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180044, 0x000000FEU ,0x00000040U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_17_OFFSET, 0x000000FEU, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_18 @ 0XFF180048
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_18_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[2]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[2]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_18_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[18]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[18]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU
+ * Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_18_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[18]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[18]- (GPIO bank 0) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= sp
+ * i1, Output, spi1_so- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clo
+ * ck) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_18_L3_SEL 6
+
+ * Configures MIO Pin 18 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180048, 0x000000FEU ,0x000000C0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_18_OFFSET, 0x000000FEU, 0x000000C0U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_19 @ 0XFF18004C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_19_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[3]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[3]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_19_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[19]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[19]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU
+ * Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_19_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[19]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[19]- (GPIO bank 0) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI
+ * Master Selects) 5= ttc2, Output, ttc2_wave_out- (TTC Waveform Clock) 6=
+ * ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_19_L3_SEL 6
+
+ * Configures MIO Pin 19 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18004C, 0x000000FEU ,0x000000C0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_19_OFFSET, 0x000000FEU, 0x000000C0U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_20 @ 0XFF180050
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_20_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[4]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[4]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_20_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8-bit Data bus) 2= t
+ * est_scan, Input, test_scan_in[20]- (Test Scan Port) = test_scan, Output,
+ * test_scan_out[20]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU
+ * Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_20_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[20]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[20]- (GPIO bank 0) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Mas
+ * ter Selects) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua
+ * 1_txd- (UART transmitter serial output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_20_L3_SEL 6
+
+ * Configures MIO Pin 20 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180050, 0x000000FEU ,0x000000C0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_20_OFFSET, 0x000000FEU, 0x000000C0U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_21 @ 0XFF180054
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_21_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[5]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[5]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_21_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Com
+ * mand Indicator) = sd0, Output, sdio0_cmd_out- (Command Indicator) 2= tes
+ * t_scan, Input, test_scan_in[21]- (Test Scan Port) = test_scan, Output, t
+ * est_scan_out[21]- (Test Scan Port) 3= csu, Input, csu_ext_tamper- (CSU E
+ * xt Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_21_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[21]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[21]- (GPIO bank 0) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master
+ * Selects) 4= spi1, Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc
+ * 1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (
+ * UART receiver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_21_L3_SEL 6
+
+ * Configures MIO Pin 21 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180054, 0x000000FEU ,0x000000C0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_21_OFFSET, 0x000000FEU, 0x000000C0U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_22 @ 0XFF180058
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_22_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_we_b- (NAN
+ * D Write Enable)
+ * PSU_IOU_SLCR_MIO_PIN_22_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out-
+ * (SDSDIO clock) 2= test_scan, Input, test_scan_in[22]- (Test Scan Port) =
+ * test_scan, Output, test_scan_out[22]- (Test Scan Port) 3= csu, Input, c
+ * su_ext_tamper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_22_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[22]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[22]- (GPIO bank 0) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4=
+ * spi1, Output, spi1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (
+ * TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not U
+ * sed
+ * PSU_IOU_SLCR_MIO_PIN_22_L3_SEL 0
+
+ * Configures MIO Pin 22 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180058, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_22_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_23 @ 0XFF18005C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_23_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[6]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[6]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_23_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow-
+ * (SD card bus power) 2= test_scan, Input, test_scan_in[23]- (Test Scan Po
+ * rt) = test_scan, Output, test_scan_out[23]- (Test Scan Port) 3= csu, Inp
+ * ut, csu_ext_tamper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_23_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[23]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[23]- (GPIO bank 0) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal)
+ * 4= spi1, Input, spi1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (
+ * TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial ou
+ * tput) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_23_L3_SEL 0
+
+ * Configures MIO Pin 23 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18005C, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_23_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_24 @ 0XFF180060
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_24_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dq_in[7]- (
+ * NAND Data Bus) 1= nand, Output, nfc_dq_out[7]- (NAND Data Bus)
+ * PSU_IOU_SLCR_MIO_PIN_24_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD
+ * card detect from connector) 2= test_scan, Input, test_scan_in[24]- (Test
+ * Scan Port) = test_scan, Output, test_scan_out[24]- (Test Scan Port) 3=
+ * csu, Input, csu_ext_tamper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_24_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[24]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[24]- (GPIO bank 0) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= Not Used 5= ttc3, Input, ttc3_clk_in- (T
+ * TC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= N
+ * ot Used
+ * PSU_IOU_SLCR_MIO_PIN_24_L3_SEL 1
+
+ * Configures MIO Pin 24 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180060, 0x000000FEU ,0x00000020U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_24_OFFSET, 0x000000FEU, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_25 @ 0XFF180064
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_25_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_re_n- (NAN
+ * D Read Enable)
+ * PSU_IOU_SLCR_MIO_PIN_25_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD ca
+ * rd write protect from connector) 2= test_scan, Input, test_scan_in[25]-
+ * (Test Scan Port) = test_scan, Output, test_scan_out[25]- (Test Scan Port
+ * ) 3= csu, Input, csu_ext_tamper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_25_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio0, Input, gpio_0_pin_in[25]- (GPIO bank 0) 0=
+ * gpio0, Output, gpio_0_pin_out[25]- (GPIO bank 0) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= Not Used 5= ttc3, Output, ttc3_wave_ou
+ * t- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial in
+ * put) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_25_L3_SEL 1
+
+ * Configures MIO Pin 25 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180064, 0x000000FEU ,0x00000020U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_25_OFFSET, 0x000000FEU, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_26 @ 0XFF180068
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_
+ * clk- (TX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_26_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Output, nfc_ce[1]- (NA
+ * ND chip enable)
+ * PSU_IOU_SLCR_MIO_PIN_26_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[0]- (PMU
+ * GPI) 2= test_scan, Input, test_scan_in[26]- (Test Scan Port) = test_sca
+ * n, Output, test_scan_out[26]- (Test Scan Port) 3= csu, Input, csu_ext_ta
+ * mper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_26_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[0]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[0]- (GPIO bank 1) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= pjtag, Input, pjtag_tck- (PJTAG
+ * TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_scl
+ * k_out- (SPI Clock) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Inpu
+ * t, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]- (
+ * Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_26_L3_SEL 0
+
+ * Configures MIO Pin 26 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180068, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_26_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_27 @ 0XFF18006C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd
+ * [0]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_27_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[0]- (N
+ * AND Ready/Busy)
+ * PSU_IOU_SLCR_MIO_PIN_27_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[1]- (PMU
+ * GPI) 2= test_scan, Input, test_scan_in[27]- (Test Scan Port) = test_sca
+ * n, Output, test_scan_out[27]- (Test Scan Port) 3= dpaux, Input, dp_aux_d
+ * ata_in- (Dp Aux Data) = dpaux, Output, dp_aux_data_out- (Dp Aux Data)
+ * PSU_IOU_SLCR_MIO_PIN_27_L2_SEL 3
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[1]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[1]- (GPIO bank 1) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tdi- (PJTAG
+ * TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc2, O
+ * utput, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UAR
+ * T transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port D
+ * atabus)
+ * PSU_IOU_SLCR_MIO_PIN_27_L3_SEL 0
+
+ * Configures MIO Pin 27 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18006C, 0x000000FEU ,0x00000018U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_27_OFFSET, 0x000000FEU, 0x00000018U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_28 @ 0XFF180070
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd
+ * [1]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_28_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_rb_n[1]- (N
+ * AND Ready/Busy)
+ * PSU_IOU_SLCR_MIO_PIN_28_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[2]- (PMU
+ * GPI) 2= test_scan, Input, test_scan_in[28]- (Test Scan Port) = test_sca
+ * n, Output, test_scan_out[28]- (Test Scan Port) 3= dpaux, Input, dp_hot_p
+ * lug_detect- (Dp Aux Hot Plug)
+ * PSU_IOU_SLCR_MIO_PIN_28_L2_SEL 3
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[2]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[2]- (GPIO bank 1) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= pjtag, Output, pjtag_tdo- (PJTA
+ * G TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc1,
+ * Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitt
+ * er serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_28_L3_SEL 0
+
+ * Configures MIO Pin 28 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180070, 0x000000FEU ,0x00000018U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_28_OFFSET, 0x000000FEU, 0x00000018U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_29 @ 0XFF180074
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd
+ * [2]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_29_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_29_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[3]- (PMU
+ * GPI) 2= test_scan, Input, test_scan_in[29]- (Test Scan Port) = test_sca
+ * n, Output, test_scan_out[29]- (Test Scan Port) 3= dpaux, Input, dp_aux_d
+ * ata_in- (Dp Aux Data) = dpaux, Output, dp_aux_data_out- (Dp Aux Data)
+ * PSU_IOU_SLCR_MIO_PIN_29_L2_SEL 3
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[3]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[3]- (GPIO bank 1) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tms- (PJTAG
+ * TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output,
+ * spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out-
+ * (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input
+ * ) 7= trace, Output, tracedq[7]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_29_L3_SEL 0
+
+ * Configures MIO Pin 29 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180074, 0x000000FEU ,0x00000018U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_29_OFFSET, 0x000000FEU, 0x00000018U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_30 @ 0XFF180078
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_txd
+ * [3]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_30_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_30_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[4]- (PMU
+ * GPI) 2= test_scan, Input, test_scan_in[30]- (Test Scan Port) = test_sca
+ * n, Output, test_scan_out[30]- (Test Scan Port) 3= dpaux, Input, dp_hot_p
+ * lug_detect- (Dp Aux Hot Plug)
+ * PSU_IOU_SLCR_MIO_PIN_30_L2_SEL 3
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[4]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[4]- (GPIO bank 1) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (Wat
+ * ch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi0
+ * , Output, spi0_so- (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clock
+ * ) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Output,
+ * tracedq[8]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_30_L3_SEL 0
+
+ * Configures MIO Pin 30 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180078, 0x000000FEU ,0x00000018U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_30_OFFSET, 0x000000FEU, 0x00000018U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_31 @ 0XFF18007C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Output, gem0_rgmii_tx_
+ * ctl- (TX RGMII control)
+ * PSU_IOU_SLCR_MIO_PIN_31_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_31_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Input, pmu_gpi[5]- (PMU
+ * GPI) 2= test_scan, Input, test_scan_in[31]- (Test Scan Port) = test_sca
+ * n, Output, test_scan_out[31]- (Test Scan Port) 3= csu, Input, csu_ext_ta
+ * mper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_31_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[5]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[5]- (GPIO bank 1) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out- (
+ * Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4=
+ * spi0, Input, spi0_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (TT
+ * C Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial outp
+ * ut) 7= trace, Output, tracedq[9]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_31_L3_SEL 0
+
+ * Configures MIO Pin 31 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18007C, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_31_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_32 @ 0XFF180080
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_c
+ * lk- (RX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_32_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= nand, Input, nfc_dqs_in- (NA
+ * ND Strobe) 1= nand, Output, nfc_dqs_out- (NAND Strobe)
+ * PSU_IOU_SLCR_MIO_PIN_32_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[0]- (PM
+ * U GPI) 2= test_scan, Input, test_scan_in[32]- (Test Scan Port) = test_sc
+ * an, Output, test_scan_out[32]- (Test Scan Port) 3= csu, Input, csu_ext_t
+ * amper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_32_L2_SEL 1
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[6]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[6]- (GPIO bank 1) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (Wa
+ * tch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4=
+ * spi1, Output, spi1_sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in- (T
+ * TC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= t
+ * race, Output, tracedq[10]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_32_L3_SEL 0
+
+ * Configures MIO Pin 32 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180080, 0x000000FEU ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_32_OFFSET, 0x000000FEU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_33 @ 0XFF180084
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[
+ * 0]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_33_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_33_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[1]- (PM
+ * U GPI) 2= test_scan, Input, test_scan_in[33]- (Test Scan Port) = test_sc
+ * an, Output, test_scan_out[33]- (Test Scan Port) 3= csu, Input, csu_ext_t
+ * amper- (CSU Ext Tamper)
+ * PSU_IOU_SLCR_MIO_PIN_33_L2_SEL 1
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[7]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[7]- (GPIO bank 1) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out- (W
+ * atch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Mas
+ * ter Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= ua1
+ * , Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, tracedq
+ * [11]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_33_L3_SEL 0
+
+ * Configures MIO Pin 33 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180084, 0x000000FEU ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_33_OFFSET, 0x000000FEU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_34 @ 0XFF180088
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[
+ * 1]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_34_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_34_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[2]- (PM
+ * U GPI) 2= test_scan, Input, test_scan_in[34]- (Test Scan Port) = test_sc
+ * an, Output, test_scan_out[34]- (Test Scan Port) 3= dpaux, Input, dp_aux_
+ * data_in- (Dp Aux Data) = dpaux, Output, dp_aux_data_out- (Dp Aux Data)
+ * PSU_IOU_SLCR_MIO_PIN_34_L2_SEL 1
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[8]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[8]- (GPIO bank 1) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (Wat
+ * ch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master
+ * Selects) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rx
+ * d- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace Po
+ * rt Databus)
+ * PSU_IOU_SLCR_MIO_PIN_34_L3_SEL 0
+
+ * Configures MIO Pin 34 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180088, 0x000000FEU ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_34_OFFSET, 0x000000FEU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_35 @ 0XFF18008C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[
+ * 2]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_35_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_35_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[3]- (PM
+ * U GPI) 2= test_scan, Input, test_scan_in[35]- (Test Scan Port) = test_sc
+ * an, Output, test_scan_out[35]- (Test Scan Port) 3= dpaux, Input, dp_hot_
+ * plug_detect- (Dp Aux Hot Plug)
+ * PSU_IOU_SLCR_MIO_PIN_35_L2_SEL 1
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[9]- (GPIO bank 1) 0= g
+ * pio1, Output, gpio_1_pin_out[9]- (GPIO bank 1) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out- (
+ * Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master
+ * Selects) 4= spi1, Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc2
+ * , Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (
+ * UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace Po
+ * rt Databus)
+ * PSU_IOU_SLCR_MIO_PIN_35_L3_SEL 0
+
+ * Configures MIO Pin 35 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18008C, 0x000000FEU ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_35_OFFSET, 0x000000FEU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_36 @ 0XFF180090
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rxd[
+ * 3]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_36_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_36_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[4]- (PM
+ * U GPI) 2= test_scan, Input, test_scan_in[36]- (Test Scan Port) = test_sc
+ * an, Output, test_scan_out[36]- (Test Scan Port) 3= dpaux, Input, dp_aux_
+ * data_in- (Dp Aux Data) = dpaux, Output, dp_aux_data_out- (Dp Aux Data)
+ * PSU_IOU_SLCR_MIO_PIN_36_L2_SEL 1
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[10]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[10]- (GPIO bank 1) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= s
+ * pi1, Output, spi1_so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Cl
+ * ock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace,
+ * Output, tracedq[14]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_36_L3_SEL 0
+
+ * Configures MIO Pin 36 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180090, 0x000000FEU ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_36_OFFSET, 0x000000FEU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_37 @ 0XFF180094
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem0, Input, gem0_rgmii_rx_c
+ * tl- (RX RGMII control )
+ * PSU_IOU_SLCR_MIO_PIN_37_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= pcie, Input, pcie_reset_n- (
+ * PCIE Reset signal)
+ * PSU_IOU_SLCR_MIO_PIN_37_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= pmu, Output, pmu_gpo[5]- (PM
+ * U GPI) 2= test_scan, Input, test_scan_in[37]- (Test Scan Port) = test_sc
+ * an, Output, test_scan_out[37]- (Test Scan Port) 3= dpaux, Input, dp_hot_
+ * plug_detect- (Dp Aux Hot Plug)
+ * PSU_IOU_SLCR_MIO_PIN_37_L2_SEL 1
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[11]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[11]- (GPIO bank 1) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4
+ * = spi1, Input, spi1_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (T
+ * TC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
+ * 7= trace, Output, tracedq[15]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_37_L3_SEL 0
+
+ * Configures MIO Pin 37 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180094, 0x000000FEU ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_37_OFFSET, 0x000000FEU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_38 @ 0XFF180098
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_
+ * clk- (TX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_38_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_38_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out-
+ * (SDSDIO clock) 2= Not Used 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_38_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[12]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[12]- (GPIO bank 1) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= pjtag, Input, pjtag_tck- (PJTA
+ * G TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_s
+ * clk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, In
+ * put, ua0_rxd- (UART receiver serial input) 7= trace, Output, trace_clk-
+ * (Trace Port Clock)
+ * PSU_IOU_SLCR_MIO_PIN_38_L3_SEL 0
+
+ * Configures MIO Pin 38 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180098, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_38_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_39 @ 0XFF18009C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd
+ * [0]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_39_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_39_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD
+ * card detect from connector) 2= sd1, Input, sd1_data_in[4]- (8-bit Data b
+ * us) = sd1, Output, sdio1_data_out[4]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_39_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[13]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[13]- (GPIO bank 1) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tdi- (PJT
+ * AG TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc0,
+ * Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (U
+ * ART transmitter serial output) 7= trace, Output, trace_ctl- (Trace Port
+ * Control Signal)
+ * PSU_IOU_SLCR_MIO_PIN_39_L3_SEL 0
+
+ * Configures MIO Pin 39 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18009C, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_39_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_40 @ 0XFF1800A0
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd
+ * [1]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_40_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_40_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Com
+ * mand Indicator) = sd0, Output, sdio0_cmd_out- (Command Indicator) 2= sd1
+ * , Input, sd1_data_in[5]- (8-bit Data bus) = sd1, Output, sdio1_data_out[
+ * 5]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_40_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[14]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[14]- (GPIO bank 1) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= pjtag, Output, pjtag_tdo- (PJ
+ * TAG TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc3
+ * , Input, ttc3_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmi
+ * tter serial output) 7= trace, Output, tracedq[0]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_40_L3_SEL 0
+
+ * Configures MIO Pin 40 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800A0, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_40_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_41 @ 0XFF1800A4
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd
+ * [2]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_41_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_41_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[6]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[6]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_41_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[15]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[15]- (GPIO bank 1) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tms- (PJTA
+ * G TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Outpu
+ * t, spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc3, Output, ttc3_wave_out
+ * - (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial inp
+ * ut) 7= trace, Output, tracedq[1]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_41_L3_SEL 0
+
+ * Configures MIO Pin 41 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800A4, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_41_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_42 @ 0XFF1800A8
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_txd
+ * [3]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_42_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_42_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[7]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[7]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_42_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[16]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[16]- (GPIO bank 1) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= sp
+ * i0, Output, spi0_so- (MISO signal) 5= ttc2, Input, ttc2_clk_in- (TTC Clo
+ * ck) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outpu
+ * t, tracedq[2]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_42_L3_SEL 0
+
+ * Configures MIO Pin 42 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800A8, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_42_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_43 @ 0XFF1800AC
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Output, gem1_rgmii_tx_
+ * ctl- (TX RGMII control)
+ * PSU_IOU_SLCR_MIO_PIN_43_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_43_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8-bit Data bus) 2= s
+ * d1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_43_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[17]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[17]- (GPIO bank 1) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal)
+ * 4= spi0, Input, spi0_si- (MOSI signal) 5= ttc2, Output, ttc2_wave_out- (
+ * TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial ou
+ * tput) 7= trace, Output, tracedq[3]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_43_L3_SEL 0
+
+ * Configures MIO Pin 43 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800AC, 0x000000FEU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_43_OFFSET, 0x000000FEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_44 @ 0XFF1800B0
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_c
+ * lk- (RX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_44_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_44_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8-bit Data bus) 2= s
+ * d1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_44_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[18]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[18]- (GPIO bank 1) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4
+ * = spi1, Output, spi1_sclk_out- (SPI Clock) 5= ttc1, Input, ttc1_clk_in-
+ * (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7=
+ * Not Used
+ * PSU_IOU_SLCR_MIO_PIN_44_L3_SEL 0
+
+ * Configures MIO Pin 44 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800B0, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_44_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_45 @ 0XFF1800B4
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[
+ * 0]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_45_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_45_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8-bit Data bus) 2= s
+ * d1, Input, sdio1_cd_n- (SD card detect from connector) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_45_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[19]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[19]- (GPIO bank 1) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI M
+ * aster Selects) 5= ttc1, Output, ttc1_wave_out- (TTC Waveform Clock) 6= u
+ * a1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_45_L3_SEL 0
+
+ * Configures MIO Pin 45 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800B4, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_45_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_46 @ 0XFF1800B8
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[
+ * 1]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_46_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_46_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[0]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_46_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[20]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[20]- (GPIO bank 1) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Mast
+ * er Selects) 5= ttc0, Input, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_
+ * rxd- (UART receiver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_46_L3_SEL 0
+
+ * Configures MIO Pin 46 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800B8, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_46_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_47 @ 0XFF1800BC
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[
+ * 2]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_47_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_47_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[1]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_47_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[21]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[21]- (GPIO bank 1) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Maste
+ * r Selects) 4= spi1, Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= tt
+ * c0, Output, ttc0_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd-
+ * (UART transmitter serial output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_47_L3_SEL 0
+
+ * Configures MIO Pin 47 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800BC, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_47_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_48 @ 0XFF1800C0
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rxd[
+ * 3]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_48_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_48_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[2]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_48_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[22]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[22]- (GPIO bank 1) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= s
+ * pi1, Output, spi1_so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Cl
+ * ock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= Not Us
+ * ed
+ * PSU_IOU_SLCR_MIO_PIN_48_L3_SEL 0
+
+ * Configures MIO Pin 48 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800C0, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_48_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_49 @ 0XFF1800C4
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem1, Input, gem1_rgmii_rx_c
+ * tl- (RX RGMII control )
+ * PSU_IOU_SLCR_MIO_PIN_49_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_49_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow-
+ * (SD card bus power) 2= sd1, Input, sd1_data_in[3]- (8-bit Data bus) = sd
+ * 1, Output, sdio1_data_out[3]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_49_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[23]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[23]- (GPIO bank 1) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal) 4
+ * = spi1, Input, spi1_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (T
+ * TC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
+ * 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_49_L3_SEL 0
+
+ * Configures MIO Pin 49 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800C4, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_49_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_50 @ 0XFF1800C8
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk-
+ * (TSU clock)
+ * PSU_IOU_SLCR_MIO_PIN_50_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_50_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD ca
+ * rd write protect from connector) 2= sd1, Input, sd1_cmd_in- (Command Ind
+ * icator) = sd1, Output, sdio1_cmd_out- (Command Indicator) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_50_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[24]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[24]- (GPIO bank 1) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5=
+ * ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART rece
+ * iver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_50_L3_SEL 0
+
+ * Configures MIO Pin 50 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800C8, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_50_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_51 @ 0XFF1800CC
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem_tsu, Input, gem_tsu_clk-
+ * (TSU clock)
+ * PSU_IOU_SLCR_MIO_PIN_51_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_51_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Output, sdi
+ * o1_clk_out- (SDSDIO clock) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_51_L2_SEL 2
+
+ * Level 3 Mux Select 0= gpio1, Input, gpio_1_pin_in[25]- (GPIO bank 1) 0=
+ * gpio1, Output, gpio_1_pin_out[25]- (GPIO bank 1) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= mdio1, Input, gem1_mdio_in- (MDIO Dat
+ * a) 4= mdio1, Output, gem1_mdio_out- (MDIO Data) 5= ttc2, Output, ttc2_wa
+ * ve_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter
+ * serial output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_51_L3_SEL 0
+
+ * Configures MIO Pin 51 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800CC, 0x000000FEU ,0x00000010U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_51_OFFSET, 0x000000FEU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_52 @ 0XFF1800D0
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_
+ * clk- (TX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_52_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_clk_i
+ * n- (ULPI Clock)
+ * PSU_IOU_SLCR_MIO_PIN_52_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_52_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[0]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[0]- (GPIO bank 2) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= pjtag, Input, pjtag_tck- (PJTAG
+ * TCK) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4= spi0, Output, spi0_sc
+ * lk_out- (SPI Clock) 5= ttc1, Input, ttc1_clk_in- (TTC Clock) 6= ua1, Out
+ * put, ua1_txd- (UART transmitter serial output) 7= trace, Output, trace_c
+ * lk- (Trace Port Clock)
+ * PSU_IOU_SLCR_MIO_PIN_52_L3_SEL 0
+
+ * Configures MIO Pin 52 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800D0, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_52_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_53 @ 0XFF1800D4
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd
+ * [0]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_53_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_dir-
+ * (Data bus direction control)
+ * PSU_IOU_SLCR_MIO_PIN_53_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_53_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[1]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[1]- (GPIO bank 2) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tdi- (PJTAG
+ * TDI) 4= spi0, Output, spi0_n_ss_out[2]- (SPI Master Selects) 5= ttc1, Ou
+ * tput, ttc1_wave_out- (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART
+ * receiver serial input) 7= trace, Output, trace_ctl- (Trace Port Control
+ * Signal)
+ * PSU_IOU_SLCR_MIO_PIN_53_L3_SEL 0
+
+ * Configures MIO Pin 53 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800D4, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_53_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_54 @ 0XFF1800D8
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd
+ * [1]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_54_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[2]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[2]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_54_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_54_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[2]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[2]- (GPIO bank 2) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= pjtag, Output, pjtag_tdo- (PJTAG
+ * TDO) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Master Selects) 5= ttc0, I
+ * nput, ttc0_clk_in- (TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver se
+ * rial input) 7= trace, Output, tracedq[0]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_54_L3_SEL 0
+
+ * Configures MIO Pin 54 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800D8, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_54_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_55 @ 0XFF1800DC
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd
+ * [2]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_55_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_nxt-
+ * (Data flow control signal from the PHY)
+ * PSU_IOU_SLCR_MIO_PIN_55_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_55_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[3]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[3]- (GPIO bank 2) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tms- (PJTAG
+ * TMS) 4= spi0, Input, spi0_n_ss_in- (SPI Master Selects) 4= spi0, Output
+ * , spi0_n_ss_out[0]- (SPI Master Selects) 5= ttc0, Output, ttc0_wave_out-
+ * (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial
+ * output) 7= trace, Output, tracedq[1]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_55_L3_SEL 0
+
+ * Configures MIO Pin 55 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800DC, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_55_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_56 @ 0XFF1800E0
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_txd
+ * [3]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_56_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[0]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[0]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_56_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_56_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[4]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[4]- (GPIO bank 2) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (Wa
+ * tch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= spi
+ * 0, Output, spi0_so- (MISO signal) 5= ttc3, Input, ttc3_clk_in- (TTC Cloc
+ * k) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace, O
+ * utput, tracedq[2]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_56_L3_SEL 0
+
+ * Configures MIO Pin 56 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800E0, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_56_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_57 @ 0XFF1800E4
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Output, gem2_rgmii_tx_
+ * ctl- (TX RGMII control)
+ * PSU_IOU_SLCR_MIO_PIN_57_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[1]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[1]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_57_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_57_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[5]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[5]- (GPIO bank 2) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out- (W
+ * atch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4=
+ * spi0, Input, spi0_si- (MOSI signal) 5= ttc3, Output, ttc3_wave_out- (TTC
+ * Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7=
+ * trace, Output, tracedq[3]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_57_L3_SEL 0
+
+ * Configures MIO Pin 57 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800E4, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_57_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_58 @ 0XFF1800E8
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_c
+ * lk- (RX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_58_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Output, usb0_ulpi_stp-
+ * (Asserted to end or interrupt transfers)
+ * PSU_IOU_SLCR_MIO_PIN_58_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_58_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[6]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[6]- (GPIO bank 2) 1= can0, Input, can0_phy_
+ * rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2c0
+ * , Output, i2c0_scl_out- (SCL signal) 3= pjtag, Input, pjtag_tck- (PJTAG
+ * TCK) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4= spi1, Output, spi1_scl
+ * k_out- (SPI Clock) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Inpu
+ * t, ua0_rxd- (UART receiver serial input) 7= trace, Output, tracedq[4]- (
+ * Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_58_L3_SEL 0
+
+ * Configures MIO Pin 58 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800E8, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_58_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_59 @ 0XFF1800EC
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[
+ * 0]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_59_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[3]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[3]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_59_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_59_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[7]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[7]- (GPIO bank 2) 1= can0, Output, can0_phy
+ * _tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i2c
+ * 0, Output, i2c0_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tdi- (PJTAG
+ * TDI) 4= spi1, Output, spi1_n_ss_out[2]- (SPI Master Selects) 5= ttc2, O
+ * utput, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UAR
+ * T transmitter serial output) 7= trace, Output, tracedq[5]- (Trace Port D
+ * atabus)
+ * PSU_IOU_SLCR_MIO_PIN_59_L3_SEL 0
+
+ * Configures MIO Pin 59 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800EC, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_59_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_60 @ 0XFF1800F0
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[
+ * 1]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_60_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[4]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[4]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_60_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_60_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[8]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[8]- (GPIO bank 2) 1= can1, Output, can1_phy
+ * _tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i2c
+ * 1, Output, i2c1_scl_out- (SCL signal) 3= pjtag, Output, pjtag_tdo- (PJTA
+ * G TDO) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Master Selects) 5= ttc1,
+ * Input, ttc1_clk_in- (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitt
+ * er serial output) 7= trace, Output, tracedq[6]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_60_L3_SEL 0
+
+ * Configures MIO Pin 60 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800F0, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_60_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_61 @ 0XFF1800F4
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[
+ * 2]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_61_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[5]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[5]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_61_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_61_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[9]- (GPIO bank 2) 0= g
+ * pio2, Output, gpio_2_pin_out[9]- (GPIO bank 2) 1= can1, Input, can1_phy_
+ * rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2c1
+ * , Output, i2c1_sda_out- (SDA signal) 3= pjtag, Input, pjtag_tms- (PJTAG
+ * TMS) 4= spi1, Input, spi1_n_ss_in- (SPI Master Selects) 4= spi1, Output,
+ * spi1_n_ss_out[0]- (SPI Master Selects) 5= ttc1, Output, ttc1_wave_out-
+ * (TTC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input
+ * ) 7= trace, Output, tracedq[7]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_61_L3_SEL 0
+
+ * Configures MIO Pin 61 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800F4, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_61_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_62 @ 0XFF1800F8
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rxd[
+ * 3]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_62_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[6]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[6]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_62_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_62_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[10]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[10]- (GPIO bank 2) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= sp
+ * i1, Output, spi1_so- (MISO signal) 5= ttc0, Input, ttc0_clk_in- (TTC Clo
+ * ck) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= trace, Outpu
+ * t, tracedq[8]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_62_L3_SEL 0
+
+ * Configures MIO Pin 62 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800F8, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_62_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_63 @ 0XFF1800FC
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem2, Input, gem2_rgmii_rx_c
+ * tl- (RX RGMII control )
+ * PSU_IOU_SLCR_MIO_PIN_63_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb0, Input, usb0_ulpi_rx_da
+ * ta[7]- (ULPI data bus) 1= usb0, Output, usb0_ulpi_tx_data[7]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_63_L1_SEL 1
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= Not Used 3= Not
+ * Used
+ * PSU_IOU_SLCR_MIO_PIN_63_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[11]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[11]- (GPIO bank 2) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal)
+ * 4= spi1, Input, spi1_si- (MOSI signal) 5= ttc0, Output, ttc0_wave_out- (
+ * TTC Waveform Clock) 6= ua0, Output, ua0_txd- (UART transmitter serial ou
+ * tput) 7= trace, Output, tracedq[9]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_63_L3_SEL 0
+
+ * Configures MIO Pin 63 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF1800FC, 0x000000FEU ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_63_OFFSET, 0x000000FEU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_64 @ 0XFF180100
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_
+ * clk- (TX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_64_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_clk_i
+ * n- (ULPI Clock)
+ * PSU_IOU_SLCR_MIO_PIN_64_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_clk_out-
+ * (SDSDIO clock) 2= Not Used 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_64_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[12]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[12]- (GPIO bank 2) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi0, Input, spi0_sclk_in- (SPI Clock) 4
+ * = spi0, Output, spi0_sclk_out- (SPI Clock) 5= ttc3, Input, ttc3_clk_in-
+ * (TTC Clock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7=
+ * trace, Output, tracedq[10]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_64_L3_SEL 0
+
+ * Configures MIO Pin 64 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180100, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_64_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_65 @ 0XFF180104
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd
+ * [0]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_65_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_dir-
+ * (Data bus direction control)
+ * PSU_IOU_SLCR_MIO_PIN_65_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_cd_n- (SD
+ * card detect from connector) 2= Not Used 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_65_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[13]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[13]- (GPIO bank 2) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi0, Output, spi0_n_ss_out[2]- (SPI M
+ * aster Selects) 5= ttc3, Output, ttc3_wave_out- (TTC Waveform Clock) 6= u
+ * a1, Input, ua1_rxd- (UART receiver serial input) 7= trace, Output, trace
+ * dq[11]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_65_L3_SEL 0
+
+ * Configures MIO Pin 65 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180104, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_65_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_66 @ 0XFF180108
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd
+ * [1]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_66_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[2]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[2]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_66_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_cmd_in- (Com
+ * mand Indicator) = sd0, Output, sdio0_cmd_out- (Command Indicator) 2= Not
+ * Used 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_66_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[14]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[14]- (GPIO bank 2) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi0, Output, spi0_n_ss_out[1]- (SPI Mast
+ * er Selects) 5= ttc2, Input, ttc2_clk_in- (TTC Clock) 6= ua0, Input, ua0_
+ * rxd- (UART receiver serial input) 7= trace, Output, tracedq[12]- (Trace
+ * Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_66_L3_SEL 0
+
+ * Configures MIO Pin 66 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180108, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_66_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_67 @ 0XFF18010C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd
+ * [2]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_67_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_nxt-
+ * (Data flow control signal from the PHY)
+ * PSU_IOU_SLCR_MIO_PIN_67_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[0]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[0]- (8-bit Data bus) 2= N
+ * ot Used 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_67_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[15]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[15]- (GPIO bank 2) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi0, Input, spi0_n_ss_in- (SPI Maste
+ * r Selects) 4= spi0, Output, spi0_n_ss_out[0]- (SPI Master Selects) 5= tt
+ * c2, Output, ttc2_wave_out- (TTC Waveform Clock) 6= ua0, Output, ua0_txd-
+ * (UART transmitter serial output) 7= trace, Output, tracedq[13]- (Trace
+ * Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_67_L3_SEL 0
+
+ * Configures MIO Pin 67 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18010C, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_67_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_68 @ 0XFF180110
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_txd
+ * [3]- (TX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_68_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[0]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[0]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_68_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[1]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[1]- (8-bit Data bus) 2= N
+ * ot Used 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_68_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[16]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[16]- (GPIO bank 2) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi0, Input, spi0_mi- (MISO signal) 4= s
+ * pi0, Output, spi0_so- (MISO signal) 5= ttc1, Input, ttc1_clk_in- (TTC Cl
+ * ock) 6= ua1, Output, ua1_txd- (UART transmitter serial output) 7= trace,
+ * Output, tracedq[14]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_68_L3_SEL 0
+
+ * Configures MIO Pin 68 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180110, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_68_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_69 @ 0XFF180114
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Output, gem3_rgmii_tx_
+ * ctl- (TX RGMII control)
+ * PSU_IOU_SLCR_MIO_PIN_69_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[1]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[1]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_69_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[2]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[2]- (8-bit Data bus) 2= s
+ * d1, Input, sdio1_wp- (SD card write protect from connector) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_69_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[17]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[17]- (GPIO bank 2) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi0, Output, spi0_mo- (MOSI signal) 4
+ * = spi0, Input, spi0_si- (MOSI signal) 5= ttc1, Output, ttc1_wave_out- (T
+ * TC Waveform Clock) 6= ua1, Input, ua1_rxd- (UART receiver serial input)
+ * 7= trace, Output, tracedq[15]- (Trace Port Databus)
+ * PSU_IOU_SLCR_MIO_PIN_69_L3_SEL 0
+
+ * Configures MIO Pin 69 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180114, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_69_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_70 @ 0XFF180118
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_c
+ * lk- (RX RGMII clock)
+ * PSU_IOU_SLCR_MIO_PIN_70_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Output, usb1_ulpi_stp-
+ * (Asserted to end or interrupt transfers)
+ * PSU_IOU_SLCR_MIO_PIN_70_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[3]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[3]- (8-bit Data bus) 2= s
+ * d1, Output, sdio1_bus_pow- (SD card bus power) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_70_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[18]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[18]- (GPIO bank 2) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Input, spi1_sclk_in- (SPI Clock) 4=
+ * spi1, Output, spi1_sclk_out- (SPI Clock) 5= ttc0, Input, ttc0_clk_in- (
+ * TTC Clock) 6= ua0, Input, ua0_rxd- (UART receiver serial input) 7= Not U
+ * sed
+ * PSU_IOU_SLCR_MIO_PIN_70_L3_SEL 0
+
+ * Configures MIO Pin 70 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180118, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_70_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_71 @ 0XFF18011C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[
+ * 0]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_71_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[3]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[3]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_71_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[4]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[4]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[0]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[0]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_71_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[19]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[19]- (GPIO bank 2) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_n_ss_out[2]- (SPI
+ * Master Selects) 5= ttc0, Output, ttc0_wave_out- (TTC Waveform Clock) 6=
+ * ua0, Output, ua0_txd- (UART transmitter serial output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_71_L3_SEL 0
+
+ * Configures MIO Pin 71 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18011C, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_71_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_72 @ 0XFF180120
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[
+ * 1]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_72_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[4]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[4]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_72_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[5]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[5]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[1]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[1]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_72_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[20]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[20]- (GPIO bank 2) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= swdt1, Input, swdt1_clk_in- (
+ * Watch Dog Timer Input clock) 4= spi1, Output, spi1_n_ss_out[1]- (SPI Mas
+ * ter Selects) 5= Not Used 6= ua1, Output, ua1_txd- (UART transmitter seri
+ * al output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_72_L3_SEL 0
+
+ * Configures MIO Pin 72 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180120, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_72_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_73 @ 0XFF180124
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[
+ * 2]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_73_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[5]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[5]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_73_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[6]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[6]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[2]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[2]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_73_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[21]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[21]- (GPIO bank 2) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= swdt1, Output, swdt1_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Input, spi1_n_ss_in- (SPI Master
+ * Selects) 4= spi1, Output, spi1_n_ss_out[0]- (SPI Master Selects) 5= Not
+ * Used 6= ua1, Input, ua1_rxd- (UART receiver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_73_L3_SEL 0
+
+ * Configures MIO Pin 73 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180124, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_73_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_74 @ 0XFF180128
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rxd[
+ * 3]- (RX RGMII data)
+ * PSU_IOU_SLCR_MIO_PIN_74_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[6]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[6]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_74_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sd0_data_in[7]-
+ * (8-bit Data bus) = sd0, Output, sdio0_data_out[7]- (8-bit Data bus) 2= s
+ * d1, Input, sd1_data_in[3]- (8-bit Data bus) = sd1, Output, sdio1_data_ou
+ * t[3]- (8-bit Data bus) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_74_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[22]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[22]- (GPIO bank 2) 1= can0, Input, can0_ph
+ * y_rx- (Can RX signal) 2= i2c0, Input, i2c0_scl_input- (SCL signal) 2= i2
+ * c0, Output, i2c0_scl_out- (SCL signal) 3= swdt0, Input, swdt0_clk_in- (W
+ * atch Dog Timer Input clock) 4= spi1, Input, spi1_mi- (MISO signal) 4= sp
+ * i1, Output, spi1_so- (MISO signal) 5= Not Used 6= ua0, Input, ua0_rxd- (
+ * UART receiver serial input) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_74_L3_SEL 0
+
+ * Configures MIO Pin 74 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180128, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_74_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_75 @ 0XFF18012C
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= gem3, Input, gem3_rgmii_rx_c
+ * tl- (RX RGMII control )
+ * PSU_IOU_SLCR_MIO_PIN_75_L0_SEL 1
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= usb1, Input, usb1_ulpi_rx_da
+ * ta[7]- (ULPI data bus) 1= usb1, Output, usb1_ulpi_tx_data[7]- (ULPI data
+ * bus)
+ * PSU_IOU_SLCR_MIO_PIN_75_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Output, sdio0_bus_pow-
+ * (SD card bus power) 2= sd1, Input, sd1_cmd_in- (Command Indicator) = sd1
+ * , Output, sdio1_cmd_out- (Command Indicator) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_75_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[23]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[23]- (GPIO bank 2) 1= can0, Output, can0_p
+ * hy_tx- (Can TX signal) 2= i2c0, Input, i2c0_sda_input- (SDA signal) 2= i
+ * 2c0, Output, i2c0_sda_out- (SDA signal) 3= swdt0, Output, swdt0_rst_out-
+ * (Watch Dog Timer Output clock) 4= spi1, Output, spi1_mo- (MOSI signal)
+ * 4= spi1, Input, spi1_si- (MOSI signal) 5= Not Used 6= ua0, Output, ua0_t
+ * xd- (UART transmitter serial output) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_75_L3_SEL 0
+
+ * Configures MIO Pin 75 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF18012C, 0x000000FEU ,0x00000002U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_75_OFFSET, 0x000000FEU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_76 @ 0XFF180130
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_76_L0_SEL 0
+
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_76_L1_SEL 0
+
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= sd0, Input, sdio0_wp- (SD ca
+ * rd write protect from connector) 2= sd1, Output, sdio1_clk_out- (SDSDIO
+ * clock) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_76_L2_SEL 0
+
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[24]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[24]- (GPIO bank 2) 1= can1, Output, can1_p
+ * hy_tx- (Can TX signal) 2= i2c1, Input, i2c1_scl_input- (SCL signal) 2= i
+ * 2c1, Output, i2c1_scl_out- (SCL signal) 3= mdio0, Output, gem0_mdc- (MDI
+ * O Clock) 4= mdio1, Output, gem1_mdc- (MDIO Clock) 5= mdio2, Output, gem2
+ * _mdc- (MDIO Clock) 6= mdio3, Output, gem3_mdc- (MDIO Clock) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_76_L3_SEL 6
+
+ * Configures MIO Pin 76 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180130, 0x000000FEU ,0x000000C0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_76_OFFSET, 0x000000FEU, 0x000000C0U);
+/*##################################################################### */
+
+ /*
+ * Register : MIO_PIN_77 @ 0XFF180134
+
+ * Level 0 Mux Select 0= Level 1 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_77_L0_SEL 0
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_TTC2_RESET 0
+ * Level 1 Mux Select 0= Level 2 Mux Output 1= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_77_L1_SEL 0
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_TTC3_RESET 0
+ * Level 2 Mux Select 0= Level 3 Mux Output 1= Not Used 2= sd1, Input, sdio
+ * 1_cd_n- (SD card detect from connector) 3= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_77_L2_SEL 0
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00007800U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_TTC0_RESET_MASK | CRL_APB_RST_LPD_IOU2_TTC1_RESET_MASK | CRL_APB_RST_LPD_IOU2_TTC2_RESET_MASK | CRL_APB_RST_LPD_IOU2_TTC3_RESET_MASK | 0 );
+ * Level 3 Mux Select 0= gpio2, Input, gpio_2_pin_in[25]- (GPIO bank 2) 0=
+ * gpio2, Output, gpio_2_pin_out[25]- (GPIO bank 2) 1= can1, Input, can1_ph
+ * y_rx- (Can RX signal) 2= i2c1, Input, i2c1_sda_input- (SDA signal) 2= i2
+ * c1, Output, i2c1_sda_out- (SDA signal) 3= mdio0, Input, gem0_mdio_in- (M
+ * DIO Data) 3= mdio0, Output, gem0_mdio_out- (MDIO Data) 4= mdio1, Input,
+ * gem1_mdio_in- (MDIO Data) 4= mdio1, Output, gem1_mdio_out- (MDIO Data) 5
+ * = mdio2, Input, gem2_mdio_in- (MDIO Data) 5= mdio2, Output, gem2_mdio_ou
+ * t- (MDIO Data) 6= mdio3, Input, gem3_mdio_in- (MDIO Data) 6= mdio3, Outp
+ * ut, gem3_mdio_out- (MDIO Data) 7= Not Used
+ * PSU_IOU_SLCR_MIO_PIN_77_L3_SEL 6
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_TTC0_RESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_IOU2_TTC1_RESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_IOU2_TTC2_RESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_IOU2_TTC3_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00007800U ,0x00000000U);
- /*############################################################################################################################ */
+ * Configures MIO Pin 77 peripheral interface mapping
+ * (OFFSET, MASK, VALUE) (0XFF180134, 0x000000FEU ,0x000000C0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_PIN_77_OFFSET, 0x000000FEU, 0x000000C0U);
+/*##################################################################### */
- // : UART
- /*Register : RST_LPD_IOU2 @ 0XFF5E0238</p>
+ /*
+ * Register : MIO_MST_TRI0 @ 0XFF180204
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_UART0_RESET 0
+ * Master Tri-state Enable for pin 0, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_00_TRI 0
- Block level reset
- PSU_CRL_APB_RST_LPD_IOU2_UART1_RESET 0
+ * Master Tri-state Enable for pin 1, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_01_TRI 0
- Software control register for the IOU block. Each bit will cause a singlerperipheral or part of the peripheral to be reset.
- (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000006U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU2_UART0_RESET_MASK | CRL_APB_RST_LPD_IOU2_UART1_RESET_MASK | 0 );
+ * Master Tri-state Enable for pin 2, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_02_TRI 0
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU2_UART0_RESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_IOU2_UART1_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU2_OFFSET ,0x00000006U ,0x00000000U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 3, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_03_TRI 0
- // : UART BAUD RATE
- /*Register : Baud_rate_divider_reg0 @ 0XFF000034</p>
+ * Master Tri-state Enable for pin 4, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_04_TRI 0
- Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate
- PSU_UART0_BAUD_RATE_DIVIDER_REG0_BDIV 0x5
+ * Master Tri-state Enable for pin 5, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_05_TRI 0
- Baud Rate Divider Register
- (OFFSET, MASK, VALUE) (0XFF000034, 0x000000FFU ,0x00000005U)
- RegMask = (UART0_BAUD_RATE_DIVIDER_REG0_BDIV_MASK | 0 );
+ * Master Tri-state Enable for pin 6, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_06_TRI 0
- RegVal = ((0x00000005U << UART0_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART0_BAUD_RATE_DIVIDER_REG0_OFFSET ,0x000000FFU ,0x00000005U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 7, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_07_TRI 0
- /*Register : Baud_rate_gen_reg0 @ 0XFF000018</p>
+ * Master Tri-state Enable for pin 8, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_08_TRI 0
- Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor bypass (baud_sample = sel_clk) 2 - 65535: baud_sample
- PSU_UART0_BAUD_RATE_GEN_REG0_CD 0x8f
+ * Master Tri-state Enable for pin 9, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_09_TRI 0
- Baud Rate Generator Register.
- (OFFSET, MASK, VALUE) (0XFF000018, 0x0000FFFFU ,0x0000008FU)
- RegMask = (UART0_BAUD_RATE_GEN_REG0_CD_MASK | 0 );
+ * Master Tri-state Enable for pin 10, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_10_TRI 0
- RegVal = ((0x0000008FU << UART0_BAUD_RATE_GEN_REG0_CD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART0_BAUD_RATE_GEN_REG0_OFFSET ,0x0000FFFFU ,0x0000008FU);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 11, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_11_TRI 0
- /*Register : Control_reg0 @ 0XFF000000</p>
+ * Master Tri-state Enable for pin 12, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_12_TRI 0
- Stop transmitter break: 0: no affect 1: stop transmission of the break after a minimum of one character length and transmit a
- high level during 12 bit periods. It can be set regardless of the value of STTBRK.
- PSU_UART0_CONTROL_REG0_STPBRK 0x0
+ * Master Tri-state Enable for pin 13, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_13_TRI 0
- Start transmitter break: 0: no affect 1: start to transmit a break after the characters currently present in the FIFO and the
- transmit shift register have been transmitted. It can only be set if STPBRK (Stop transmitter break) is not high.
- PSU_UART0_CONTROL_REG0_STTBRK 0x0
+ * Master Tri-state Enable for pin 14, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_14_TRI 0
- Restart receiver timeout counter: 1: receiver timeout counter is restarted. This bit is self clearing once the restart has co
- pleted.
- PSU_UART0_CONTROL_REG0_RSTTO 0x0
+ * Master Tri-state Enable for pin 15, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_15_TRI 0
- Transmit disable: 0: enable transmitter 1: disable transmitter
- PSU_UART0_CONTROL_REG0_TXDIS 0x0
+ * Master Tri-state Enable for pin 16, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_16_TRI 0
- Transmit enable: 0: disable transmitter 1: enable transmitter, provided the TXDIS field is set to 0.
- PSU_UART0_CONTROL_REG0_TXEN 0x1
+ * Master Tri-state Enable for pin 17, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_17_TRI 0
- Receive disable: 0: enable 1: disable, regardless of the value of RXEN
- PSU_UART0_CONTROL_REG0_RXDIS 0x0
+ * Master Tri-state Enable for pin 18, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_18_TRI 1
- Receive enable: 0: disable 1: enable When set to one, the receiver logic is enabled, provided the RXDIS field is set to zero.
- PSU_UART0_CONTROL_REG0_RXEN 0x1
+ * Master Tri-state Enable for pin 19, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_19_TRI 0
- Software reset for Tx data path: 0: no affect 1: transmitter logic is reset and all pending transmitter data is discarded Thi
- bit is self clearing once the reset has completed.
- PSU_UART0_CONTROL_REG0_TXRES 0x1
+ * Master Tri-state Enable for pin 20, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_20_TRI 0
- Software reset for Rx data path: 0: no affect 1: receiver logic is reset and all pending receiver data is discarded. This bit
- is self clearing once the reset has completed.
- PSU_UART0_CONTROL_REG0_RXRES 0x1
+ * Master Tri-state Enable for pin 21, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_21_TRI 1
- UART Control Register
- (OFFSET, MASK, VALUE) (0XFF000000, 0x000001FFU ,0x00000017U)
- RegMask = (UART0_CONTROL_REG0_STPBRK_MASK | UART0_CONTROL_REG0_STTBRK_MASK | UART0_CONTROL_REG0_RSTTO_MASK | UART0_CONTROL_REG0_TXDIS_MASK | UART0_CONTROL_REG0_TXEN_MASK | UART0_CONTROL_REG0_RXDIS_MASK | UART0_CONTROL_REG0_RXEN_MASK | UART0_CONTROL_REG0_TXRES_MASK | UART0_CONTROL_REG0_RXRES_MASK | 0 );
+ * Master Tri-state Enable for pin 22, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_22_TRI 0
- RegVal = ((0x00000000U << UART0_CONTROL_REG0_STPBRK_SHIFT
- | 0x00000000U << UART0_CONTROL_REG0_STTBRK_SHIFT
- | 0x00000000U << UART0_CONTROL_REG0_RSTTO_SHIFT
- | 0x00000000U << UART0_CONTROL_REG0_TXDIS_SHIFT
- | 0x00000001U << UART0_CONTROL_REG0_TXEN_SHIFT
- | 0x00000000U << UART0_CONTROL_REG0_RXDIS_SHIFT
- | 0x00000001U << UART0_CONTROL_REG0_RXEN_SHIFT
- | 0x00000001U << UART0_CONTROL_REG0_TXRES_SHIFT
- | 0x00000001U << UART0_CONTROL_REG0_RXRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART0_CONTROL_REG0_OFFSET ,0x000001FFU ,0x00000017U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 23, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_23_TRI 0
- /*Register : mode_reg0 @ 0XFF000004</p>
+ * Master Tri-state Enable for pin 24, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_24_TRI 0
- Channel mode: Defines the mode of operation of the UART. 00: normal 01: automatic echo 10: local loopback 11: remote loopback
- PSU_UART0_MODE_REG0_CHMODE 0x0
+ * Master Tri-state Enable for pin 25, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_25_TRI 1
- Number of stop bits: Defines the number of stop bits to detect on receive and to generate on transmit. 00: 1 stop bit 01: 1.5
- stop bits 10: 2 stop bits 11: reserved
- PSU_UART0_MODE_REG0_NBSTOP 0x0
+ * Master Tri-state Enable for pin 26, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_26_TRI 0
- Parity type select: Defines the expected parity to check on receive and the parity to generate on transmit. 000: even parity
- 01: odd parity 010: forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no parity
- PSU_UART0_MODE_REG0_PAR 0x4
+ * Master Tri-state Enable for pin 27, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_27_TRI 0
- Character length select: Defines the number of bits in each character. 11: 6 bits 10: 7 bits 0x: 8 bits
- PSU_UART0_MODE_REG0_CHRL 0x0
+ * Master Tri-state Enable for pin 28, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_28_TRI 1
- Clock source select: This field defines whether a pre-scalar of 8 is applied to the baud rate generator input clock. 0: clock
- source is uart_ref_clk 1: clock source is uart_ref_clk/8
- PSU_UART0_MODE_REG0_CLKS 0x0
+ * Master Tri-state Enable for pin 29, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_29_TRI 0
- UART Mode Register
- (OFFSET, MASK, VALUE) (0XFF000004, 0x000003FFU ,0x00000020U)
- RegMask = (UART0_MODE_REG0_CHMODE_MASK | UART0_MODE_REG0_NBSTOP_MASK | UART0_MODE_REG0_PAR_MASK | UART0_MODE_REG0_CHRL_MASK | UART0_MODE_REG0_CLKS_MASK | 0 );
+ * Master Tri-state Enable for pin 30, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_30_TRI 1
- RegVal = ((0x00000000U << UART0_MODE_REG0_CHMODE_SHIFT
- | 0x00000000U << UART0_MODE_REG0_NBSTOP_SHIFT
- | 0x00000004U << UART0_MODE_REG0_PAR_SHIFT
- | 0x00000000U << UART0_MODE_REG0_CHRL_SHIFT
- | 0x00000000U << UART0_MODE_REG0_CLKS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART0_MODE_REG0_OFFSET ,0x000003FFU ,0x00000020U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 31, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI0_PIN_31_TRI 0
- /*Register : Baud_rate_divider_reg0 @ 0XFF010034</p>
+ * MIO pin Tri-state Enables, 31:0
+ * (OFFSET, MASK, VALUE) (0XFF180204, 0xFFFFFFFFU ,0x52240000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_MST_TRI0_OFFSET,
+ 0xFFFFFFFFU, 0x52240000U);
+/*##################################################################### */
- Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate
- PSU_UART1_BAUD_RATE_DIVIDER_REG0_BDIV 0x5
+ /*
+ * Register : MIO_MST_TRI1 @ 0XFF180208
- Baud Rate Divider Register
- (OFFSET, MASK, VALUE) (0XFF010034, 0x000000FFU ,0x00000005U)
- RegMask = (UART1_BAUD_RATE_DIVIDER_REG0_BDIV_MASK | 0 );
-
- RegVal = ((0x00000005U << UART1_BAUD_RATE_DIVIDER_REG0_BDIV_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART1_BAUD_RATE_DIVIDER_REG0_OFFSET ,0x000000FFU ,0x00000005U);
- /*############################################################################################################################ */
-
- /*Register : Baud_rate_gen_reg0 @ 0XFF010018</p>
+ * Master Tri-state Enable for pin 32, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_32_TRI 0
- Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor bypass (baud_sample = sel_clk) 2 - 65535: baud_sample
- PSU_UART1_BAUD_RATE_GEN_REG0_CD 0x8f
-
- Baud Rate Generator Register.
- (OFFSET, MASK, VALUE) (0XFF010018, 0x0000FFFFU ,0x0000008FU)
- RegMask = (UART1_BAUD_RATE_GEN_REG0_CD_MASK | 0 );
-
- RegVal = ((0x0000008FU << UART1_BAUD_RATE_GEN_REG0_CD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART1_BAUD_RATE_GEN_REG0_OFFSET ,0x0000FFFFU ,0x0000008FU);
- /*############################################################################################################################ */
-
- /*Register : Control_reg0 @ 0XFF010000</p>
-
- Stop transmitter break: 0: no affect 1: stop transmission of the break after a minimum of one character length and transmit a
- high level during 12 bit periods. It can be set regardless of the value of STTBRK.
- PSU_UART1_CONTROL_REG0_STPBRK 0x0
-
- Start transmitter break: 0: no affect 1: start to transmit a break after the characters currently present in the FIFO and the
- transmit shift register have been transmitted. It can only be set if STPBRK (Stop transmitter break) is not high.
- PSU_UART1_CONTROL_REG0_STTBRK 0x0
-
- Restart receiver timeout counter: 1: receiver timeout counter is restarted. This bit is self clearing once the restart has co
- pleted.
- PSU_UART1_CONTROL_REG0_RSTTO 0x0
-
- Transmit disable: 0: enable transmitter 1: disable transmitter
- PSU_UART1_CONTROL_REG0_TXDIS 0x0
-
- Transmit enable: 0: disable transmitter 1: enable transmitter, provided the TXDIS field is set to 0.
- PSU_UART1_CONTROL_REG0_TXEN 0x1
-
- Receive disable: 0: enable 1: disable, regardless of the value of RXEN
- PSU_UART1_CONTROL_REG0_RXDIS 0x0
-
- Receive enable: 0: disable 1: enable When set to one, the receiver logic is enabled, provided the RXDIS field is set to zero.
- PSU_UART1_CONTROL_REG0_RXEN 0x1
+ * Master Tri-state Enable for pin 33, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_33_TRI 0
- Software reset for Tx data path: 0: no affect 1: transmitter logic is reset and all pending transmitter data is discarded Thi
- bit is self clearing once the reset has completed.
- PSU_UART1_CONTROL_REG0_TXRES 0x1
+ * Master Tri-state Enable for pin 34, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_34_TRI 0
- Software reset for Rx data path: 0: no affect 1: receiver logic is reset and all pending receiver data is discarded. This bit
- is self clearing once the reset has completed.
- PSU_UART1_CONTROL_REG0_RXRES 0x1
+ * Master Tri-state Enable for pin 35, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_35_TRI 0
- UART Control Register
- (OFFSET, MASK, VALUE) (0XFF010000, 0x000001FFU ,0x00000017U)
- RegMask = (UART1_CONTROL_REG0_STPBRK_MASK | UART1_CONTROL_REG0_STTBRK_MASK | UART1_CONTROL_REG0_RSTTO_MASK | UART1_CONTROL_REG0_TXDIS_MASK | UART1_CONTROL_REG0_TXEN_MASK | UART1_CONTROL_REG0_RXDIS_MASK | UART1_CONTROL_REG0_RXEN_MASK | UART1_CONTROL_REG0_TXRES_MASK | UART1_CONTROL_REG0_RXRES_MASK | 0 );
+ * Master Tri-state Enable for pin 36, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_36_TRI 0
- RegVal = ((0x00000000U << UART1_CONTROL_REG0_STPBRK_SHIFT
- | 0x00000000U << UART1_CONTROL_REG0_STTBRK_SHIFT
- | 0x00000000U << UART1_CONTROL_REG0_RSTTO_SHIFT
- | 0x00000000U << UART1_CONTROL_REG0_TXDIS_SHIFT
- | 0x00000001U << UART1_CONTROL_REG0_TXEN_SHIFT
- | 0x00000000U << UART1_CONTROL_REG0_RXDIS_SHIFT
- | 0x00000001U << UART1_CONTROL_REG0_RXEN_SHIFT
- | 0x00000001U << UART1_CONTROL_REG0_TXRES_SHIFT
- | 0x00000001U << UART1_CONTROL_REG0_RXRES_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART1_CONTROL_REG0_OFFSET ,0x000001FFU ,0x00000017U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 37, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_37_TRI 0
- /*Register : mode_reg0 @ 0XFF010004</p>
+ * Master Tri-state Enable for pin 38, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_38_TRI 0
- Channel mode: Defines the mode of operation of the UART. 00: normal 01: automatic echo 10: local loopback 11: remote loopback
- PSU_UART1_MODE_REG0_CHMODE 0x0
+ * Master Tri-state Enable for pin 39, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_39_TRI 0
- Number of stop bits: Defines the number of stop bits to detect on receive and to generate on transmit. 00: 1 stop bit 01: 1.5
- stop bits 10: 2 stop bits 11: reserved
- PSU_UART1_MODE_REG0_NBSTOP 0x0
-
- Parity type select: Defines the expected parity to check on receive and the parity to generate on transmit. 000: even parity
- 01: odd parity 010: forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no parity
- PSU_UART1_MODE_REG0_PAR 0x4
-
- Character length select: Defines the number of bits in each character. 11: 6 bits 10: 7 bits 0x: 8 bits
- PSU_UART1_MODE_REG0_CHRL 0x0
-
- Clock source select: This field defines whether a pre-scalar of 8 is applied to the baud rate generator input clock. 0: clock
- source is uart_ref_clk 1: clock source is uart_ref_clk/8
- PSU_UART1_MODE_REG0_CLKS 0x0
+ * Master Tri-state Enable for pin 40, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_40_TRI 0
- UART Mode Register
- (OFFSET, MASK, VALUE) (0XFF010004, 0x000003FFU ,0x00000020U)
- RegMask = (UART1_MODE_REG0_CHMODE_MASK | UART1_MODE_REG0_NBSTOP_MASK | UART1_MODE_REG0_PAR_MASK | UART1_MODE_REG0_CHRL_MASK | UART1_MODE_REG0_CLKS_MASK | 0 );
+ * Master Tri-state Enable for pin 41, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_41_TRI 0
- RegVal = ((0x00000000U << UART1_MODE_REG0_CHMODE_SHIFT
- | 0x00000000U << UART1_MODE_REG0_NBSTOP_SHIFT
- | 0x00000004U << UART1_MODE_REG0_PAR_SHIFT
- | 0x00000000U << UART1_MODE_REG0_CHRL_SHIFT
- | 0x00000000U << UART1_MODE_REG0_CLKS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (UART1_MODE_REG0_OFFSET ,0x000003FFU ,0x00000020U);
- /*############################################################################################################################ */
-
- // : GPIO
- // : ADMA TZ
- /*Register : slcr_adma @ 0XFF4B0024</p>
+ * Master Tri-state Enable for pin 42, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_42_TRI 0
- TrustZone Classification for ADMA
- PSU_LPD_SLCR_SECURE_SLCR_ADMA_TZ 0XFF
-
- RPU TrustZone settings
- (OFFSET, MASK, VALUE) (0XFF4B0024, 0x000000FFU ,0x000000FFU)
- RegMask = (LPD_SLCR_SECURE_SLCR_ADMA_TZ_MASK | 0 );
-
- RegVal = ((0x000000FFU << LPD_SLCR_SECURE_SLCR_ADMA_TZ_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (LPD_SLCR_SECURE_SLCR_ADMA_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
-
- // : CSU TAMPERING
- // : CSU TAMPER STATUS
- /*Register : tamper_status @ 0XFFCA5000</p>
-
- CSU regsiter
- PSU_CSU_TAMPER_STATUS_TAMPER_0 0
-
- External MIO
- PSU_CSU_TAMPER_STATUS_TAMPER_1 0
-
- JTAG toggle detect
- PSU_CSU_TAMPER_STATUS_TAMPER_2 0
-
- PL SEU error
- PSU_CSU_TAMPER_STATUS_TAMPER_3 0
-
- AMS over temperature alarm for LPD
- PSU_CSU_TAMPER_STATUS_TAMPER_4 0
-
- AMS over temperature alarm for APU
- PSU_CSU_TAMPER_STATUS_TAMPER_5 0
-
- AMS voltage alarm for VCCPINT_FPD
- PSU_CSU_TAMPER_STATUS_TAMPER_6 0
-
- AMS voltage alarm for VCCPINT_LPD
- PSU_CSU_TAMPER_STATUS_TAMPER_7 0
-
- AMS voltage alarm for VCCPAUX
- PSU_CSU_TAMPER_STATUS_TAMPER_8 0
-
- AMS voltage alarm for DDRPHY
- PSU_CSU_TAMPER_STATUS_TAMPER_9 0
-
- AMS voltage alarm for PSIO bank 0/1/2
- PSU_CSU_TAMPER_STATUS_TAMPER_10 0
-
- AMS voltage alarm for PSIO bank 3 (dedicated pins)
- PSU_CSU_TAMPER_STATUS_TAMPER_11 0
-
- AMS voltaage alarm for GT
- PSU_CSU_TAMPER_STATUS_TAMPER_12 0
-
- Tamper Response Status
- (OFFSET, MASK, VALUE) (0XFFCA5000, 0x00001FFFU ,0x00000000U)
- RegMask = (CSU_TAMPER_STATUS_TAMPER_0_MASK | CSU_TAMPER_STATUS_TAMPER_1_MASK | CSU_TAMPER_STATUS_TAMPER_2_MASK | CSU_TAMPER_STATUS_TAMPER_3_MASK | CSU_TAMPER_STATUS_TAMPER_4_MASK | CSU_TAMPER_STATUS_TAMPER_5_MASK | CSU_TAMPER_STATUS_TAMPER_6_MASK | CSU_TAMPER_STATUS_TAMPER_7_MASK | CSU_TAMPER_STATUS_TAMPER_8_MASK | CSU_TAMPER_STATUS_TAMPER_9_MASK | CSU_TAMPER_STATUS_TAMPER_10_MASK | CSU_TAMPER_STATUS_TAMPER_11_MASK | CSU_TAMPER_STATUS_TAMPER_12_MASK | 0 );
+ * Master Tri-state Enable for pin 43, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_43_TRI 0
- RegVal = ((0x00000000U << CSU_TAMPER_STATUS_TAMPER_0_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_1_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_2_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_3_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_4_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_5_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_6_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_7_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_8_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_9_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_10_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_11_SHIFT
- | 0x00000000U << CSU_TAMPER_STATUS_TAMPER_12_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CSU_TAMPER_STATUS_OFFSET ,0x00001FFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 44, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_44_TRI 1
- // : CSU TAMPER RESPONSE
- // : AFIFM INTERFACE WIDTH
- // : CPU QOS DEFAULT
- /*Register : ACE_CTRL @ 0XFD5C0060</p>
-
- Set ACE outgoing AWQOS value
- PSU_APU_ACE_CTRL_AWQOS 0X0
-
- Set ACE outgoing ARQOS value
- PSU_APU_ACE_CTRL_ARQOS 0X0
+ * Master Tri-state Enable for pin 45, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_45_TRI 1
- ACE Control Register
- (OFFSET, MASK, VALUE) (0XFD5C0060, 0x000F000FU ,0x00000000U)
- RegMask = (APU_ACE_CTRL_AWQOS_MASK | APU_ACE_CTRL_ARQOS_MASK | 0 );
+ * Master Tri-state Enable for pin 46, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_46_TRI 0
- RegVal = ((0x00000000U << APU_ACE_CTRL_AWQOS_SHIFT
- | 0x00000000U << APU_ACE_CTRL_ARQOS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (APU_ACE_CTRL_OFFSET ,0x000F000FU ,0x00000000U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 47, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_47_TRI 0
- // : ENABLES RTC SWITCH TO BATTERY WHEN VCC_PSAUX IS NOT AVAILABLE
- /*Register : CONTROL @ 0XFFA60040</p>
+ * Master Tri-state Enable for pin 48, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_48_TRI 0
- Enables the RTC. By writing a 0 to this bit, RTC will be powered off and the only module that potentially draws current from
- he battery will be BBRAM. The value read through this bit does not necessarily reflect whether RTC is enabled or not. It is e
- pected that RTC is enabled every time it is being configured. If RTC is not used in the design, FSBL will disable it by writi
- g a 0 to this bit.
- PSU_RTC_CONTROL_BATTERY_DISABLE 0X1
+ * Master Tri-state Enable for pin 49, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_49_TRI 0
- This register controls various functionalities within the RTC
- (OFFSET, MASK, VALUE) (0XFFA60040, 0x80000000U ,0x80000000U)
- RegMask = (RTC_CONTROL_BATTERY_DISABLE_MASK | 0 );
+ * Master Tri-state Enable for pin 50, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_50_TRI 0
- RegVal = ((0x00000001U << RTC_CONTROL_BATTERY_DISABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (RTC_CONTROL_OFFSET ,0x80000000U ,0x80000000U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 51, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_51_TRI 0
- // : TIMESTAMP COUNTER
- /*Register : base_frequency_ID_register @ 0XFF260020</p>
+ * Master Tri-state Enable for pin 52, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_52_TRI 1
- Frequency in number of ticks per second. Valid range from 10 MHz to 100 MHz.
- PSU_IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ 0x5f5e100
+ * Master Tri-state Enable for pin 53, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_53_TRI 1
- Program this register to match the clock frequency of the timestamp generator, in ticks per second. For example, for a 50 MHz
- clock, program 0x02FAF080. This register is not accessible to the read-only programming interface.
- (OFFSET, MASK, VALUE) (0XFF260020, 0xFFFFFFFFU ,0x05F5E100U)
- RegMask = (IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_MASK | 0 );
+ * Master Tri-state Enable for pin 54, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_54_TRI 0
- RegVal = ((0x05F5E100U << IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_OFFSET ,0xFFFFFFFFU ,0x05F5E100U);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 55, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_55_TRI 1
- /*Register : counter_control_register @ 0XFF260000</p>
-
- Enable 0: The counter is disabled and not incrementing. 1: The counter is enabled and is incrementing.
- PSU_IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN 0x1
-
- Controls the counter increments. This register is not accessible to the read-only programming interface.
- (OFFSET, MASK, VALUE) (0XFF260000, 0x00000001U ,0x00000001U)
- RegMask = (IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_MASK | 0 );
-
- RegVal = ((0x00000001U << IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (IOU_SCNTRS_COUNTER_CONTROL_REGISTER_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
-
- // : TTC SRC SELECT
-
- return 1;
-}
-unsigned long psu_post_config_data() {
- // : POST_CONFIG
+ * Master Tri-state Enable for pin 56, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_56_TRI 0
- return 1;
-}
-unsigned long psu_peripherals_powerdwn_data() {
- // : POWER DOWN REQUEST INTERRUPT ENABLE
- // : POWER DOWN TRIGGER
+ * Master Tri-state Enable for pin 57, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_57_TRI 0
- return 1;
-}
-unsigned long psu_lpd_xppu_data() {
- // : XPPU INTERRUPT ENABLE
- /*Register : IEN @ 0XFF980018</p>
+ * Master Tri-state Enable for pin 58, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_58_TRI 0
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_APER_PARITY 0X1
+ * Master Tri-state Enable for pin 59, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_59_TRI 0
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_APER_TZ 0X1
+ * Master Tri-state Enable for pin 60, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_60_TRI 0
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_APER_PERM 0X1
+ * Master Tri-state Enable for pin 61, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_61_TRI 0
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_MID_PARITY 0X1
+ * Master Tri-state Enable for pin 62, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_62_TRI 0
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_MID_RO 0X1
+ * Master Tri-state Enable for pin 63, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI1_PIN_63_TRI 0
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_MID_MISS 0X1
+ * MIO pin Tri-state Enables, 63:32
+ * (OFFSET, MASK, VALUE) (0XFF180208, 0xFFFFFFFFU ,0x00B03000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_MST_TRI1_OFFSET,
+ 0xFFFFFFFFU, 0x00B03000U);
+/*##################################################################### */
- See Interuppt Status Register for details
- PSU_LPD_XPPU_CFG_IEN_INV_APB 0X1
+ /*
+ * Register : MIO_MST_TRI2 @ 0XFF18020C
- Interrupt Enable Register
- (OFFSET, MASK, VALUE) (0XFF980018, 0x000000EFU ,0x000000EFU)
- RegMask = (LPD_XPPU_CFG_IEN_APER_PARITY_MASK | LPD_XPPU_CFG_IEN_APER_TZ_MASK | LPD_XPPU_CFG_IEN_APER_PERM_MASK | LPD_XPPU_CFG_IEN_MID_PARITY_MASK | LPD_XPPU_CFG_IEN_MID_RO_MASK | LPD_XPPU_CFG_IEN_MID_MISS_MASK | LPD_XPPU_CFG_IEN_INV_APB_MASK | 0 );
+ * Master Tri-state Enable for pin 64, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_64_TRI 0
- RegVal = ((0x00000001U << LPD_XPPU_CFG_IEN_APER_PARITY_SHIFT
- | 0x00000001U << LPD_XPPU_CFG_IEN_APER_TZ_SHIFT
- | 0x00000001U << LPD_XPPU_CFG_IEN_APER_PERM_SHIFT
- | 0x00000001U << LPD_XPPU_CFG_IEN_MID_PARITY_SHIFT
- | 0x00000001U << LPD_XPPU_CFG_IEN_MID_RO_SHIFT
- | 0x00000001U << LPD_XPPU_CFG_IEN_MID_MISS_SHIFT
- | 0x00000001U << LPD_XPPU_CFG_IEN_INV_APB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (LPD_XPPU_CFG_IEN_OFFSET ,0x000000EFU ,0x000000EFU);
- /*############################################################################################################################ */
+ * Master Tri-state Enable for pin 65, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_65_TRI 0
+ * Master Tri-state Enable for pin 66, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_66_TRI 0
- return 1;
-}
-unsigned long psu_ddr_xmpu0_data() {
+ * Master Tri-state Enable for pin 67, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_67_TRI 0
- return 1;
-}
-unsigned long psu_ddr_xmpu1_data() {
+ * Master Tri-state Enable for pin 68, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_68_TRI 0
- return 1;
-}
-unsigned long psu_ddr_xmpu2_data() {
+ * Master Tri-state Enable for pin 69, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_69_TRI 0
- return 1;
-}
-unsigned long psu_ddr_xmpu3_data() {
+ * Master Tri-state Enable for pin 70, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_70_TRI 1
- return 1;
-}
-unsigned long psu_ddr_xmpu4_data() {
+ * Master Tri-state Enable for pin 71, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_71_TRI 1
- return 1;
-}
-unsigned long psu_ddr_xmpu5_data() {
+ * Master Tri-state Enable for pin 72, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_72_TRI 1
- return 1;
-}
-unsigned long psu_ocm_xmpu_data() {
+ * Master Tri-state Enable for pin 73, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_73_TRI 1
- return 1;
-}
-unsigned long psu_fpd_xmpu_data() {
+ * Master Tri-state Enable for pin 74, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_74_TRI 1
- return 1;
-}
-unsigned long psu_protection_lock_data() {
+ * Master Tri-state Enable for pin 75, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_75_TRI 1
- return 1;
-}
-unsigned long psu_apply_master_tz() {
- // : RPU
- // : DP TZ
- // : SATA TZ
- // : PCIE TZ
- // : USB TZ
- // : SD TZ
- // : GEM TZ
- // : QSPI TZ
- // : NAND TZ
-
- return 1;
-}
-unsigned long psu_serdes_init_data() {
- // : SERDES INITIALIZATION
- // : GT REFERENCE CLOCK SOURCE SELECTION
- /*Register : PLL_REF_SEL0 @ 0XFD410000</p>
+ * Master Tri-state Enable for pin 76, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_76_TRI 0
- PLL0 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 -
- 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135
- Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved
- PSU_SERDES_PLL_REF_SEL0_PLLREFSEL0 0xD
+ * Master Tri-state Enable for pin 77, active high
+ * PSU_IOU_SLCR_MIO_MST_TRI2_PIN_77_TRI 0
- PLL0 Reference Selection Register
- (OFFSET, MASK, VALUE) (0XFD410000, 0x0000001FU ,0x0000000DU)
- RegMask = (SERDES_PLL_REF_SEL0_PLLREFSEL0_MASK | 0 );
+ * MIO pin Tri-state Enables, 77:64
+ * (OFFSET, MASK, VALUE) (0XFF18020C, 0x00003FFFU ,0x00000FC0U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_MST_TRI2_OFFSET,
+ 0x00003FFFU, 0x00000FC0U);
+/*##################################################################### */
- RegVal = ((0x0000000DU << SERDES_PLL_REF_SEL0_PLLREFSEL0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_PLL_REF_SEL0_OFFSET ,0x0000001FU ,0x0000000DU);
- /*############################################################################################################################ */
+ /*
+ * Register : bank0_ctrl0 @ 0XFF180138
- /*Register : PLL_REF_SEL1 @ 0XFD410004</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_0 1
- PLL1 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 -
- 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135
- Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved
- PSU_SERDES_PLL_REF_SEL1_PLLREFSEL1 0x9
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_1 1
- PLL1 Reference Selection Register
- (OFFSET, MASK, VALUE) (0XFD410004, 0x0000001FU ,0x00000009U)
- RegMask = (SERDES_PLL_REF_SEL1_PLLREFSEL1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_2 1
- RegVal = ((0x00000009U << SERDES_PLL_REF_SEL1_PLLREFSEL1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_PLL_REF_SEL1_OFFSET ,0x0000001FU ,0x00000009U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_3 1
- /*Register : PLL_REF_SEL2 @ 0XFD410008</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_4 1
- PLL2 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 -
- 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135
- Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved
- PSU_SERDES_PLL_REF_SEL2_PLLREFSEL2 0x8
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_5 1
- PLL2 Reference Selection Register
- (OFFSET, MASK, VALUE) (0XFD410008, 0x0000001FU ,0x00000008U)
- RegMask = (SERDES_PLL_REF_SEL2_PLLREFSEL2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_6 1
- RegVal = ((0x00000008U << SERDES_PLL_REF_SEL2_PLLREFSEL2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_PLL_REF_SEL2_OFFSET ,0x0000001FU ,0x00000008U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_7 1
- /*Register : PLL_REF_SEL3 @ 0XFD41000C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_8 1
- PLL3 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 12MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 -
- 4MHz, 0x8 - 26MHz, 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE - 108MHz, 0xF - 125MHz, 0x10 - 135
- Hz, 0x11 - 150 MHz. 0x12 to 0x1F - Reserved
- PSU_SERDES_PLL_REF_SEL3_PLLREFSEL3 0xF
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_9 1
- PLL3 Reference Selection Register
- (OFFSET, MASK, VALUE) (0XFD41000C, 0x0000001FU ,0x0000000FU)
- RegMask = (SERDES_PLL_REF_SEL3_PLLREFSEL3_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_10 1
- RegVal = ((0x0000000FU << SERDES_PLL_REF_SEL3_PLLREFSEL3_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_PLL_REF_SEL3_OFFSET ,0x0000001FU ,0x0000000FU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_11 1
- // : GT REFERENCE CLOCK FREQUENCY SELECTION
- /*Register : L0_L0_REF_CLK_SEL @ 0XFD402860</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_12 1
- Sel of lane 0 ref clock local mux. Set to 1 to select lane 0 slicer output. Set to 0 to select lane0 ref clock mux output.
- PSU_SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_13 1
- Lane0 Ref Clock Selection Register
- (OFFSET, MASK, VALUE) (0XFD402860, 0x00000080U ,0x00000080U)
- RegMask = (SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_14 1
- RegVal = ((0x00000001U << SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_L0_REF_CLK_SEL_OFFSET ,0x00000080U ,0x00000080U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_15 1
- /*Register : L0_L1_REF_CLK_SEL @ 0XFD402864</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_16 1
- Sel of lane 1 ref clock local mux. Set to 1 to select lane 1 slicer output. Set to 0 to select lane1 ref clock mux output.
- PSU_SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_17 1
- Bit 3 of lane 1 ref clock mux one hot sel. Set to 1 to select lane 3 slicer output from ref clock network
- PSU_SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_18 1
- Lane1 Ref Clock Selection Register
- (OFFSET, MASK, VALUE) (0XFD402864, 0x00000088U ,0x00000008U)
- RegMask = (SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_MASK | SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_19 1
- RegVal = ((0x00000000U << SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL_SHIFT
- | 0x00000001U << SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_L1_REF_CLK_SEL_OFFSET ,0x00000088U ,0x00000008U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_20 1
- /*Register : L0_L2_REF_CLK_SEL @ 0XFD402868</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_21 1
- Sel of lane 2 ref clock local mux. Set to 1 to select lane 1 slicer output. Set to 0 to select lane2 ref clock mux output.
- PSU_SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_22 1
- Lane2 Ref Clock Selection Register
- (OFFSET, MASK, VALUE) (0XFD402868, 0x00000080U ,0x00000080U)
- RegMask = (SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_23 1
- RegVal = ((0x00000001U << SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_L2_REF_CLK_SEL_OFFSET ,0x00000080U ,0x00000080U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_24 1
- /*Register : L0_L3_REF_CLK_SEL @ 0XFD40286C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL0_DRIVE0_BIT_25 1
- Sel of lane 3 ref clock local mux. Set to 1 to select lane 3 slicer output. Set to 0 to select lane3 ref clock mux output.
- PSU_SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL 0x0
+ * Drive0 control to MIO Bank 0 - control MIO[25:0]
+ * (OFFSET, MASK, VALUE) (0XFF180138, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK0_CTRL0_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- Bit 1 of lane 3 ref clock mux one hot sel. Set to 1 to select lane 1 slicer output from ref clock network
- PSU_SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1 0x1
+ /*
+ * Register : bank0_ctrl1 @ 0XFF18013C
- Lane3 Ref Clock Selection Register
- (OFFSET, MASK, VALUE) (0XFD40286C, 0x00000082U ,0x00000002U)
- RegMask = (SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_MASK | SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_0 1
- RegVal = ((0x00000000U << SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL_SHIFT
- | 0x00000001U << SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_L3_REF_CLK_SEL_OFFSET ,0x00000082U ,0x00000002U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_1 1
- // : ENABLE SPREAD SPECTRUM
- /*Register : L2_TM_PLL_DIG_37 @ 0XFD40A094</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_2 1
- Enable/Disable coarse code satureation limiting logic
- PSU_SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_3 1
- Test mode register 37
- (OFFSET, MASK, VALUE) (0XFD40A094, 0x00000010U ,0x00000010U)
- RegMask = (SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_4 1
- RegVal = ((0x00000001U << SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_PLL_DIG_37_OFFSET ,0x00000010U ,0x00000010U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_5 1
- /*Register : L2_PLL_SS_STEPS_0_LSB @ 0XFD40A368</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_6 1
- Spread Spectrum No of Steps [7:0]
- PSU_SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x38
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_7 1
- Spread Spectrum No of Steps bits 7:0
- (OFFSET, MASK, VALUE) (0XFD40A368, 0x000000FFU ,0x00000038U)
- RegMask = (SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_8 1
- RegVal = ((0x00000038U << SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x00000038U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_9 1
- /*Register : L2_PLL_SS_STEPS_1_MSB @ 0XFD40A36C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_10 1
- Spread Spectrum No of Steps [10:8]
- PSU_SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x03
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_11 1
- Spread Spectrum No of Steps bits 10:8
- (OFFSET, MASK, VALUE) (0XFD40A36C, 0x00000007U ,0x00000003U)
- RegMask = (SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_12 1
- RegVal = ((0x00000003U << SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_13 1
- /*Register : L3_PLL_SS_STEPS_0_LSB @ 0XFD40E368</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_14 1
- Spread Spectrum No of Steps [7:0]
- PSU_SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0xE0
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_15 1
- Spread Spectrum No of Steps bits 7:0
- (OFFSET, MASK, VALUE) (0XFD40E368, 0x000000FFU ,0x000000E0U)
- RegMask = (SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_16 1
- RegVal = ((0x000000E0U << SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x000000E0U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_17 1
- /*Register : L3_PLL_SS_STEPS_1_MSB @ 0XFD40E36C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_18 1
- Spread Spectrum No of Steps [10:8]
- PSU_SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_19 1
- Spread Spectrum No of Steps bits 10:8
- (OFFSET, MASK, VALUE) (0XFD40E36C, 0x00000007U ,0x00000003U)
- RegMask = (SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_20 1
- RegVal = ((0x00000003U << SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_21 1
- /*Register : L1_PLL_SS_STEPS_0_LSB @ 0XFD406368</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_22 1
- Spread Spectrum No of Steps [7:0]
- PSU_SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x58
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_23 1
- Spread Spectrum No of Steps bits 7:0
- (OFFSET, MASK, VALUE) (0XFD406368, 0x000000FFU ,0x00000058U)
- RegMask = (SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_24 1
- RegVal = ((0x00000058U << SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_PLL_SS_STEPS_0_LSB_OFFSET ,0x000000FFU ,0x00000058U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL1_DRIVE1_BIT_25 1
- /*Register : L1_PLL_SS_STEPS_1_MSB @ 0XFD40636C</p>
+ * Drive1 control to MIO Bank 0 - control MIO[25:0]
+ * (OFFSET, MASK, VALUE) (0XFF18013C, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK0_CTRL1_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- Spread Spectrum No of Steps [10:8]
- PSU_SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3
+ /*
+ * Register : bank0_ctrl3 @ 0XFF180140
- Spread Spectrum No of Steps bits 10:8
- (OFFSET, MASK, VALUE) (0XFD40636C, 0x00000007U ,0x00000003U)
- RegMask = (SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_0 0
- RegVal = ((0x00000003U << SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_PLL_SS_STEPS_1_MSB_OFFSET ,0x00000007U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_1 0
- /*Register : L1_PLL_SS_STEP_SIZE_0_LSB @ 0XFD406370</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_2 0
- Step Size for Spread Spectrum [7:0]
- PSU_SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0x7C
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_3 0
- Step Size for Spread Spectrum LSB
- (OFFSET, MASK, VALUE) (0XFD406370, 0x000000FFU ,0x0000007CU)
- RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_4 0
- RegVal = ((0x0000007CU << SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x0000007CU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_5 0
- /*Register : L1_PLL_SS_STEP_SIZE_1 @ 0XFD406374</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_6 0
- Step Size for Spread Spectrum [15:8]
- PSU_SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x33
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_7 0
- Step Size for Spread Spectrum 1
- (OFFSET, MASK, VALUE) (0XFD406374, 0x000000FFU ,0x00000033U)
- RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_8 0
- RegVal = ((0x00000033U << SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x00000033U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_9 0
- /*Register : L1_PLL_SS_STEP_SIZE_2 @ 0XFD406378</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_10 0
- Step Size for Spread Spectrum [23:16]
- PSU_SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_11 0
- Step Size for Spread Spectrum 2
- (OFFSET, MASK, VALUE) (0XFD406378, 0x000000FFU ,0x00000002U)
- RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_12 0
- RegVal = ((0x00000002U << SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000002U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_13 0
- /*Register : L1_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40637C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_14 0
- Step Size for Spread Spectrum [25:24]
- PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_15 0
- Enable/Disable test mode force on SS step size
- PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_16 0
- Enable/Disable test mode force on SS no of steps
- PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_17 0
- Enable force on enable Spread Spectrum
- (OFFSET, MASK, VALUE) (0XFD40637C, 0x00000033U ,0x00000030U)
- RegMask = (SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_18 0
- RegVal = ((0x00000000U << SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT
- | 0x00000001U << SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT
- | 0x00000001U << SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x00000033U ,0x00000030U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_19 0
- /*Register : L2_PLL_SS_STEP_SIZE_0_LSB @ 0XFD40A370</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_20 0
- Step Size for Spread Spectrum [7:0]
- PSU_SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0xF4
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_21 0
- Step Size for Spread Spectrum LSB
- (OFFSET, MASK, VALUE) (0XFD40A370, 0x000000FFU ,0x000000F4U)
- RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_22 0
- RegVal = ((0x000000F4U << SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x000000F4U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_23 0
- /*Register : L2_PLL_SS_STEP_SIZE_1 @ 0XFD40A374</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_24 0
- Step Size for Spread Spectrum [15:8]
- PSU_SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x31
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL3_SCHMITT_CMOS_N_BIT_25 0
- Step Size for Spread Spectrum 1
- (OFFSET, MASK, VALUE) (0XFD40A374, 0x000000FFU ,0x00000031U)
- RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 );
+ * Selects either Schmitt or CMOS input for MIO Bank 0 - control MIO[25:0]
+ * (OFFSET, MASK, VALUE) (0XFF180140, 0x03FFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK0_CTRL3_OFFSET,
+ 0x03FFFFFFU, 0x00000000U);
+/*##################################################################### */
- RegVal = ((0x00000031U << SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x00000031U);
- /*############################################################################################################################ */
+ /*
+ * Register : bank0_ctrl4 @ 0XFF180144
- /*Register : L2_PLL_SS_STEP_SIZE_2 @ 0XFD40A378</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_0 1
- Step Size for Spread Spectrum [23:16]
- PSU_SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_1 1
- Step Size for Spread Spectrum 2
- (OFFSET, MASK, VALUE) (0XFD40A378, 0x000000FFU ,0x00000002U)
- RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_2 1
- RegVal = ((0x00000002U << SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000002U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_3 1
- /*Register : L2_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40A37C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_4 1
- Step Size for Spread Spectrum [25:24]
- PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_5 1
- Enable/Disable test mode force on SS step size
- PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_6 1
- Enable/Disable test mode force on SS no of steps
- PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_7 1
- Enable force on enable Spread Spectrum
- (OFFSET, MASK, VALUE) (0XFD40A37C, 0x00000033U ,0x00000030U)
- RegMask = (SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_8 1
- RegVal = ((0x00000000U << SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT
- | 0x00000001U << SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT
- | 0x00000001U << SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x00000033U ,0x00000030U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_9 1
- /*Register : L3_PLL_SS_STEP_SIZE_0_LSB @ 0XFD40E370</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_10 1
- Step Size for Spread Spectrum [7:0]
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0xC9
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_11 1
- Step Size for Spread Spectrum LSB
- (OFFSET, MASK, VALUE) (0XFD40E370, 0x000000FFU ,0x000000C9U)
- RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_12 1
- RegVal = ((0x000000C9U << SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_OFFSET ,0x000000FFU ,0x000000C9U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_13 1
- /*Register : L3_PLL_SS_STEP_SIZE_1 @ 0XFD40E374</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_14 1
- Step Size for Spread Spectrum [15:8]
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0xD2
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_15 1
- Step Size for Spread Spectrum 1
- (OFFSET, MASK, VALUE) (0XFD40E374, 0x000000FFU ,0x000000D2U)
- RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_16 1
- RegVal = ((0x000000D2U << SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_1_OFFSET ,0x000000FFU ,0x000000D2U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_17 1
- /*Register : L3_PLL_SS_STEP_SIZE_2 @ 0XFD40E378</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_18 1
- Step Size for Spread Spectrum [23:16]
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_19 1
- Step Size for Spread Spectrum 2
- (OFFSET, MASK, VALUE) (0XFD40E378, 0x000000FFU ,0x00000001U)
- RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_20 1
- RegVal = ((0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_2_OFFSET ,0x000000FFU ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_21 1
- /*Register : L3_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40E37C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_22 1
- Step Size for Spread Spectrum [25:24]
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_23 1
- Enable/Disable test mode force on SS step size
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_24 1
- Enable/Disable test mode force on SS no of steps
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL4_PULL_HIGH_LOW_N_BIT_25 1
- Enable test mode forcing on enable Spread Spectrum
- PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS 0x1
+ * When mio_bank0_pull_enable is set, this selects pull up or pull down for
+ * MIO Bank 0 - control MIO[25:0]
+ * (OFFSET, MASK, VALUE) (0XFF180144, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK0_CTRL4_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- Enable force on enable Spread Spectrum
- (OFFSET, MASK, VALUE) (0XFD40E37C, 0x000000B3U ,0x000000B0U)
- RegMask = (SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_MASK | SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_MASK | SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_MASK | SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_MASK | 0 );
+ /*
+ * Register : bank0_ctrl5 @ 0XFF180148
- RegVal = ((0x00000000U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB_SHIFT
- | 0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE_SHIFT
- | 0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS_SHIFT
- | 0x00000001U << SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_OFFSET ,0x000000B3U ,0x000000B0U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_0 1
- /*Register : L2_TM_DIG_6 @ 0XFD40906C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_1 1
- Bypass Descrambler
- PSU_SERDES_L2_TM_DIG_6_BYPASS_DESCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_2 1
- Enable Bypass for <1> TM_DIG_CTRL_6
- PSU_SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_3 1
- Data path test modes in decoder and descram
- (OFFSET, MASK, VALUE) (0XFD40906C, 0x00000003U ,0x00000003U)
- RegMask = (SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_MASK | SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_4 1
- RegVal = ((0x00000001U << SERDES_L2_TM_DIG_6_BYPASS_DESCRAM_SHIFT
- | 0x00000001U << SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_DIG_6_OFFSET ,0x00000003U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_5 1
- /*Register : L2_TX_DIG_TM_61 @ 0XFD4080F4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_6 1
- Bypass scrambler signal
- PSU_SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_7 1
- Enable/disable scrambler bypass signal
- PSU_SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_8 1
- MPHY PLL Gear and bypass scrambler
- (OFFSET, MASK, VALUE) (0XFD4080F4, 0x00000003U ,0x00000003U)
- RegMask = (SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_MASK | SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_9 1
- RegVal = ((0x00000001U << SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT
- | 0x00000001U << SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TX_DIG_TM_61_OFFSET ,0x00000003U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_10 1
- /*Register : L3_PLL_FBDIV_FRAC_3_MSB @ 0XFD40E360</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_11 1
- Enable test mode force on fractional mode enable
- PSU_SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_12 1
- Fractional feedback division control and fractional value for feedback division bits 26:24
- (OFFSET, MASK, VALUE) (0XFD40E360, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_13 1
- RegVal = ((0x00000001U << SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_PLL_FBDIV_FRAC_3_MSB_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_14 1
- /*Register : L3_TM_DIG_6 @ 0XFD40D06C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_15 1
- Bypass 8b10b decoder
- PSU_SERDES_L3_TM_DIG_6_BYPASS_DECODER 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_16 1
- Enable Bypass for <3> TM_DIG_CTRL_6
- PSU_SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_17 1
- Bypass Descrambler
- PSU_SERDES_L3_TM_DIG_6_BYPASS_DESCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_18 1
- Enable Bypass for <1> TM_DIG_CTRL_6
- PSU_SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_19 1
- Data path test modes in decoder and descram
- (OFFSET, MASK, VALUE) (0XFD40D06C, 0x0000000FU ,0x0000000FU)
- RegMask = (SERDES_L3_TM_DIG_6_BYPASS_DECODER_MASK | SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_MASK | SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_MASK | SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_20 1
- RegVal = ((0x00000001U << SERDES_L3_TM_DIG_6_BYPASS_DECODER_SHIFT
- | 0x00000001U << SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC_SHIFT
- | 0x00000001U << SERDES_L3_TM_DIG_6_BYPASS_DESCRAM_SHIFT
- | 0x00000001U << SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_DIG_6_OFFSET ,0x0000000FU ,0x0000000FU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_21 1
- /*Register : L3_TX_DIG_TM_61 @ 0XFD40C0F4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_22 1
- Enable/disable encoder bypass signal
- PSU_SERDES_L3_TX_DIG_TM_61_BYPASS_ENC 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_23 1
- Bypass scrambler signal
- PSU_SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_24 1
- Enable/disable scrambler bypass signal
- PSU_SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL5_PULL_ENABLE_BIT_25 1
- MPHY PLL Gear and bypass scrambler
- (OFFSET, MASK, VALUE) (0XFD40C0F4, 0x0000000BU ,0x0000000BU)
- RegMask = (SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_MASK | SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_MASK | SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_MASK | 0 );
+ * When set, this enables mio_bank0_pullupdown to selects pull up or pull d
+ * own for MIO Bank 0 - control MIO[25:0]
+ * (OFFSET, MASK, VALUE) (0XFF180148, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK0_CTRL5_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- RegVal = ((0x00000001U << SERDES_L3_TX_DIG_TM_61_BYPASS_ENC_SHIFT
- | 0x00000001U << SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM_SHIFT
- | 0x00000001U << SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TX_DIG_TM_61_OFFSET ,0x0000000BU ,0x0000000BU);
- /*############################################################################################################################ */
+ /*
+ * Register : bank0_ctrl6 @ 0XFF18014C
- /*Register : L3_TXPMA_ST_0 @ 0XFD40CB00</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0
- PHY Mode: 4'b000 - PCIe, 4'b001 - USB3, 4'b0010 - SATA, 4'b0100 - SGMII, 4'b0101 - DP, 4'b1000 - MPHY
- PSU_SERDES_L3_TXPMA_ST_0_TX_PHY_MODE 0x21
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0
- Opmode Info
- (OFFSET, MASK, VALUE) (0XFD40CB00, 0x000000F0U ,0x000000F0U)
- RegMask = (SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0
- RegVal = ((0x00000021U << SERDES_L3_TXPMA_ST_0_TX_PHY_MODE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TXPMA_ST_0_OFFSET ,0x000000F0U ,0x000000F0U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0
- // : ENABLE CHICKEN BIT FOR PCIE AND USB
- /*Register : L0_TM_AUX_0 @ 0XFD4010CC</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0
- Spare- not used
- PSU_SERDES_L0_TM_AUX_0_BIT_2 1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0
- Spare registers
- (OFFSET, MASK, VALUE) (0XFD4010CC, 0x00000020U ,0x00000020U)
- RegMask = (SERDES_L0_TM_AUX_0_BIT_2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0
- RegVal = ((0x00000001U << SERDES_L0_TM_AUX_0_BIT_2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_AUX_0_OFFSET ,0x00000020U ,0x00000020U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0
- /*Register : L2_TM_AUX_0 @ 0XFD4090CC</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0
- Spare- not used
- PSU_SERDES_L2_TM_AUX_0_BIT_2 1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0
- Spare registers
- (OFFSET, MASK, VALUE) (0XFD4090CC, 0x00000020U ,0x00000020U)
- RegMask = (SERDES_L2_TM_AUX_0_BIT_2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0
- RegVal = ((0x00000001U << SERDES_L2_TM_AUX_0_BIT_2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_AUX_0_OFFSET ,0x00000020U ,0x00000020U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0
- // : ENABLING EYE SURF
- /*Register : L0_TM_DIG_8 @ 0XFD401074</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0
- Enable Eye Surf
- PSU_SERDES_L0_TM_DIG_8_EYESURF_ENABLE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0
- Test modes for Elastic buffer and enabling Eye Surf
- (OFFSET, MASK, VALUE) (0XFD401074, 0x00000010U ,0x00000010U)
- RegMask = (SERDES_L0_TM_DIG_8_EYESURF_ENABLE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0
- RegVal = ((0x00000001U << SERDES_L0_TM_DIG_8_EYESURF_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0
- /*Register : L1_TM_DIG_8 @ 0XFD405074</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0
- Enable Eye Surf
- PSU_SERDES_L1_TM_DIG_8_EYESURF_ENABLE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0
- Test modes for Elastic buffer and enabling Eye Surf
- (OFFSET, MASK, VALUE) (0XFD405074, 0x00000010U ,0x00000010U)
- RegMask = (SERDES_L1_TM_DIG_8_EYESURF_ENABLE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0
- RegVal = ((0x00000001U << SERDES_L1_TM_DIG_8_EYESURF_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0
- /*Register : L2_TM_DIG_8 @ 0XFD409074</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0
- Enable Eye Surf
- PSU_SERDES_L2_TM_DIG_8_EYESURF_ENABLE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0
- Test modes for Elastic buffer and enabling Eye Surf
- (OFFSET, MASK, VALUE) (0XFD409074, 0x00000010U ,0x00000010U)
- RegMask = (SERDES_L2_TM_DIG_8_EYESURF_ENABLE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0
- RegVal = ((0x00000001U << SERDES_L2_TM_DIG_8_EYESURF_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0
- /*Register : L3_TM_DIG_8 @ 0XFD40D074</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0
- Enable Eye Surf
- PSU_SERDES_L3_TM_DIG_8_EYESURF_ENABLE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[0].
+ * PSU_IOU_SLCR_BANK0_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0
- Test modes for Elastic buffer and enabling Eye Surf
- (OFFSET, MASK, VALUE) (0XFD40D074, 0x00000010U ,0x00000010U)
- RegMask = (SERDES_L3_TM_DIG_8_EYESURF_ENABLE_MASK | 0 );
+ * Slew rate control to MIO Bank 0 - control MIO[25:0]
+ * (OFFSET, MASK, VALUE) (0XFF18014C, 0x03FFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK0_CTRL6_OFFSET,
+ 0x03FFFFFFU, 0x00000000U);
+/*##################################################################### */
- RegVal = ((0x00000001U << SERDES_L3_TM_DIG_8_EYESURF_ENABLE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_DIG_8_OFFSET ,0x00000010U ,0x00000010U);
- /*############################################################################################################################ */
+ /*
+ * Register : bank1_ctrl0 @ 0XFF180154
- // : ILL SETTINGS FOR GAIN AND LOCK SETTINGS
- /*Register : L0_TM_MISC2 @ 0XFD40189C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_0 1
- ILL calib counts BYPASSED with calcode bits
- PSU_SERDES_L0_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_1 1
- sampler cal
- (OFFSET, MASK, VALUE) (0XFD40189C, 0x00000080U ,0x00000080U)
- RegMask = (SERDES_L0_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_2 1
- RegVal = ((0x00000001U << SERDES_L0_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_MISC2_OFFSET ,0x00000080U ,0x00000080U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_3 1
- /*Register : L0_TM_IQ_ILL1 @ 0XFD4018F8</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_4 1
- IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS
- PSU_SERDES_L0_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x64
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_5 1
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD4018F8, 0x000000FFU ,0x00000064U)
- RegMask = (SERDES_L0_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_6 1
- RegVal = ((0x00000064U << SERDES_L0_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_IQ_ILL1_OFFSET ,0x000000FFU ,0x00000064U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_7 1
- /*Register : L0_TM_IQ_ILL2 @ 0XFD4018FC</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_8 1
- IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
- PSU_SERDES_L0_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x64
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_9 1
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD4018FC, 0x000000FFU ,0x00000064U)
- RegMask = (SERDES_L0_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_10 1
- RegVal = ((0x00000064U << SERDES_L0_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_IQ_ILL2_OFFSET ,0x000000FFU ,0x00000064U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_11 1
- /*Register : L0_TM_ILL12 @ 0XFD401990</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_12 1
- G1A pll ctr bypass value
- PSU_SERDES_L0_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x11
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_13 1
- ill pll counter values
- (OFFSET, MASK, VALUE) (0XFD401990, 0x000000FFU ,0x00000011U)
- RegMask = (SERDES_L0_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_14 1
- RegVal = ((0x00000011U << SERDES_L0_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_ILL12_OFFSET ,0x000000FFU ,0x00000011U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_15 1
- /*Register : L0_TM_E_ILL1 @ 0XFD401924</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_16 1
- E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS
- PSU_SERDES_L0_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0x4
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_17 1
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD401924, 0x000000FFU ,0x00000004U)
- RegMask = (SERDES_L0_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_18 1
- RegVal = ((0x00000004U << SERDES_L0_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_E_ILL1_OFFSET ,0x000000FFU ,0x00000004U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_19 1
- /*Register : L0_TM_E_ILL2 @ 0XFD401928</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_20 1
- E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
- PSU_SERDES_L0_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0xFE
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_21 1
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD401928, 0x000000FFU ,0x000000FEU)
- RegMask = (SERDES_L0_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_22 1
- RegVal = ((0x000000FEU << SERDES_L0_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_E_ILL2_OFFSET ,0x000000FFU ,0x000000FEU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_23 1
- /*Register : L0_TM_IQ_ILL3 @ 0XFD401900</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_24 1
- IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
- PSU_SERDES_L0_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x64
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL0_DRIVE0_BIT_25 1
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD401900, 0x000000FFU ,0x00000064U)
- RegMask = (SERDES_L0_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK | 0 );
+ * Drive0 control to MIO Bank 1 - control MIO[51:26]
+ * (OFFSET, MASK, VALUE) (0XFF180154, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK1_CTRL0_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- RegVal = ((0x00000064U << SERDES_L0_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_IQ_ILL3_OFFSET ,0x000000FFU ,0x00000064U);
- /*############################################################################################################################ */
+ /*
+ * Register : bank1_ctrl1 @ 0XFF180158
- /*Register : L0_TM_E_ILL3 @ 0XFD40192C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_0 1
- E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
- PSU_SERDES_L0_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_1 1
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD40192C, 0x000000FFU ,0x00000000U)
- RegMask = (SERDES_L0_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_2 1
- RegVal = ((0x00000000U << SERDES_L0_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_E_ILL3_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_3 1
- /*Register : L0_TM_ILL8 @ 0XFD401980</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_4 1
- ILL calibration code change wait time
- PSU_SERDES_L0_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_5 1
- ILL cal routine control
- (OFFSET, MASK, VALUE) (0XFD401980, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L0_TM_ILL8_ILL_CAL_ITER_WAIT_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_6 1
- RegVal = ((0x000000FFU << SERDES_L0_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_ILL8_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_7 1
- /*Register : L0_TM_IQ_ILL8 @ 0XFD401914</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_8 1
- IQ ILL polytrim bypass value
- PSU_SERDES_L0_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_9 1
- iqpi polytrim
- (OFFSET, MASK, VALUE) (0XFD401914, 0x000000FFU ,0x000000F7U)
- RegMask = (SERDES_L0_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_10 1
- RegVal = ((0x000000F7U << SERDES_L0_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_IQ_ILL8_OFFSET ,0x000000FFU ,0x000000F7U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_11 1
- /*Register : L0_TM_IQ_ILL9 @ 0XFD401918</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_12 1
- bypass IQ polytrim
- PSU_SERDES_L0_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_13 1
- enables for lf,constant gm trim and polytirm
- (OFFSET, MASK, VALUE) (0XFD401918, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L0_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_14 1
- RegVal = ((0x00000001U << SERDES_L0_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_IQ_ILL9_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_15 1
- /*Register : L0_TM_E_ILL8 @ 0XFD401940</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_16 1
- E ILL polytrim bypass value
- PSU_SERDES_L0_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_17 1
- epi polytrim
- (OFFSET, MASK, VALUE) (0XFD401940, 0x000000FFU ,0x000000F7U)
- RegMask = (SERDES_L0_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_18 1
- RegVal = ((0x000000F7U << SERDES_L0_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_E_ILL8_OFFSET ,0x000000FFU ,0x000000F7U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_19 1
- /*Register : L0_TM_E_ILL9 @ 0XFD401944</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_20 1
- bypass E polytrim
- PSU_SERDES_L0_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_21 1
- enables for lf,constant gm trim and polytirm
- (OFFSET, MASK, VALUE) (0XFD401944, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L0_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_22 1
- RegVal = ((0x00000001U << SERDES_L0_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_E_ILL9_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_23 1
- /*Register : L2_TM_MISC2 @ 0XFD40989C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_24 1
- ILL calib counts BYPASSED with calcode bits
- PSU_SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL1_DRIVE1_BIT_25 1
- sampler cal
- (OFFSET, MASK, VALUE) (0XFD40989C, 0x00000080U ,0x00000080U)
- RegMask = (SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK | 0 );
+ * Drive1 control to MIO Bank 1 - control MIO[51:26]
+ * (OFFSET, MASK, VALUE) (0XFF180158, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK1_CTRL1_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- RegVal = ((0x00000001U << SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_MISC2_OFFSET ,0x00000080U ,0x00000080U);
- /*############################################################################################################################ */
+ /*
+ * Register : bank1_ctrl3 @ 0XFF18015C
- /*Register : L2_TM_IQ_ILL1 @ 0XFD4098F8</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_0 0
- IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS
- PSU_SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x1A
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_1 0
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD4098F8, 0x000000FFU ,0x0000001AU)
- RegMask = (SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_2 0
- RegVal = ((0x0000001AU << SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_IQ_ILL1_OFFSET ,0x000000FFU ,0x0000001AU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_3 0
- /*Register : L2_TM_IQ_ILL2 @ 0XFD4098FC</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_4 0
- IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
- PSU_SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x1A
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_5 0
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD4098FC, 0x000000FFU ,0x0000001AU)
- RegMask = (SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_6 0
- RegVal = ((0x0000001AU << SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_IQ_ILL2_OFFSET ,0x000000FFU ,0x0000001AU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_7 0
- /*Register : L2_TM_ILL12 @ 0XFD409990</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_8 0
- G1A pll ctr bypass value
- PSU_SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x10
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_9 0
- ill pll counter values
- (OFFSET, MASK, VALUE) (0XFD409990, 0x000000FFU ,0x00000010U)
- RegMask = (SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_10 0
- RegVal = ((0x00000010U << SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_ILL12_OFFSET ,0x000000FFU ,0x00000010U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_11 0
- /*Register : L2_TM_E_ILL1 @ 0XFD409924</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_12 0
- E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS
- PSU_SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0xFE
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_13 0
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD409924, 0x000000FFU ,0x000000FEU)
- RegMask = (SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_14 0
- RegVal = ((0x000000FEU << SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_E_ILL1_OFFSET ,0x000000FFU ,0x000000FEU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_15 0
- /*Register : L2_TM_E_ILL2 @ 0XFD409928</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_16 0
- E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
- PSU_SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_17 0
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD409928, 0x000000FFU ,0x00000000U)
- RegMask = (SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_18 0
- RegVal = ((0x00000000U << SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_E_ILL2_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_19 0
- /*Register : L2_TM_IQ_ILL3 @ 0XFD409900</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_20 0
- IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
- PSU_SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x1A
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_21 0
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD409900, 0x000000FFU ,0x0000001AU)
- RegMask = (SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_22 0
- RegVal = ((0x0000001AU << SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_IQ_ILL3_OFFSET ,0x000000FFU ,0x0000001AU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_23 0
- /*Register : L2_TM_E_ILL3 @ 0XFD40992C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_24 0
- E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
- PSU_SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL3_SCHMITT_CMOS_N_BIT_25 0
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD40992C, 0x000000FFU ,0x00000000U)
- RegMask = (SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK | 0 );
+ * Selects either Schmitt or CMOS input for MIO Bank 1 - control MIO[51:26]
+ * (OFFSET, MASK, VALUE) (0XFF18015C, 0x03FFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK1_CTRL3_OFFSET,
+ 0x03FFFFFFU, 0x00000000U);
+/*##################################################################### */
- RegVal = ((0x00000000U << SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_E_ILL3_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
+ /*
+ * Register : bank1_ctrl4 @ 0XFF180160
- /*Register : L2_TM_ILL8 @ 0XFD409980</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_0 1
- ILL calibration code change wait time
- PSU_SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_1 1
- ILL cal routine control
- (OFFSET, MASK, VALUE) (0XFD409980, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_2 1
- RegVal = ((0x000000FFU << SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_ILL8_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_3 1
- /*Register : L2_TM_IQ_ILL8 @ 0XFD409914</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_4 1
- IQ ILL polytrim bypass value
- PSU_SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_5 1
- iqpi polytrim
- (OFFSET, MASK, VALUE) (0XFD409914, 0x000000FFU ,0x000000F7U)
- RegMask = (SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_6 1
- RegVal = ((0x000000F7U << SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_IQ_ILL8_OFFSET ,0x000000FFU ,0x000000F7U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_7 1
- /*Register : L2_TM_IQ_ILL9 @ 0XFD409918</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_8 1
- bypass IQ polytrim
- PSU_SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_9 1
- enables for lf,constant gm trim and polytirm
- (OFFSET, MASK, VALUE) (0XFD409918, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_10 1
- RegVal = ((0x00000001U << SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_IQ_ILL9_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_11 1
- /*Register : L2_TM_E_ILL8 @ 0XFD409940</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_12 1
- E ILL polytrim bypass value
- PSU_SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_13 1
- epi polytrim
- (OFFSET, MASK, VALUE) (0XFD409940, 0x000000FFU ,0x000000F7U)
- RegMask = (SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_14 1
- RegVal = ((0x000000F7U << SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_E_ILL8_OFFSET ,0x000000FFU ,0x000000F7U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_15 1
- /*Register : L2_TM_E_ILL9 @ 0XFD409944</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_16 1
- bypass E polytrim
- PSU_SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_17 1
- enables for lf,constant gm trim and polytirm
- (OFFSET, MASK, VALUE) (0XFD409944, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_18 1
- RegVal = ((0x00000001U << SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_E_ILL9_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_19 1
- /*Register : L3_TM_MISC2 @ 0XFD40D89C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_20 1
- ILL calib counts BYPASSED with calcode bits
- PSU_SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_21 1
- sampler cal
- (OFFSET, MASK, VALUE) (0XFD40D89C, 0x00000080U ,0x00000080U)
- RegMask = (SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_22 1
- RegVal = ((0x00000001U << SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_MISC2_OFFSET ,0x00000080U ,0x00000080U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_23 1
- /*Register : L3_TM_IQ_ILL1 @ 0XFD40D8F8</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_24 1
- IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS
- PSU_SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x7D
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL4_PULL_HIGH_LOW_N_BIT_25 1
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD40D8F8, 0x000000FFU ,0x0000007DU)
- RegMask = (SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_MASK | 0 );
+ * When mio_bank1_pull_enable is set, this selects pull up or pull down for
+ * MIO Bank 1 - control MIO[51:26]
+ * (OFFSET, MASK, VALUE) (0XFF180160, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK1_CTRL4_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- RegVal = ((0x0000007DU << SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_IQ_ILL1_OFFSET ,0x000000FFU ,0x0000007DU);
- /*############################################################################################################################ */
+ /*
+ * Register : bank1_ctrl5 @ 0XFF180164
- /*Register : L3_TM_IQ_ILL2 @ 0XFD40D8FC</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_0 1
- IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
- PSU_SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x7D
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_1 1
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD40D8FC, 0x000000FFU ,0x0000007DU)
- RegMask = (SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_2 1
- RegVal = ((0x0000007DU << SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_IQ_ILL2_OFFSET ,0x000000FFU ,0x0000007DU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_3 1
- /*Register : L3_TM_ILL12 @ 0XFD40D990</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_4 1
- G1A pll ctr bypass value
- PSU_SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_5 1
- ill pll counter values
- (OFFSET, MASK, VALUE) (0XFD40D990, 0x000000FFU ,0x00000001U)
- RegMask = (SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_6 1
- RegVal = ((0x00000001U << SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_ILL12_OFFSET ,0x000000FFU ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_7 1
- /*Register : L3_TM_E_ILL1 @ 0XFD40D924</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_8 1
- E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , USB3 : SS
- PSU_SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0x9C
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_9 1
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD40D924, 0x000000FFU ,0x0000009CU)
- RegMask = (SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_10 1
- RegVal = ((0x0000009CU << SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_E_ILL1_OFFSET ,0x000000FFU ,0x0000009CU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_11 1
- /*Register : L3_TM_E_ILL2 @ 0XFD40D928</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_12 1
- E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
- PSU_SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0x39
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_13 1
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD40D928, 0x000000FFU ,0x00000039U)
- RegMask = (SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_14 1
- RegVal = ((0x00000039U << SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_E_ILL2_OFFSET ,0x000000FFU ,0x00000039U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_15 1
- /*Register : L3_TM_ILL11 @ 0XFD40D98C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_16 1
- G2A_PCIe1 PLL ctr bypass value
- PSU_SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL 0x2
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_17 1
- ill pll counter values
- (OFFSET, MASK, VALUE) (0XFD40D98C, 0x000000F0U ,0x00000020U)
- RegMask = (SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_18 1
- RegVal = ((0x00000002U << SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_ILL11_OFFSET ,0x000000F0U ,0x00000020U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_19 1
- /*Register : L3_TM_IQ_ILL3 @ 0XFD40D900</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_20 1
- IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
- PSU_SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x7D
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_21 1
- iqpi cal code
- (OFFSET, MASK, VALUE) (0XFD40D900, 0x000000FFU ,0x0000007DU)
- RegMask = (SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_22 1
- RegVal = ((0x0000007DU << SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_IQ_ILL3_OFFSET ,0x000000FFU ,0x0000007DU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_23 1
- /*Register : L3_TM_E_ILL3 @ 0XFD40D92C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_24 1
- E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
- PSU_SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x64
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL5_PULL_ENABLE_BIT_25 1
- epi cal code
- (OFFSET, MASK, VALUE) (0XFD40D92C, 0x000000FFU ,0x00000064U)
- RegMask = (SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_MASK | 0 );
+ * When set, this enables mio_bank1_pullupdown to selects pull up or pull d
+ * own for MIO Bank 1 - control MIO[51:26]
+ * (OFFSET, MASK, VALUE) (0XFF180164, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK1_CTRL5_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- RegVal = ((0x00000064U << SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_E_ILL3_OFFSET ,0x000000FFU ,0x00000064U);
- /*############################################################################################################################ */
+ /*
+ * Register : bank1_ctrl6 @ 0XFF180168
- /*Register : L3_TM_ILL8 @ 0XFD40D980</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0
- ILL calibration code change wait time
- PSU_SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0
- ILL cal routine control
- (OFFSET, MASK, VALUE) (0XFD40D980, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0
- RegVal = ((0x000000FFU << SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_ILL8_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0
- /*Register : L3_TM_IQ_ILL8 @ 0XFD40D914</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0
- IQ ILL polytrim bypass value
- PSU_SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0
- iqpi polytrim
- (OFFSET, MASK, VALUE) (0XFD40D914, 0x000000FFU ,0x000000F7U)
- RegMask = (SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0
- RegVal = ((0x000000F7U << SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_IQ_ILL8_OFFSET ,0x000000FFU ,0x000000F7U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0
- /*Register : L3_TM_IQ_ILL9 @ 0XFD40D918</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0
- bypass IQ polytrim
- PSU_SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0
- enables for lf,constant gm trim and polytirm
- (OFFSET, MASK, VALUE) (0XFD40D918, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0
- RegVal = ((0x00000001U << SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_IQ_ILL9_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0
- /*Register : L3_TM_E_ILL8 @ 0XFD40D940</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0
- E ILL polytrim bypass value
- PSU_SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0
- epi polytrim
- (OFFSET, MASK, VALUE) (0XFD40D940, 0x000000FFU ,0x000000F7U)
- RegMask = (SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0
- RegVal = ((0x000000F7U << SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_E_ILL8_OFFSET ,0x000000FFU ,0x000000F7U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0
- /*Register : L3_TM_E_ILL9 @ 0XFD40D944</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0
- bypass E polytrim
- PSU_SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0
- enables for lf,constant gm trim and polytirm
- (OFFSET, MASK, VALUE) (0XFD40D944, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0
- RegVal = ((0x00000001U << SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_E_ILL9_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0
- // : SYMBOL LOCK AND WAIT
- /*Register : L0_TM_DIG_21 @ 0XFD4010A8</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0
- pre lock comma count threshold. 2'b 00 : 3, 2'b 01 : 5, 2'b 10 : 10, 2'b 11 : 20
- PSU_SERDES_L0_TM_DIG_21_COMMA_PRE_LOCK_THRESH 0x11
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0
- Control symbol alignment locking - wait counts
- (OFFSET, MASK, VALUE) (0XFD4010A8, 0x00000003U ,0x00000003U)
- RegMask = (SERDES_L0_TM_DIG_21_COMMA_PRE_LOCK_THRESH_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0
- RegVal = ((0x00000011U << SERDES_L0_TM_DIG_21_COMMA_PRE_LOCK_THRESH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_DIG_21_OFFSET ,0x00000003U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0
- /*Register : L0_TM_DIG_10 @ 0XFD40107C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0
- CDR lock wait time. (1-16 us). cdr_lock_wait_time = 4'b xxxx + 4'b 0001
- PSU_SERDES_L0_TM_DIG_10_CDR_BIT_LOCK_TIME 0xF
+ * Each bit applies to a single IO. Bit 0 for MIO[26].
+ * PSU_IOU_SLCR_BANK1_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0
- test control for changing cdr lock wait time
- (OFFSET, MASK, VALUE) (0XFD40107C, 0x0000000FU ,0x0000000FU)
- RegMask = (SERDES_L0_TM_DIG_10_CDR_BIT_LOCK_TIME_MASK | 0 );
+ * Slew rate control to MIO Bank 1 - control MIO[51:26]
+ * (OFFSET, MASK, VALUE) (0XFF180168, 0x03FFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK1_CTRL6_OFFSET,
+ 0x03FFFFFFU, 0x00000000U);
+/*##################################################################### */
- RegVal = ((0x0000000FU << SERDES_L0_TM_DIG_10_CDR_BIT_LOCK_TIME_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_DIG_10_OFFSET ,0x0000000FU ,0x0000000FU);
- /*############################################################################################################################ */
+ /*
+ * Register : bank2_ctrl0 @ 0XFF180170
- // : SIOU SETTINGS FOR BYPASS CONTROL,HSRX-DIG
- /*Register : L0_TM_RST_DLY @ 0XFD4019A4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_0 1
- Delay apb reset by specified amount
- PSU_SERDES_L0_TM_RST_DLY_APB_RST_DLY 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_1 1
- reset delay for apb reset w.r.t pso of hsrx
- (OFFSET, MASK, VALUE) (0XFD4019A4, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L0_TM_RST_DLY_APB_RST_DLY_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_2 1
- RegVal = ((0x000000FFU << SERDES_L0_TM_RST_DLY_APB_RST_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_3 1
- /*Register : L0_TM_ANA_BYP_15 @ 0XFD401038</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_4 1
- Enable Bypass for <7> of TM_ANA_BYPS_15
- PSU_SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_5 1
- Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c
- (OFFSET, MASK, VALUE) (0XFD401038, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_6 1
- RegVal = ((0x00000001U << SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_7 1
- /*Register : L0_TM_ANA_BYP_12 @ 0XFD40102C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_8 1
- Enable Bypass for <7> of TM_ANA_BYPS_12
- PSU_SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_9 1
- Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls
- (OFFSET, MASK, VALUE) (0XFD40102C, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_10 1
- RegVal = ((0x00000001U << SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L0_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_11 1
- /*Register : L1_TM_RST_DLY @ 0XFD4059A4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_12 1
- Delay apb reset by specified amount
- PSU_SERDES_L1_TM_RST_DLY_APB_RST_DLY 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_13 1
- reset delay for apb reset w.r.t pso of hsrx
- (OFFSET, MASK, VALUE) (0XFD4059A4, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L1_TM_RST_DLY_APB_RST_DLY_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_14 1
- RegVal = ((0x000000FFU << SERDES_L1_TM_RST_DLY_APB_RST_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_15 1
- /*Register : L1_TM_ANA_BYP_15 @ 0XFD405038</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_16 1
- Enable Bypass for <7> of TM_ANA_BYPS_15
- PSU_SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_17 1
- Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c
- (OFFSET, MASK, VALUE) (0XFD405038, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_18 1
- RegVal = ((0x00000001U << SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_19 1
- /*Register : L1_TM_ANA_BYP_12 @ 0XFD40502C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_20 1
- Enable Bypass for <7> of TM_ANA_BYPS_12
- PSU_SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_21 1
- Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls
- (OFFSET, MASK, VALUE) (0XFD40502C, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_22 1
- RegVal = ((0x00000001U << SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_23 1
- /*Register : L2_TM_RST_DLY @ 0XFD4099A4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_24 1
- Delay apb reset by specified amount
- PSU_SERDES_L2_TM_RST_DLY_APB_RST_DLY 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL0_DRIVE0_BIT_25 1
- reset delay for apb reset w.r.t pso of hsrx
- (OFFSET, MASK, VALUE) (0XFD4099A4, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L2_TM_RST_DLY_APB_RST_DLY_MASK | 0 );
+ * Drive0 control to MIO Bank 2 - control MIO[77:52]
+ * (OFFSET, MASK, VALUE) (0XFF180170, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK2_CTRL0_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- RegVal = ((0x000000FFU << SERDES_L2_TM_RST_DLY_APB_RST_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ /*
+ * Register : bank2_ctrl1 @ 0XFF180174
- /*Register : L2_TM_ANA_BYP_15 @ 0XFD409038</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_0 1
- Enable Bypass for <7> of TM_ANA_BYPS_15
- PSU_SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_1 1
- Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c
- (OFFSET, MASK, VALUE) (0XFD409038, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_2 1
- RegVal = ((0x00000001U << SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_3 1
- /*Register : L2_TM_ANA_BYP_12 @ 0XFD40902C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_4 1
- Enable Bypass for <7> of TM_ANA_BYPS_12
- PSU_SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_5 1
- Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls
- (OFFSET, MASK, VALUE) (0XFD40902C, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_6 1
- RegVal = ((0x00000001U << SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L2_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_7 1
- /*Register : L3_TM_RST_DLY @ 0XFD40D9A4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_8 1
- Delay apb reset by specified amount
- PSU_SERDES_L3_TM_RST_DLY_APB_RST_DLY 0xFF
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_9 1
- reset delay for apb reset w.r.t pso of hsrx
- (OFFSET, MASK, VALUE) (0XFD40D9A4, 0x000000FFU ,0x000000FFU)
- RegMask = (SERDES_L3_TM_RST_DLY_APB_RST_DLY_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_10 1
- RegVal = ((0x000000FFU << SERDES_L3_TM_RST_DLY_APB_RST_DLY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_RST_DLY_OFFSET ,0x000000FFU ,0x000000FFU);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_11 1
- /*Register : L3_TM_ANA_BYP_15 @ 0XFD40D038</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_12 1
- Enable Bypass for <7> of TM_ANA_BYPS_15
- PSU_SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_13 1
- Bypass control for pcs-pma interface. EQ supplies, main master supply and ps for samp c2c
- (OFFSET, MASK, VALUE) (0XFD40D038, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_14 1
- RegVal = ((0x00000001U << SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_ANA_BYP_15_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_15 1
- /*Register : L3_TM_ANA_BYP_12 @ 0XFD40D02C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_16 1
- Enable Bypass for <7> of TM_ANA_BYPS_12
- PSU_SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_17 1
- Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr enable controls
- (OFFSET, MASK, VALUE) (0XFD40D02C, 0x00000040U ,0x00000040U)
- RegMask = (SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_18 1
- RegVal = ((0x00000001U << SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_ANA_BYP_12_OFFSET ,0x00000040U ,0x00000040U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_19 1
- // : GT LANE SETTINGS
- /*Register : ICM_CFG0 @ 0XFD410010</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_20 1
- Controls UPHY Lane 0 protocol configuration. 0 - PowerDown, 1 - PCIe .0, 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII0, 6 - Unuse
- , 7 - Unused
- PSU_SERDES_ICM_CFG0_L0_ICM_CFG 1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_21 1
- Controls UPHY Lane 1 protocol configuration. 0 - PowerDown, 1 - PCIe.1, 2 - Sata1, 3 - USB0, 4 - DP.0, 5 - SGMII1, 6 - Unused
- 7 - Unused
- PSU_SERDES_ICM_CFG0_L1_ICM_CFG 4
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_22 1
- ICM Configuration Register 0
- (OFFSET, MASK, VALUE) (0XFD410010, 0x00000077U ,0x00000041U)
- RegMask = (SERDES_ICM_CFG0_L0_ICM_CFG_MASK | SERDES_ICM_CFG0_L1_ICM_CFG_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_23 1
- RegVal = ((0x00000001U << SERDES_ICM_CFG0_L0_ICM_CFG_SHIFT
- | 0x00000004U << SERDES_ICM_CFG0_L1_ICM_CFG_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_ICM_CFG0_OFFSET ,0x00000077U ,0x00000041U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_24 1
- /*Register : ICM_CFG1 @ 0XFD410014</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL1_DRIVE1_BIT_25 1
- Controls UPHY Lane 2 protocol configuration. 0 - PowerDown, 1 - PCIe.1, 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII2, 6 - Unused
- 7 - Unused
- PSU_SERDES_ICM_CFG1_L2_ICM_CFG 3
+ * Drive1 control to MIO Bank 2 - control MIO[77:52]
+ * (OFFSET, MASK, VALUE) (0XFF180174, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK2_CTRL1_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- Controls UPHY Lane 3 protocol configuration. 0 - PowerDown, 1 - PCIe.3, 2 - Sata1, 3 - USB1, 4 - DP.0, 5 - SGMII3, 6 - Unused
- 7 - Unused
- PSU_SERDES_ICM_CFG1_L3_ICM_CFG 2
+ /*
+ * Register : bank2_ctrl3 @ 0XFF180178
- ICM Configuration Register 1
- (OFFSET, MASK, VALUE) (0XFD410014, 0x00000077U ,0x00000023U)
- RegMask = (SERDES_ICM_CFG1_L2_ICM_CFG_MASK | SERDES_ICM_CFG1_L3_ICM_CFG_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_0 0
- RegVal = ((0x00000003U << SERDES_ICM_CFG1_L2_ICM_CFG_SHIFT
- | 0x00000002U << SERDES_ICM_CFG1_L3_ICM_CFG_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_ICM_CFG1_OFFSET ,0x00000077U ,0x00000023U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_1 0
- // : CHECKING PLL LOCK
- // : ENABLE SERIAL DATA MUX DEEMPH
- /*Register : L1_TXPMD_TM_45 @ 0XFD404CB4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_2 0
- Enable/disable DP post2 path
- PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_3 0
- Override enable/disable of DP post2 path
- PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_4 0
- Override enable/disable of DP post1 path
- PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_5 0
- Enable/disable DP main path
- PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_6 0
- Override enable/disable of DP main path
- PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_7 0
- Post or pre or main DP path selection
- (OFFSET, MASK, VALUE) (0XFD404CB4, 0x00000037U ,0x00000037U)
- RegMask = (SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_MASK | SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_8 0
- RegVal = ((0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH_SHIFT
- | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH_SHIFT
- | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH_SHIFT
- | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH_SHIFT
- | 0x00000001U << SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TXPMD_TM_45_OFFSET ,0x00000037U ,0x00000037U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_9 0
- /*Register : L1_TX_ANA_TM_118 @ 0XFD4041D8</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_10 0
- Test register force for enabling/disablign TX deemphasis bits <17:0>
- PSU_SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_11 0
- Enable Override of TX deemphasis
- (OFFSET, MASK, VALUE) (0XFD4041D8, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_12 0
- RegVal = ((0x00000001U << SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TX_ANA_TM_118_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_13 0
- /*Register : L3_TX_ANA_TM_118 @ 0XFD40C1D8</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_14 0
- Test register force for enabling/disablign TX deemphasis bits <17:0>
- PSU_SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_15 0
- Enable Override of TX deemphasis
- (OFFSET, MASK, VALUE) (0XFD40C1D8, 0x00000001U ,0x00000001U)
- RegMask = (SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_16 0
- RegVal = ((0x00000001U << SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TX_ANA_TM_118_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_17 0
- // : CDR AND RX EQUALIZATION SETTINGS
- /*Register : L3_TM_CDR5 @ 0XFD40DC14</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_18 0
- FPHL FSM accumulate cycles
- PSU_SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES 0x7
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_19 0
- FFL Phase0 int gain aka 2ol SD update rate
- PSU_SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN 0x6
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_20 0
- Fast phase lock controls -- FSM accumulator cycle control and phase 0 int gain control.
- (OFFSET, MASK, VALUE) (0XFD40DC14, 0x000000FFU ,0x000000E6U)
- RegMask = (SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_MASK | SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_21 0
- RegVal = ((0x00000007U << SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES_SHIFT
- | 0x00000006U << SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_CDR5_OFFSET ,0x000000FFU ,0x000000E6U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_22 0
- /*Register : L3_TM_CDR16 @ 0XFD40DC40</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_23 0
- FFL Phase0 prop gain aka 1ol SD update rate
- PSU_SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN 0xC
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_24 0
- Fast phase lock controls -- phase 0 prop gain
- (OFFSET, MASK, VALUE) (0XFD40DC40, 0x0000001FU ,0x0000000CU)
- RegMask = (SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL3_SCHMITT_CMOS_N_BIT_25 0
- RegVal = ((0x0000000CU << SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_CDR16_OFFSET ,0x0000001FU ,0x0000000CU);
- /*############################################################################################################################ */
+ * Selects either Schmitt or CMOS input for MIO Bank 2 - control MIO[77:52]
+ * (OFFSET, MASK, VALUE) (0XFF180178, 0x03FFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK2_CTRL3_OFFSET,
+ 0x03FFFFFFU, 0x00000000U);
+/*##################################################################### */
- /*Register : L3_TM_EQ0 @ 0XFD40D94C</p>
+ /*
+ * Register : bank2_ctrl4 @ 0XFF18017C
- EQ stg 2 controls BYPASSED
- PSU_SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP 1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_0 1
- eq stg1 and stg2 controls
- (OFFSET, MASK, VALUE) (0XFD40D94C, 0x00000020U ,0x00000020U)
- RegMask = (SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_1 1
- RegVal = ((0x00000001U << SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_EQ0_OFFSET ,0x00000020U ,0x00000020U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_2 1
- /*Register : L3_TM_EQ1 @ 0XFD40D950</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_3 1
- EQ STG2 RL PROG
- PSU_SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG 0x2
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_4 1
- EQ stg 2 preamp mode val
- PSU_SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_5 1
- eq stg1 and stg2 controls
- (OFFSET, MASK, VALUE) (0XFD40D950, 0x00000007U ,0x00000006U)
- RegMask = (SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_MASK | SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_6 1
- RegVal = ((0x00000002U << SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG_SHIFT
- | 0x00000001U << SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TM_EQ1_OFFSET ,0x00000007U ,0x00000006U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_7 1
- // : GEM SERDES SETTINGS
- // : ENABLE PRE EMPHAIS AND VOLTAGE SWING
- /*Register : L1_TXPMD_TM_48 @ 0XFD404CC0</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_8 1
- Margining factor value
- PSU_SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR 0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_9 1
- Margining factor
- (OFFSET, MASK, VALUE) (0XFD404CC0, 0x0000001FU ,0x00000000U)
- RegMask = (SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_10 1
- RegVal = ((0x00000000U << SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TXPMD_TM_48_OFFSET ,0x0000001FU ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_11 1
- /*Register : L1_TX_ANA_TM_18 @ 0XFD404048</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_12 1
- pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved
- PSU_SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_13 1
- Override for PIPE TX de-emphasis
- (OFFSET, MASK, VALUE) (0XFD404048, 0x000000FFU ,0x00000000U)
- RegMask = (SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_14 1
- RegVal = ((0x00000000U << SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L1_TX_ANA_TM_18_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_15 1
- /*Register : L3_TX_ANA_TM_18 @ 0XFD40C048</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_16 1
- pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-emphasis, Others: reserved
- PSU_SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_17 1
- Override for PIPE TX de-emphasis
- (OFFSET, MASK, VALUE) (0XFD40C048, 0x000000FFU ,0x00000001U)
- RegMask = (SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_18 1
- RegVal = ((0x00000001U << SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SERDES_L3_TX_ANA_TM_18_OFFSET ,0x000000FFU ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_19 1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_20 1
- return 1;
-}
-unsigned long psu_resetout_init_data() {
- // : TAKING SERDES PERIPHERAL OUT OF RESET RESET
- // : PUTTING USB0 IN RESET
- /*Register : RST_LPD_TOP @ 0XFF5E023C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_21 1
- USB 0 reset for control registers
- PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0X0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_22 1
- Software control register for the LPD block.
- (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000400U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_23 1
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000400U ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_24 1
- // : USB0 PIPE POWER PRESENT
- /*Register : fpd_power_prsnt @ 0XFF9D0080</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL4_PULL_HIGH_LOW_N_BIT_25 1
- This bit is used to choose between PIPE power present and 1'b1
- PSU_USB3_0_FPD_POWER_PRSNT_OPTION 0X1
+ * When mio_bank2_pull_enable is set, this selects pull up or pull down for
+ * MIO Bank 2 - control MIO[77:52]
+ * (OFFSET, MASK, VALUE) (0XFF18017C, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK2_CTRL4_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- fpd_power_prsnt
- (OFFSET, MASK, VALUE) (0XFF9D0080, 0x00000001U ,0x00000001U)
- RegMask = (USB3_0_FPD_POWER_PRSNT_OPTION_MASK | 0 );
+ /*
+ * Register : bank2_ctrl5 @ 0XFF180180
- RegVal = ((0x00000001U << USB3_0_FPD_POWER_PRSNT_OPTION_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (USB3_0_FPD_POWER_PRSNT_OFFSET ,0x00000001U ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_0 1
- /*Register : fpd_pipe_clk @ 0XFF9D007C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_1 1
- This bit is used to choose between PIPE clock coming from SerDes and the suspend clk
- PSU_USB3_0_FPD_PIPE_CLK_OPTION 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_2 1
- fpd_pipe_clk
- (OFFSET, MASK, VALUE) (0XFF9D007C, 0x00000001U ,0x00000000U)
- RegMask = (USB3_0_FPD_PIPE_CLK_OPTION_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_3 1
- RegVal = ((0x00000000U << USB3_0_FPD_PIPE_CLK_OPTION_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (USB3_0_FPD_PIPE_CLK_OFFSET ,0x00000001U ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_4 1
- // :
- /*Register : RST_LPD_TOP @ 0XFF5E023C</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_5 1
- USB 0 sleep circuit reset
- PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0X0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_6 1
- USB 0 reset
- PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0X0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_7 1
- Software control register for the LPD block.
- (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000140U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK | CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_8 1
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT
- | 0x00000000U << CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000140U ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_9 1
- // : PUTTING GEM0 IN RESET
- /*Register : RST_LPD_IOU0 @ 0XFF5E0230</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_10 1
- GEM 3 reset
- PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0X0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_11 1
- Software controlled reset for the GEMs
- (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000000U)
- RegMask = (CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_12 1
- RegVal = ((0x00000000U << CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU0_OFFSET ,0x00000008U ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_13 1
- // : PUTTING SATA IN RESET
- /*Register : sata_misc_ctrl @ 0XFD3D0100</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_14 1
- Sata PM clock control select
- PSU_SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL 0x3
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_15 1
- Misc Contorls for SATA.This register may only be modified during bootup (while SATA block is disabled)
- (OFFSET, MASK, VALUE) (0XFD3D0100, 0x00000003U ,0x00000003U)
- RegMask = (SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_16 1
- RegVal = ((0x00000003U << SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SIOU_SATA_MISC_CTRL_OFFSET ,0x00000003U ,0x00000003U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_17 1
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_18 1
- Sata block level reset
- PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0X0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_19 1
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00000002U ,0x00000000U)
- RegMask = (CRF_APB_RST_FPD_TOP_SATA_RESET_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_20 1
- RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00000002U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : PUTTING PCIE CFG AND BRIDGE IN RESET
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
-
- PCIE config reset
- PSU_CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET 0X0
-
- PCIE bridge block level reset (AXI interface)
- PSU_CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET 0X0
-
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x000C0000U ,0x00000000U)
- RegMask = (CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET_MASK | CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET_SHIFT
- | 0x00000000U << CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x000C0000U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : PUTTING DP IN RESET
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
-
- Display Port block level reset (includes DPDMA)
- PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0X0
-
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00010000U ,0x00000000U)
- RegMask = (CRF_APB_RST_FPD_TOP_DP_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00010000U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : DP_PHY_RESET @ 0XFD4A0200</p>
-
- Set to '1' to hold the GT in reset. Clear to release.
- PSU_DP_DP_PHY_RESET_GT_RESET 0X0
-
- Reset the transmitter PHY.
- (OFFSET, MASK, VALUE) (0XFD4A0200, 0x00000002U ,0x00000000U)
- RegMask = (DP_DP_PHY_RESET_GT_RESET_MASK | 0 );
-
- RegVal = ((0x00000000U << DP_DP_PHY_RESET_GT_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DP_DP_PHY_RESET_OFFSET ,0x00000002U ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : DP_TX_PHY_POWER_DOWN @ 0XFD4A0238</p>
-
- Two bits per lane. When set to 11, moves the GT to power down mode. When set to 00, GT will be in active state. bits [1:0] -
- ane0 Bits [3:2] - lane 1
- PSU_DP_DP_TX_PHY_POWER_DOWN_POWER_DWN 0X0
-
- Control PHY Power down
- (OFFSET, MASK, VALUE) (0XFD4A0238, 0x0000000FU ,0x00000000U)
- RegMask = (DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK | 0 );
-
- RegVal = ((0x00000000U << DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DP_DP_TX_PHY_POWER_DOWN_OFFSET ,0x0000000FU ,0x00000000U);
- /*############################################################################################################################ */
-
- // : USB0 GFLADJ
- /*Register : GUSB2PHYCFG @ 0XFE20C200</p>
-
- USB 2.0 Turnaround Time (USBTrdTim) Sets the turnaround time in PHY clocks. Specifies the response time for a MAC request to
- he Packet FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM). The following are the required values for the minimum S
- C bus frequency of 60 MHz. USB turnaround time is a critical certification criteria when using long cables and five hub level
- . The required values for this field: - 4'h5: When the MAC interface is 16-bit UTMI+. - 4'h9: When the MAC interface is 8-bit
- UTMI+/ULPI. If SoC bus clock is less than 60 MHz, and USB turnaround time is not critical, this field can be set to a larger
- alue. Note: This field is valid only in device mode.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM 0x9
-
- Transceiver Delay: Enables a delay between the assertion of the UTMI/ULPI Transceiver Select signal (for HS) and the assertio
- of the TxValid signal during a HS Chirp. When this bit is set to 1, a delay (of approximately 2.5 us) is introduced from the
- time when the Transceiver Select is set to 2'b00 (HS) to the time the TxValid is driven to 0 for sending the chirp-K. This de
- ay is required for some UTMI/ULPI PHYs. Note: - If you enable the hibernation feature when the device core comes out of power
- off, you must re-initialize this bit with the appropriate value because the core does not save and restore this bit value dur
- ng hibernation. - This bit is valid only in device mode.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY 0x0
-
- Enable utmi_sleep_n and utmi_l1_suspend_n (EnblSlpM) The application uses this bit to control utmi_sleep_n and utmi_l1_suspen
- _n assertion to the PHY in the L1 state. - 1'b0: utmi_sleep_n and utmi_l1_suspend_n assertion from the core is not transferre
- to the external PHY. - 1'b1: utmi_sleep_n and utmi_l1_suspend_n assertion from the core is transferred to the external PHY.
- ote: This bit must be set high for Port0 if PHY is used. Note: In Device mode - Before issuing any device endpoint command wh
- n operating in 2.0 speeds, disable this bit and enable it after the command completes. Without disabling this bit, if a comma
- d is issued when the device is in L1 state and if mac2_clk (utmi_clk/ulpi_clk) is gated off, the command will not get complet
- d.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM 0x0
-
- USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial Transceiver Select The application uses this bit to select a high-speed P
- Y or a full-speed transceiver. - 1'b0: USB 2.0 high-speed UTMI+ or ULPI PHY. This bit is always 0, with Write Only access. -
- 'b1: USB 1.1 full-speed serial transceiver. This bit is always 1, with Write Only access. If both interface types are selecte
- in coreConsultant (that is, parameters' values are not zero), the application uses this bit to select the active interface i
- active, with Read-Write bit access. Note: USB 1.1 full-serial transceiver is not supported. This bit always reads as 1'b0.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_PHYSEL 0x0
-
- Full-Speed Serial Interface Select (FSIntf) The application uses this bit to select a unidirectional or bidirectional USB 1.1
- full-speed serial transceiver interface. - 1'b0: 6-pin unidirectional full-speed serial interface. This bit is set to 0 with
- ead Only access. - 1'b1: 3-pin bidirectional full-speed serial interface. This bit is set to 0 with Read Only access. Note: U
- B 1.1 full-speed serial interface is not supported. This bit always reads as 1'b0.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_FSINTF 0x0
-
- ULPI or UTMI+ Select (ULPI_UTMI_Sel) The application uses this bit to select a UTMI+ or ULPI Interface. - 1'b0: UTMI+ Interfa
- e - 1'b1: ULPI Interface This bit is writable only if UTMI+ and ULPI is specified for High-Speed PHY Interface(s) in coreCons
- ltant configuration (DWC_USB3_HSPHY_INTERFACE = 3). Otherwise, this bit is read-only and the value depends on the interface s
- lected through DWC_USB3_HSPHY_INTERFACE.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL 0x1
-
- PHY Interface (PHYIf) If UTMI+ is selected, the application uses this bit to configure the core to support a UTMI+ PHY with a
- 8- or 16-bit interface. - 1'b0: 8 bits - 1'b1: 16 bits ULPI Mode: 1'b0 Note: - All the enabled 2.0 ports must have the same
- lock frequency as Port0 clock frequency (utmi_clk[0]). - The UTMI 8-bit and 16-bit modes cannot be used together for differen
- ports at the same time (that is, all the ports must be in 8-bit mode, or all of them must be in 16-bit mode, at a time). - I
- any of the USB 2.0 ports is selected as ULPI port for operation, then all the USB 2.0 ports must be operating at 60 MHz.
- PSU_USB3_0_XHCI_GUSB2PHYCFG_PHYIF 0x0
-
- HS/FS Timeout Calibration (TOutCal) The number of PHY clocks, as indicated by the application in this field, is multiplied by
- a bit-time factor; this factor is added to the high-speed/full-speed interpacket timeout duration in the core to account for
- dditional delays introduced by the PHY. This may be required, since the delay introduced by the PHY in generating the linesta
- e condition may vary among PHYs. The USB standard timeout value for high-speed operation is 736 to 816 (inclusive) bit times.
- The USB standard timeout value for full-speed operation is 16 to 18 (inclusive) bit times. The application must program this
- ield based on the speed of connection. The number of bit times added per PHY clock are: High-speed operation: - One 30-MHz PH
- clock = 16 bit times - One 60-MHz PHY clock = 8 bit times Full-speed operation: - One 30-MHz PHY clock = 0.4 bit times - One
- 60-MHz PHY clock = 0.2 bit times - One 48-MHz PHY clock = 0.25 bit times
- PSU_USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL 0x7
-
- Global USB2 PHY Configuration Register The application must program this register before starting any transactions on either
- he SoC bus or the USB. In Device-only configurations, only one register is needed. In Host mode, per-port registers are imple
- ented.
- (OFFSET, MASK, VALUE) (0XFE20C200, 0x00003FBFU ,0x00002417U)
- RegMask = (USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_MASK | USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_MASK | USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_MASK | USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_MASK | USB3_0_XHCI_GUSB2PHYCFG_FSINTF_MASK | USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_MASK | USB3_0_XHCI_GUSB2PHYCFG_PHYIF_MASK | USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_MASK | 0 );
-
- RegVal = ((0x00000009U << USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM_SHIFT
- | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY_SHIFT
- | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM_SHIFT
- | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_PHYSEL_SHIFT
- | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_FSINTF_SHIFT
- | 0x00000001U << USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL_SHIFT
- | 0x00000000U << USB3_0_XHCI_GUSB2PHYCFG_PHYIF_SHIFT
- | 0x00000007U << USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (USB3_0_XHCI_GUSB2PHYCFG_OFFSET ,0x00003FBFU ,0x00002417U);
- /*############################################################################################################################ */
-
- /*Register : GFLADJ @ 0XFE20C630</p>
-
- This field indicates the frame length adjustment to be applied when SOF/ITP counter is running on the ref_clk. This register
- alue is used to adjust the ITP interval when GCTL[SOFITPSYNC] is set to '1'; SOF and ITP interval when GLADJ.GFLADJ_REFCLK_LP
- _SEL is set to '1'. This field must be programmed to a non-zero value only if GFLADJ_REFCLK_LPM_SEL is set to '1' or GCTL.SOF
- TPSYNC is set to '1'. The value is derived as follows: FLADJ_REF_CLK_FLADJ=((125000/ref_clk_period_integer)-(125000/ref_clk_p
- riod)) * ref_clk_period where - the ref_clk_period_integer is the integer value of the ref_clk period got by truncating the d
- cimal (fractional) value that is programmed in the GUCTL.REF_CLK_PERIOD field. - the ref_clk_period is the ref_clk period inc
- uding the fractional value. Examples: If the ref_clk is 24 MHz then - GUCTL.REF_CLK_PERIOD = 41 - GFLADJ.GLADJ_REFCLK_FLADJ =
- ((125000/41)-(125000/41.6666))*41.6666 = 2032 (ignoring the fractional value) If the ref_clk is 48 MHz then - GUCTL.REF_CLK_P
- RIOD = 20 - GFLADJ.GLADJ_REFCLK_FLADJ = ((125000/20)-(125000/20.8333))*20.8333 = 5208 (ignoring the fractional value)
- PSU_USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ 0x0
-
- Global Frame Length Adjustment Register This register provides options for the software to control the core behavior with res
- ect to SOF (Start of Frame) and ITP (Isochronous Timestamp Packet) timers and frame timer functionality. It provides an optio
- to override the fladj_30mhz_reg sideband signal. In addition, it enables running SOF or ITP frame timer counters completely
- rom the ref_clk. This facilitates hardware LPM in host mode with the SOF or ITP counters being run from the ref_clk signal.
- (OFFSET, MASK, VALUE) (0XFE20C630, 0x003FFF00U ,0x00000000U)
- RegMask = (USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_MASK | 0 );
-
- RegVal = ((0x00000000U << USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (USB3_0_XHCI_GFLADJ_OFFSET ,0x003FFF00U ,0x00000000U);
- /*############################################################################################################################ */
-
- // : UPDATING TWO PCIE REGISTERS DEFAULT VALUES, AS THESE REGISTERS HAVE INCORRECT RESET VALUES IN SILICON.
- /*Register : ATTR_25 @ 0XFD480064</p>
-
- If TRUE Completion Timeout Disable is supported. This is required to be TRUE for Endpoint and either setting allowed for Root
- ports. Drives Device Capability 2 [4]; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED 0X1
-
- ATTR_25
- (OFFSET, MASK, VALUE) (0XFD480064, 0x00000200U ,0x00000200U)
- RegMask = (PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_MASK | 0 );
-
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_25_OFFSET ,0x00000200U ,0x00000200U);
- /*############################################################################################################################ */
-
- // : PCIE SETTINGS
- /*Register : ATTR_7 @ 0XFD48001C</p>
-
- Specifies mask/settings for Base Address Register (BAR) 0. If BAR is not to be implemented, set to 32'h00000000. Bits are def
- ned as follows: Memory Space BAR [0] = Mem Space Indicator (set to 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit) [3] =
- Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory a
- erture size in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR1,BAR0\'7d to 1. IO Space BAR 0] = IO Space Indicator
- set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set uppermost 31:n bits to 1, where 2^n=i/o apert
- re size in bytes.; EP=0x0004; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_7_ATTR_BAR0 0x0
-
- ATTR_7
- (OFFSET, MASK, VALUE) (0XFD48001C, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_7_ATTR_BAR0_MASK | 0 );
-
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_7_ATTR_BAR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_7_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_8 @ 0XFD480020</p>
-
- Specifies mask/settings for Base Address Register (BAR) 0. If BAR is not to be implemented, set to 32'h00000000. Bits are def
- ned as follows: Memory Space BAR [0] = Mem Space Indicator (set to 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit) [3] =
- Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory a
- erture size in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR1,BAR0\'7d to 1. IO Space BAR 0] = IO Space Indicator
- set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set uppermost 31:n bits to 1, where 2^n=i/o apert
- re size in bytes.; EP=0xFFF0; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_8_ATTR_BAR0 0x0
-
- ATTR_8
- (OFFSET, MASK, VALUE) (0XFD480020, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_8_ATTR_BAR0_MASK | 0 );
-
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_8_ATTR_BAR0_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_8_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_9 @ 0XFD480024</p>
-
- Specifies mask/settings for Base Address Register (BAR) 1 if BAR0 is a 32-bit BAR, or the upper bits of \'7bBAR1,BAR0\'7d if
- AR0 is a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR0 description if this functions as the uppe
- bits of a 64-bit BAR. Bits are defined as follows: Memory Space BAR (not upper bits of BAR0) [0] = Mem Space Indicator (set
- o 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if
- 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits of
- '7bBAR2,BAR1\'7d to 1. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable b
- ts of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_9_ATTR_BAR1 0x0
-
- ATTR_9
- (OFFSET, MASK, VALUE) (0XFD480024, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_9_ATTR_BAR1_MASK | 0 );
-
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_9_ATTR_BAR1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_9_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_10 @ 0XFD480028</p>
-
- Specifies mask/settings for Base Address Register (BAR) 1 if BAR0 is a 32-bit BAR, or the upper bits of \'7bBAR1,BAR0\'7d if
- AR0 is a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR0 description if this functions as the uppe
- bits of a 64-bit BAR. Bits are defined as follows: Memory Space BAR (not upper bits of BAR0) [0] = Mem Space Indicator (set
- o 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if
- 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits of
- '7bBAR2,BAR1\'7d to 1. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable b
- ts of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_10_ATTR_BAR1 0x0
-
- ATTR_10
- (OFFSET, MASK, VALUE) (0XFD480028, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_10_ATTR_BAR1_MASK | 0 );
-
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_10_ATTR_BAR1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_10_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_11 @ 0XFD48002C</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 2 if BAR1 is a 32-bit BAR, or the upper bits of \'7b
- AR2,BAR1\'7d if BAR1 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR1 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root: This must be set to 00FF_FFFF. For an endpoin
- , bits are defined as follows: Memory Space BAR (not upper bits of BAR1) [0] = Mem Space Indicator (set to 0) [2:1] = Type fi
- ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if 32-bit BAR, set uppe
- most 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR3,BAR2\'7d to
- . IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set upper
- ost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0x0004; RP=0xFFFF
- PSU_PCIE_ATTRIB_ATTR_11_ATTR_BAR2 0xFFFF
-
- ATTR_11
- (OFFSET, MASK, VALUE) (0XFD48002C, 0x0000FFFFU ,0x0000FFFFU)
- RegMask = (PCIE_ATTRIB_ATTR_11_ATTR_BAR2_MASK | 0 );
-
- RegVal = ((0x0000FFFFU << PCIE_ATTRIB_ATTR_11_ATTR_BAR2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_11_OFFSET ,0x0000FFFFU ,0x0000FFFFU);
- /*############################################################################################################################ */
-
- /*Register : ATTR_12 @ 0XFD480030</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 2 if BAR1 is a 32-bit BAR, or the upper bits of \'7b
- AR2,BAR1\'7d if BAR1 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR1 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root: This must be set to 00FF_FFFF. For an endpoin
- , bits are defined as follows: Memory Space BAR (not upper bits of BAR1) [0] = Mem Space Indicator (set to 0) [2:1] = Type fi
- ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if 32-bit BAR, set uppe
- most 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR3,BAR2\'7d to
- . IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set upper
- ost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFF0; RP=0x00FF
- PSU_PCIE_ATTRIB_ATTR_12_ATTR_BAR2 0xFF
-
- ATTR_12
- (OFFSET, MASK, VALUE) (0XFD480030, 0x0000FFFFU ,0x000000FFU)
- RegMask = (PCIE_ATTRIB_ATTR_12_ATTR_BAR2_MASK | 0 );
-
- RegVal = ((0x000000FFU << PCIE_ATTRIB_ATTR_12_ATTR_BAR2_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_12_OFFSET ,0x0000FFFFU ,0x000000FFU);
- /*############################################################################################################################ */
-
- /*Register : ATTR_13 @ 0XFD480034</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 3 if BAR2 is a 32-bit BAR, or the upper bits of \'7b
- AR3,BAR2\'7d if BAR2 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR2 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root, this must be set to: FFFF_0000 = IO Limit/Bas
- Registers not implemented FFFF_F0F0 = IO Limit/Base Registers use 16-bit decode FFFF_F1F1 = IO Limit/Base Registers use 32-b
- t decode For an endpoint, bits are defined as follows: Memory Space BAR (not upper bits of BAR2) [0] = Mem Space Indicator (s
- t to 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR;
- if 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits
- f \'7bBAR4,BAR3\'7d to 1. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writabl
- bits of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_13_ATTR_BAR3 0x0
-
- ATTR_13
- (OFFSET, MASK, VALUE) (0XFD480034, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_13_ATTR_BAR3_MASK | 0 );
-
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_13_ATTR_BAR3_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_13_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_14 @ 0XFD480038</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 3 if BAR2 is a 32-bit BAR, or the upper bits of \'7b
- AR3,BAR2\'7d if BAR2 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR2 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root, this must be set to: FFFF_0000 = IO Limit/Bas
- Registers not implemented FFFF_F0F0 = IO Limit/Base Registers use 16-bit decode FFFF_F1F1 = IO Limit/Base Registers use 32-b
- t decode For an endpoint, bits are defined as follows: Memory Space BAR (not upper bits of BAR2) [0] = Mem Space Indicator (s
- t to 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR;
- if 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits
- f \'7bBAR4,BAR3\'7d to 1. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writabl
- bits of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0xFFFF
- PSU_PCIE_ATTRIB_ATTR_14_ATTR_BAR3 0xFFFF
-
- ATTR_14
- (OFFSET, MASK, VALUE) (0XFD480038, 0x0000FFFFU ,0x0000FFFFU)
- RegMask = (PCIE_ATTRIB_ATTR_14_ATTR_BAR3_MASK | 0 );
-
- RegVal = ((0x0000FFFFU << PCIE_ATTRIB_ATTR_14_ATTR_BAR3_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_14_OFFSET ,0x0000FFFFU ,0x0000FFFFU);
- /*############################################################################################################################ */
-
- /*Register : ATTR_15 @ 0XFD48003C</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 4 if BAR3 is a 32-bit BAR, or the upper bits of \'7b
- AR4,BAR3\'7d if BAR3 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR3 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root: This must be set to FFF0_FFF0. For an endpoin
- , bits are defined as follows: Memory Space BAR (not upper bits of BAR3) [0] = Mem Space Indicator (set to 0) [2:1] = Type fi
- ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if 32-bit BAR, set uppe
- most 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR5,BAR4\'7d to
- . IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set upper
- ost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0x0004; RP=0xFFF0
- PSU_PCIE_ATTRIB_ATTR_15_ATTR_BAR4 0xFFF0
-
- ATTR_15
- (OFFSET, MASK, VALUE) (0XFD48003C, 0x0000FFFFU ,0x0000FFF0U)
- RegMask = (PCIE_ATTRIB_ATTR_15_ATTR_BAR4_MASK | 0 );
-
- RegVal = ((0x0000FFF0U << PCIE_ATTRIB_ATTR_15_ATTR_BAR4_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_15_OFFSET ,0x0000FFFFU ,0x0000FFF0U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_16 @ 0XFD480040</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 4 if BAR3 is a 32-bit BAR, or the upper bits of \'7b
- AR4,BAR3\'7d if BAR3 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR3 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root: This must be set to FFF0_FFF0. For an endpoin
- , bits are defined as follows: Memory Space BAR (not upper bits of BAR3) [0] = Mem Space Indicator (set to 0) [2:1] = Type fi
- ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if 32-bit BAR, set uppe
- most 31:n bits to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR5,BAR4\'7d to
- . IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set upper
- ost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFF0; RP=0xFFF0
- PSU_PCIE_ATTRIB_ATTR_16_ATTR_BAR4 0xFFF0
-
- ATTR_16
- (OFFSET, MASK, VALUE) (0XFD480040, 0x0000FFFFU ,0x0000FFF0U)
- RegMask = (PCIE_ATTRIB_ATTR_16_ATTR_BAR4_MASK | 0 );
-
- RegVal = ((0x0000FFF0U << PCIE_ATTRIB_ATTR_16_ATTR_BAR4_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_16_OFFSET ,0x0000FFFFU ,0x0000FFF0U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_17 @ 0XFD480044</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 5 if BAR4 is a 32-bit BAR, or the upper bits of \'7b
- AR5,BAR4\'7d if BAR4 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR4 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root, this must be set to: 0000_0000 = Prefetchable
- Memory Limit/Base Registers not implemented FFF0_FFF0 = 32-bit Prefetchable Memory Limit/Base implemented FFF1_FFF1 = 64-bit
- refetchable Memory Limit/Base implemented For an endpoint, bits are defined as follows: Memory Space BAR (not upper bits of B
- R4) [0] = Mem Space Indicator (set to 0) [2:1] = Type field (00 for 32-bit; BAR5 cannot be lower part of a 64-bit BAR) [3] =
- refetchable (0 or 1) [31:4] = Mask for writable bits of BAR; set uppermost 31:n bits to 1, where 2^n=memory aperture size in
- ytes. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set u
- permost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0xFFF1
- PSU_PCIE_ATTRIB_ATTR_17_ATTR_BAR5 0xFFF1
-
- ATTR_17
- (OFFSET, MASK, VALUE) (0XFD480044, 0x0000FFFFU ,0x0000FFF1U)
- RegMask = (PCIE_ATTRIB_ATTR_17_ATTR_BAR5_MASK | 0 );
-
- RegVal = ((0x0000FFF1U << PCIE_ATTRIB_ATTR_17_ATTR_BAR5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_17_OFFSET ,0x0000FFFFU ,0x0000FFF1U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_18 @ 0XFD480048</p>
-
- For an endpoint, specifies mask/settings for Base Address Register (BAR) 5 if BAR4 is a 32-bit BAR, or the upper bits of \'7b
- AR5,BAR4\'7d if BAR4 is the lower part of a 64-bit BAR. If BAR is not to be implemented, set to 32'h00000000. See BAR4 descri
- tion if this functions as the upper bits of a 64-bit BAR. For a switch or root, this must be set to: 0000_0000 = Prefetchable
- Memory Limit/Base Registers not implemented FFF0_FFF0 = 32-bit Prefetchable Memory Limit/Base implemented FFF1_FFF1 = 64-bit
- refetchable Memory Limit/Base implemented For an endpoint, bits are defined as follows: Memory Space BAR (not upper bits of B
- R4) [0] = Mem Space Indicator (set to 0) [2:1] = Type field (00 for 32-bit; BAR5 cannot be lower part of a 64-bit BAR) [3] =
- refetchable (0 or 1) [31:4] = Mask for writable bits of BAR; set uppermost 31:n bits to 1, where 2^n=memory aperture size in
- ytes. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set u
- permost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0xFFF1
- PSU_PCIE_ATTRIB_ATTR_18_ATTR_BAR5 0xFFF1
-
- ATTR_18
- (OFFSET, MASK, VALUE) (0XFD480048, 0x0000FFFFU ,0x0000FFF1U)
- RegMask = (PCIE_ATTRIB_ATTR_18_ATTR_BAR5_MASK | 0 );
-
- RegVal = ((0x0000FFF1U << PCIE_ATTRIB_ATTR_18_ATTR_BAR5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_18_OFFSET ,0x0000FFFFU ,0x0000FFF1U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_27 @ 0XFD48006C</p>
-
- Specifies maximum payload supported. Valid settings are: 0- 128 bytes, 1- 256 bytes, 2- 512 bytes, 3- 1024 bytes. Transferred
- to the Device Capabilities register. The values: 4-2048 bytes, 5- 4096 bytes are not supported; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_MAX_PAYLOAD_SUPPORTED 1
-
- Endpoint L1 Acceptable Latency. Records the latency that the endpoint can withstand on transitions from L1 state to L0 (if L1
- state supported). Valid settings are: 0h less than 1us, 1h 1 to 2us, 2h 2 to 4us, 3h 4 to 8us, 4h 8 to 16us, 5h 16 to 32us, 6
- 32 to 64us, 7h more than 64us. For Endpoints only. Must be 0h for other devices.; EP=0x0007; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_ENDPOINT_L1_LATENCY 0x0
-
- ATTR_27
- (OFFSET, MASK, VALUE) (0XFD48006C, 0x00000738U ,0x00000100U)
- RegMask = (PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_MAX_PAYLOAD_SUPPORTED_MASK | PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_ENDPOINT_L1_LATENCY_MASK | 0 );
-
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_MAX_PAYLOAD_SUPPORTED_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_ENDPOINT_L1_LATENCY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_27_OFFSET ,0x00000738U ,0x00000100U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_50 @ 0XFD4800C8</p>
-
- Identifies the type of device/port as follows: 0000b PCI Express Endpoint device, 0001b Legacy PCI Express Endpoint device, 0
- 00b Root Port of PCI Express Root Complex, 0101b Upstream Port of PCI Express Switch, 0110b Downstream Port of PCI Express Sw
- tch, 0111b PCIE Express to PCI/PCI-X Bridge, 1000b PCI/PCI-X to PCI Express Bridge. Transferred to PCI Express Capabilities r
- gister. Must be consistent with IS_SWITCH and UPSTREAM_FACING settings.; EP=0x0000; RP=0x0004
- PSU_PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_DEVICE_PORT_TYPE 4
-
- PCIe Capability's Next Capability Offset pointer to the next item in the capabilities list, or 00h if this is the final capab
- lity.; EP=0x009C; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_NEXTPTR 0
-
- ATTR_50
- (OFFSET, MASK, VALUE) (0XFD4800C8, 0x0000FFF0U ,0x00000040U)
- RegMask = (PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_DEVICE_PORT_TYPE_MASK | PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_NEXTPTR_MASK | 0 );
-
- RegVal = ((0x00000004U << PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_DEVICE_PORT_TYPE_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_NEXTPTR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_50_OFFSET ,0x0000FFF0U ,0x00000040U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_105 @ 0XFD4801A4</p>
-
- Number of credits that should be advertised for Completion data received on Virtual Channel 0. The bytes advertised must be l
- ss than or equal to the bram bytes available. See VC0_RX_RAM_LIMIT; EP=0x0172; RP=0x00CD
- PSU_PCIE_ATTRIB_ATTR_105_ATTR_VC0_TOTAL_CREDITS_CD 0xCD
-
- ATTR_105
- (OFFSET, MASK, VALUE) (0XFD4801A4, 0x000007FFU ,0x000000CDU)
- RegMask = (PCIE_ATTRIB_ATTR_105_ATTR_VC0_TOTAL_CREDITS_CD_MASK | 0 );
-
- RegVal = ((0x000000CDU << PCIE_ATTRIB_ATTR_105_ATTR_VC0_TOTAL_CREDITS_CD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_105_OFFSET ,0x000007FFU ,0x000000CDU);
- /*############################################################################################################################ */
-
- /*Register : ATTR_106 @ 0XFD4801A8</p>
-
- Number of credits that should be advertised for Completion headers received on Virtual Channel 0. The sum of the posted, non
- osted, and completion header credits must be <= 80; EP=0x0048; RP=0x0024
- PSU_PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_CH 0x24
-
- Number of credits that should be advertised for Non-Posted headers received on Virtual Channel 0. The number of non posted da
- a credits advertised by the block is equal to the number of non posted header credits. The sum of the posted, non posted, and
- completion header credits must be <= 80; EP=0x0004; RP=0x000C
- PSU_PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_NPH 0xC
-
- ATTR_106
- (OFFSET, MASK, VALUE) (0XFD4801A8, 0x00003FFFU ,0x00000624U)
- RegMask = (PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_CH_MASK | PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_NPH_MASK | 0 );
-
- RegVal = ((0x00000024U << PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_CH_SHIFT
- | 0x0000000CU << PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_NPH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_106_OFFSET ,0x00003FFFU ,0x00000624U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_107 @ 0XFD4801AC</p>
-
- Number of credits that should be advertised for Non-Posted data received on Virtual Channel 0. The number of non posted data
- redits advertised by the block is equal to two times the number of non posted header credits if atomic operations are support
- d or is equal to the number of non posted header credits if atomic operations are not supported. The bytes advertised must be
- less than or equal to the bram bytes available. See VC0_RX_RAM_LIMIT; EP=0x0008; RP=0x0018
- PSU_PCIE_ATTRIB_ATTR_107_ATTR_VC0_TOTAL_CREDITS_NPD 0x18
-
- ATTR_107
- (OFFSET, MASK, VALUE) (0XFD4801AC, 0x000007FFU ,0x00000018U)
- RegMask = (PCIE_ATTRIB_ATTR_107_ATTR_VC0_TOTAL_CREDITS_NPD_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_21 1
- RegVal = ((0x00000018U << PCIE_ATTRIB_ATTR_107_ATTR_VC0_TOTAL_CREDITS_NPD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_107_OFFSET ,0x000007FFU ,0x00000018U);
- /*############################################################################################################################ */
-
- /*Register : ATTR_108 @ 0XFD4801B0</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_22 1
- Number of credits that should be advertised for Posted data received on Virtual Channel 0. The bytes advertised must be less
- han or equal to the bram bytes available. See VC0_RX_RAM_LIMIT; EP=0x0020; RP=0x00B5
- PSU_PCIE_ATTRIB_ATTR_108_ATTR_VC0_TOTAL_CREDITS_PD 0xB5
-
- ATTR_108
- (OFFSET, MASK, VALUE) (0XFD4801B0, 0x000007FFU ,0x000000B5U)
- RegMask = (PCIE_ATTRIB_ATTR_108_ATTR_VC0_TOTAL_CREDITS_PD_MASK | 0 );
-
- RegVal = ((0x000000B5U << PCIE_ATTRIB_ATTR_108_ATTR_VC0_TOTAL_CREDITS_PD_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_108_OFFSET ,0x000007FFU ,0x000000B5U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_23 1
- /*Register : ATTR_109 @ 0XFD4801B4</p>
-
- Not currently in use. Invert ECRC generated by block when trn_tecrc_gen_n and trn_terrfwd_n are asserted.; EP=0x0000; RP=0x00
- 0
- PSU_PCIE_ATTRIB_ATTR_109_ATTR_TECRC_EP_INV 0x0
-
- Enables td bit clear and ECRC trim on received TLP's FALSE == don't trim TRUE == trim.; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK_TRIM 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_24 1
- Enables ECRC check on received TLP's 0 == don't check 1 == always check 3 == check if enabled by ECRC check enable bit of AER
- cap structure; EP=0x0003; RP=0x0003
- PSU_PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK 0x3
-
- Index of last packet buffer used by TX TLM (i.e. number of buffers - 1). Calculated from max payload size supported and the n
- mber of brams configured for transmit; EP=0x001C; RP=0x001C
- PSU_PCIE_ATTRIB_ATTR_109_ATTR_VC0_TX_LASTPACKET 0x1c
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL5_PULL_ENABLE_BIT_25 1
- Number of credits that should be advertised for Posted headers received on Virtual Channel 0. The sum of the posted, non post
- d, and completion header credits must be <= 80; EP=0x0004; RP=0x0020
- PSU_PCIE_ATTRIB_ATTR_109_ATTR_VC0_TOTAL_CREDITS_PH 0x20
+ * When set, this enables mio_bank2_pullupdown to selects pull up or pull d
+ * own for MIO Bank 2 - control MIO[77:52]
+ * (OFFSET, MASK, VALUE) (0XFF180180, 0x03FFFFFFU ,0x03FFFFFFU)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK2_CTRL5_OFFSET,
+ 0x03FFFFFFU, 0x03FFFFFFU);
+/*##################################################################### */
- ATTR_109
- (OFFSET, MASK, VALUE) (0XFD4801B4, 0x0000FFFFU ,0x00007E20U)
- RegMask = (PCIE_ATTRIB_ATTR_109_ATTR_TECRC_EP_INV_MASK | PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK_TRIM_MASK | PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK_MASK | PCIE_ATTRIB_ATTR_109_ATTR_VC0_TX_LASTPACKET_MASK | PCIE_ATTRIB_ATTR_109_ATTR_VC0_TOTAL_CREDITS_PH_MASK | 0 );
+ /*
+ * Register : bank2_ctrl6 @ 0XFF180184
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_109_ATTR_TECRC_EP_INV_SHIFT
- | 0x00000001U << PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK_TRIM_SHIFT
- | 0x00000003U << PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK_SHIFT
- | 0x0000001CU << PCIE_ATTRIB_ATTR_109_ATTR_VC0_TX_LASTPACKET_SHIFT
- | 0x00000020U << PCIE_ATTRIB_ATTR_109_ATTR_VC0_TOTAL_CREDITS_PH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_109_OFFSET ,0x0000FFFFU ,0x00007E20U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_0 0
- /*Register : ATTR_34 @ 0XFD480088</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_1 0
- Specifies values to be transferred to Header Type register. Bit 7 should be set to '0' indicating single-function device. Bit
- 0 identifies header as Type 0 or Type 1, with '0' indicating a Type 0 header.; EP=0x0000; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_34_ATTR_HEADER_TYPE 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_2 0
- ATTR_34
- (OFFSET, MASK, VALUE) (0XFD480088, 0x000000FFU ,0x00000001U)
- RegMask = (PCIE_ATTRIB_ATTR_34_ATTR_HEADER_TYPE_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_3 0
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_34_ATTR_HEADER_TYPE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_34_OFFSET ,0x000000FFU ,0x00000001U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_4 0
- /*Register : ATTR_53 @ 0XFD4800D4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_5 0
- PM Capability's Next Capability Offset pointer to the next item in the capabilities list, or 00h if this is the final capabil
- ty.; EP=0x0048; RP=0x0060
- PSU_PCIE_ATTRIB_ATTR_53_ATTR_PM_CAP_NEXTPTR 0x60
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_6 0
- ATTR_53
- (OFFSET, MASK, VALUE) (0XFD4800D4, 0x000000FFU ,0x00000060U)
- RegMask = (PCIE_ATTRIB_ATTR_53_ATTR_PM_CAP_NEXTPTR_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_7 0
- RegVal = ((0x00000060U << PCIE_ATTRIB_ATTR_53_ATTR_PM_CAP_NEXTPTR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_53_OFFSET ,0x000000FFU ,0x00000060U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_8 0
- /*Register : ATTR_41 @ 0XFD4800A4</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_9 0
- MSI Per-Vector Masking Capable. The value is transferred to the MSI Control Register[8]. When set, adds Mask and Pending Dwor
- to Cap structure; EP=0x0000; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_PER_VECTOR_MASKING_CAPABLE 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_10 0
- Indicates that the MSI structures exists. If this is FALSE, then the MSI structure cannot be accessed via either the link or
- he management port.; EP=0x0001; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON 0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_11 0
- MSI Capability's Next Capability Offset pointer to the next item in the capabilities list, or 00h if this is the final capabi
- ity.; EP=0x0060; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_NEXTPTR 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_12 0
- Indicates that the MSI structures exists. If this is FALSE, then the MSI structure cannot be accessed via either the link or
- he management port.; EP=0x0001; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON 0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_13 0
- ATTR_41
- (OFFSET, MASK, VALUE) (0XFD4800A4, 0x000003FFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_PER_VECTOR_MASKING_CAPABLE_MASK | PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON_MASK | PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_NEXTPTR_MASK | PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_14 0
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_PER_VECTOR_MASKING_CAPABLE_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_NEXTPTR_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_41_OFFSET ,0x000003FFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_15 0
- /*Register : ATTR_97 @ 0XFD480184</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_16 0
- Maximum Link Width. Valid settings are: 000001b x1, 000010b x2, 000100b x4, 001000b x8.; EP=0x0004; RP=0x0004
- PSU_PCIE_ATTRIB_ATTR_97_ATTR_LINK_CAP_MAX_LINK_WIDTH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_17 0
- Used by LTSSM to set Maximum Link Width. Valid settings are: 000001b [x1], 000010b [x2], 000100b [x4], 001000b [x8].; EP=0x00
- 4; RP=0x0004
- PSU_PCIE_ATTRIB_ATTR_97_ATTR_LTSSM_MAX_LINK_WIDTH 0x1
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_18 0
- ATTR_97
- (OFFSET, MASK, VALUE) (0XFD480184, 0x00000FFFU ,0x00000041U)
- RegMask = (PCIE_ATTRIB_ATTR_97_ATTR_LINK_CAP_MAX_LINK_WIDTH_MASK | PCIE_ATTRIB_ATTR_97_ATTR_LTSSM_MAX_LINK_WIDTH_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_19 0
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_97_ATTR_LINK_CAP_MAX_LINK_WIDTH_SHIFT
- | 0x00000001U << PCIE_ATTRIB_ATTR_97_ATTR_LTSSM_MAX_LINK_WIDTH_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_97_OFFSET ,0x00000FFFU ,0x00000041U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_20 0
- /*Register : ATTR_100 @ 0XFD480190</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_21 0
- TRUE specifies upstream-facing port. FALSE specifies downstream-facing port.; EP=0x0001; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_100_ATTR_UPSTREAM_FACING 0x0
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_22 0
- ATTR_100
- (OFFSET, MASK, VALUE) (0XFD480190, 0x00000040U ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_100_ATTR_UPSTREAM_FACING_MASK | 0 );
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_23 0
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_100_ATTR_UPSTREAM_FACING_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_100_OFFSET ,0x00000040U ,0x00000000U);
- /*############################################################################################################################ */
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_24 0
- /*Register : ATTR_101 @ 0XFD480194</p>
+ * Each bit applies to a single IO. Bit 0 for MIO[52].
+ * PSU_IOU_SLCR_BANK2_CTRL6_SLOW_FAST_SLEW_N_BIT_25 0
- Enable the routing of message TLPs to the user through the TRN RX interface. A bit value of 1 enables routing of the message
- LP to the user. Messages are always decoded by the message decoder. Bit 0 - ERR COR, Bit 1 - ERR NONFATAL, Bit 2 - ERR FATAL,
- Bit 3 - INTA Bit 4 - INTB, Bit 5 - INTC, Bit 6 - INTD, Bit 7 PM_PME, Bit 8 - PME_TO_ACK, Bit 9 - unlock, Bit 10 PME_Turn_Off;
- EP=0x0000; RP=0x07FF
- PSU_PCIE_ATTRIB_ATTR_101_ATTR_ENABLE_MSG_ROUTE 0x7FF
+ * Slew rate control to MIO Bank 2 - control MIO[77:52]
+ * (OFFSET, MASK, VALUE) (0XFF180184, 0x03FFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_BANK2_CTRL6_OFFSET,
+ 0x03FFFFFFU, 0x00000000U);
+/*##################################################################### */
- Disable BAR filtering. Does not change the behavior of the bar hit outputs; EP=0x0000; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_101_ATTR_DISABLE_BAR_FILTERING 0x1
+ /*
+ * LOOPBACK
+ */
+ /*
+ * Register : MIO_LOOPBACK @ 0XFF180200
- ATTR_101
- (OFFSET, MASK, VALUE) (0XFD480194, 0x0000FFE2U ,0x0000FFE2U)
- RegMask = (PCIE_ATTRIB_ATTR_101_ATTR_ENABLE_MSG_ROUTE_MASK | PCIE_ATTRIB_ATTR_101_ATTR_DISABLE_BAR_FILTERING_MASK | 0 );
+ * I2C Loopback Control. 0 = Connect I2C inputs according to MIO mapping. 1
+ * = Loop I2C 0 outputs to I2C 1 inputs, and I2C 1 outputs to I2C 0 inputs
+ * .
+ * PSU_IOU_SLCR_MIO_LOOPBACK_I2C0_LOOP_I2C1 0
- RegVal = ((0x000007FFU << PCIE_ATTRIB_ATTR_101_ATTR_ENABLE_MSG_ROUTE_SHIFT
- | 0x00000001U << PCIE_ATTRIB_ATTR_101_ATTR_DISABLE_BAR_FILTERING_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_101_OFFSET ,0x0000FFE2U ,0x0000FFE2U);
- /*############################################################################################################################ */
+ * CAN Loopback Control. 0 = Connect CAN inputs according to MIO mapping. 1
+ * = Loop CAN 0 Tx to CAN 1 Rx, and CAN 1 Tx to CAN 0 Rx.
+ * PSU_IOU_SLCR_MIO_LOOPBACK_CAN0_LOOP_CAN1 0
- /*Register : ATTR_37 @ 0XFD480094</p>
+ * UART Loopback Control. 0 = Connect UART inputs according to MIO mapping.
+ * 1 = Loop UART 0 outputs to UART 1 inputs, and UART 1 outputs to UART 0
+ * inputs. RXD/TXD cross-connected. RTS/CTS cross-connected. DSR, DTR, DCD
+ * and RI not used.
+ * PSU_IOU_SLCR_MIO_LOOPBACK_UA0_LOOP_UA1 0
- Link Bandwidth notification capability. Indicates support for the link bandwidth notification status and interrupt mechanism.
- Required for Root.; EP=0x0000; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP 0x1
+ * SPI Loopback Control. 0 = Connect SPI inputs according to MIO mapping. 1
+ * = Loop SPI 0 outputs to SPI 1 inputs, and SPI 1 outputs to SPI 0 inputs
+ * . The other SPI core will appear on the LS Slave Select.
+ * PSU_IOU_SLCR_MIO_LOOPBACK_SPI0_LOOP_SPI1 0
- Sets the ASPM Optionality Compliance bit, to comply with the 2.1 ASPM Optionality ECN. Transferred to the Link Capabilities r
- gister.; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_ASPM_OPTIONALITY 0x1
+ * Loopback function within MIO
+ * (OFFSET, MASK, VALUE) (0XFF180200, 0x0000000FU ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_MIO_LOOPBACK_OFFSET,
+ 0x0000000FU, 0x00000000U);
+/*##################################################################### */
- ATTR_37
- (OFFSET, MASK, VALUE) (0XFD480094, 0x00004200U ,0x00004200U)
- RegMask = (PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP_MASK | PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_ASPM_OPTIONALITY_MASK | 0 );
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP_SHIFT
- | 0x00000001U << PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_ASPM_OPTIONALITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_37_OFFSET ,0x00004200U ,0x00004200U);
- /*############################################################################################################################ */
+ return 1;
+}
+unsigned long psu_peripherals_init_data(void)
+{
+ /*
+ * COHERENCY
+ */
+ /*
+ * FPD RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
- /*Register : ATTR_93 @ 0XFD480174</p>
+ * PCIE config reset
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET 0
- Enables the Replay Timer to use the user-defined LL_REPLAY_TIMEOUT value (or combined with the built-in value, depending on L
- _REPLAY_TIMEOUT_FUNC). If FALSE, the built-in value is used.; EP=0x0000; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT_EN 0x1
+ * PCIE control block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET 0
- Sets a user-defined timeout for the Replay Timer to force cause the retransmission of unacknowledged TLPs; refer to LL_REPLAY
- TIMEOUT_EN and LL_REPLAY_TIMEOUT_FUNC to see how this value is used. The unit for this attribute is in symbol times, which is
- 4ns at GEN1 speeds and 2ns at GEN2.; EP=0x0000; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT 0x1000
+ * PCIE bridge block level reset (AXI interface)
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET 0
- ATTR_93
- (OFFSET, MASK, VALUE) (0XFD480174, 0x0000FFFFU ,0x00009000U)
- RegMask = (PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT_EN_MASK | PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT_MASK | 0 );
+ * Display Port block level reset (includes DPDMA)
+ * PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT_EN_SHIFT
- | 0x00001000U << PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_93_OFFSET ,0x0000FFFFU ,0x00009000U);
- /*############################################################################################################################ */
+ * FPD WDT reset
+ * PSU_CRF_APB_RST_FPD_TOP_SWDT_RESET 0
- /*Register : ID @ 0XFD480200</p>
+ * GDMA block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_GDMA_RESET 0
- Device ID for the the PCIe Cap Structure Device ID field
- PSU_PCIE_ATTRIB_ID_CFG_DEV_ID 0xd021
+ * Pixel Processor (submodule of GPU) block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_GPU_PP0_RESET 0
- Vendor ID for the PCIe Cap Structure Vendor ID field
- PSU_PCIE_ATTRIB_ID_CFG_VEND_ID 0x10ee
+ * Pixel Processor (submodule of GPU) block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_GPU_PP1_RESET 0
- ID
- (OFFSET, MASK, VALUE) (0XFD480200, 0xFFFFFFFFU ,0x10EED021U)
- RegMask = (PCIE_ATTRIB_ID_CFG_DEV_ID_MASK | PCIE_ATTRIB_ID_CFG_VEND_ID_MASK | 0 );
+ * GPU block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_GPU_RESET 0
+
+ * GT block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_GT_RESET 0
+
+ * Sata block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x000F807EU ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x000F807EU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * RESET BLOCKS
+ */
+ /*
+ * TIMESTAMP
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_TIMESTAMP_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_IOU_CC_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_ADMA_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x001A0000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x001A0000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : RST_LPD_TOP @ 0XFF5E023C
+
+ * Reset entire full power domain.
+ * PSU_CRL_APB_RST_LPD_TOP_FPD_RESET 0
+
+ * LPD SWDT
+ * PSU_CRL_APB_RST_LPD_TOP_LPD_SWDT_RESET 0
+
+ * Sysmonitor reset
+ * PSU_CRL_APB_RST_LPD_TOP_SYSMON_RESET 0
+
+ * Real Time Clock reset
+ * PSU_CRL_APB_RST_LPD_TOP_RTC_RESET 0
+
+ * APM reset
+ * PSU_CRL_APB_RST_LPD_TOP_APM_RESET 0
+
+ * IPI reset
+ * PSU_CRL_APB_RST_LPD_TOP_IPI_RESET 0
+
+ * reset entire RPU power island
+ * PSU_CRL_APB_RST_LPD_TOP_RPU_PGE_RESET 0
+
+ * reset ocm
+ * PSU_CRL_APB_RST_LPD_TOP_OCM_RESET 0
+
+ * Software control register for the LPD block.
+ * (OFFSET, MASK, VALUE) (0XFF5E023C, 0x0093C018U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_TOP_OFFSET, 0x0093C018U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * ENET
+ */
+ /*
+ * Register : RST_LPD_IOU0 @ 0XFF5E0230
+
+ * GEM 3 reset
+ * PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0
+
+ * Software controlled reset for the GEMs
+ * (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU0_OFFSET,
+ 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * QSPI
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_QSPI_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * QSPI TAP DELAY
+ */
+ /*
+ * Register : IOU_TAPDLY_BYPASS @ 0XFF180390
+
+ * 0: Do not by pass the tap delays on the Rx clock signal of LQSPI 1: Bypa
+ * ss the Tap delay on the Rx clock signal of LQSPI
+ * PSU_IOU_SLCR_IOU_TAPDLY_BYPASS_LQSPI_RX 1
+
+ * IOU tap delay bypass for the LQSPI and NAND controllers
+ * (OFFSET, MASK, VALUE) (0XFF180390, 0x00000004U ,0x00000004U)
+ */
+ PSU_Mask_Write(IOU_SLCR_IOU_TAPDLY_BYPASS_OFFSET,
+ 0x00000004U, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * NAND
+ */
+ /*
+ * USB
+ */
+ /*
+ * Register : RST_LPD_TOP @ 0XFF5E023C
+
+ * USB 0 reset for control registers
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0
+
+ * USB 0 sleep circuit reset
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0
+
+ * USB 0 reset
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0
+
+ * Software control register for the LPD block.
+ * (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000540U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_TOP_OFFSET, 0x00000540U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * USB0 PIPE POWER PRESENT
+ */
+ /*
+ * Register : fpd_power_prsnt @ 0XFF9D0080
+
+ * This bit is used to choose between PIPE power present and 1'b1
+ * PSU_USB3_0_FPD_POWER_PRSNT_OPTION 0X1
+
+ * fpd_power_prsnt
+ * (OFFSET, MASK, VALUE) (0XFF9D0080, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(USB3_0_FPD_POWER_PRSNT_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : fpd_pipe_clk @ 0XFF9D007C
+
+ * This bit is used to choose between PIPE clock coming from SerDes and the
+ * suspend clk
+ * PSU_USB3_0_FPD_PIPE_CLK_OPTION 0x0
+
+ * fpd_pipe_clk
+ * (OFFSET, MASK, VALUE) (0XFF9D007C, 0x00000001U ,0x00000000U)
+ */
+ PSU_Mask_Write(USB3_0_FPD_PIPE_CLK_OFFSET, 0x00000001U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * SD
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_SDIO1_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000040U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00000040U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : CTRL_REG_SD @ 0XFF180310
+
+ * SD or eMMC selection on SDIO1 0: SD enabled 1: eMMC enabled
+ * PSU_IOU_SLCR_CTRL_REG_SD_SD1_EMMC_SEL 0
+
+ * SD eMMC selection
+ * (OFFSET, MASK, VALUE) (0XFF180310, 0x00008000U ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_CTRL_REG_SD_OFFSET,
+ 0x00008000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : SD_CONFIG_REG2 @ 0XFF180320
+
+ * Should be set based on the final product usage 00 - Removable SCard Slot
+ * 01 - Embedded Slot for One Device 10 - Shared Bus Slot 11 - Reserved
+ * PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_SLOTTYPE 0
+
+ * 1.8V Support 1: 1.8V supported 0: 1.8V not supported support
+ * PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_1P8V 1
+
+ * 3.0V Support 1: 3.0V supported 0: 3.0V not supported support
+ * PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_3P0V 0
+
+ * 3.3V Support 1: 3.3V supported 0: 3.3V not supported support
+ * PSU_IOU_SLCR_SD_CONFIG_REG2_SD1_3P3V 1
+
+ * SD Config Register 2
+ * (OFFSET, MASK, VALUE) (0XFF180320, 0x33800000U ,0x02800000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_SD_CONFIG_REG2_OFFSET,
+ 0x33800000U, 0x02800000U);
+/*##################################################################### */
+
+ /*
+ * SD1 BASE CLOCK
+ */
+ /*
+ * Register : SD_CONFIG_REG1 @ 0XFF18031C
+
+ * Base Clock Frequency for SD Clock. This is the frequency of the xin_clk.
+ * PSU_IOU_SLCR_SD_CONFIG_REG1_SD1_BASECLK 0xc8
+
+ * Configures the Number of Taps (Phases) of the rxclk_in that is supported
+ * .
+ * PSU_IOU_SLCR_SD_CONFIG_REG1_SD1_TUNIGCOUNT 0x28
+
+ * SD Config Register 1
+ * (OFFSET, MASK, VALUE) (0XFF18031C, 0x7FFE0000U ,0x64500000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_SD_CONFIG_REG1_OFFSET,
+ 0x7FFE0000U, 0x64500000U);
+/*##################################################################### */
+
+ /*
+ * Register : SD_DLL_CTRL @ 0XFF180358
+
+ * Reserved.
+ * PSU_IOU_SLCR_SD_DLL_CTRL_RESERVED 1
+
+ * SDIO status register
+ * (OFFSET, MASK, VALUE) (0XFF180358, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(IOU_SLCR_SD_DLL_CTRL_OFFSET,
+ 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * SD1 RETUNER
+ */
+ /*
+ * Register : SD_CONFIG_REG3 @ 0XFF180324
+
+ * This is the Timer Count for Re-Tuning Timer for Re-Tuning Mode 1 to 3. S
+ * etting to 4'b0 disables Re-Tuning Timer. 0h - Get information via other
+ * source 1h = 1 seconds 2h = 2 seconds 3h = 4 seconds 4h = 8 seconds -- n
+ * = 2(n-1) seconds -- Bh = 1024 seconds Fh - Ch = Reserved
+ * PSU_IOU_SLCR_SD_CONFIG_REG3_SD1_RETUNETMR 0X0
+
+ * SD Config Register 3
+ * (OFFSET, MASK, VALUE) (0XFF180324, 0x03C00000U ,0x00000000U)
+ */
+ PSU_Mask_Write(IOU_SLCR_SD_CONFIG_REG3_OFFSET,
+ 0x03C00000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CAN
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_CAN1_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000100U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00000100U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * I2C
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_I2C0_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_I2C1_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000600U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00000600U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * SWDT
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_SWDT_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00008000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00008000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * SPI
+ */
+ /*
+ * TTC
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_TTC0_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_TTC1_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_TTC2_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_TTC3_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00007800U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00007800U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * UART
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_UART0_RESET 0
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_UART1_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00000006U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00000006U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * UART BAUD RATE
+ */
+ /*
+ * Register : Baud_rate_divider_reg0 @ 0XFF000034
+
+ * Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate
+ * PSU_UART0_BAUD_RATE_DIVIDER_REG0_BDIV 0x5
+
+ * Baud Rate Divider Register
+ * (OFFSET, MASK, VALUE) (0XFF000034, 0x000000FFU ,0x00000005U)
+ */
+ PSU_Mask_Write(UART0_BAUD_RATE_DIVIDER_REG0_OFFSET,
+ 0x000000FFU, 0x00000005U);
+/*##################################################################### */
+
+ /*
+ * Register : Baud_rate_gen_reg0 @ 0XFF000018
+
+ * Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor
+ * bypass (baud_sample = sel_clk) 2 - 65535: baud_sample
+ * PSU_UART0_BAUD_RATE_GEN_REG0_CD 0x8f
+
+ * Baud Rate Generator Register.
+ * (OFFSET, MASK, VALUE) (0XFF000018, 0x0000FFFFU ,0x0000008FU)
+ */
+ PSU_Mask_Write(UART0_BAUD_RATE_GEN_REG0_OFFSET,
+ 0x0000FFFFU, 0x0000008FU);
+/*##################################################################### */
+
+ /*
+ * Register : Control_reg0 @ 0XFF000000
+
+ * Stop transmitter break: 0: no affect 1: stop transmission of the break a
+ * fter a minimum of one character length and transmit a high level during
+ * 12 bit periods. It can be set regardless of the value of STTBRK.
+ * PSU_UART0_CONTROL_REG0_STPBRK 0x0
+
+ * Start transmitter break: 0: no affect 1: start to transmit a break after
+ * the characters currently present in the FIFO and the transmit shift reg
+ * ister have been transmitted. It can only be set if STPBRK (Stop transmit
+ * ter break) is not high.
+ * PSU_UART0_CONTROL_REG0_STTBRK 0x0
+
+ * Restart receiver timeout counter: 1: receiver timeout counter is restart
+ * ed. This bit is self clearing once the restart has completed.
+ * PSU_UART0_CONTROL_REG0_RSTTO 0x0
+
+ * Transmit disable: 0: enable transmitter 1: disable transmitter
+ * PSU_UART0_CONTROL_REG0_TXDIS 0x0
+
+ * Transmit enable: 0: disable transmitter 1: enable transmitter, provided
+ * the TXDIS field is set to 0.
+ * PSU_UART0_CONTROL_REG0_TXEN 0x1
+
+ * Receive disable: 0: enable 1: disable, regardless of the value of RXEN
+ * PSU_UART0_CONTROL_REG0_RXDIS 0x0
+
+ * Receive enable: 0: disable 1: enable When set to one, the receiver logic
+ * is enabled, provided the RXDIS field is set to zero.
+ * PSU_UART0_CONTROL_REG0_RXEN 0x1
+
+ * Software reset for Tx data path: 0: no affect 1: transmitter logic is re
+ * set and all pending transmitter data is discarded This bit is self clear
+ * ing once the reset has completed.
+ * PSU_UART0_CONTROL_REG0_TXRES 0x1
+
+ * Software reset for Rx data path: 0: no affect 1: receiver logic is reset
+ * and all pending receiver data is discarded. This bit is self clearing o
+ * nce the reset has completed.
+ * PSU_UART0_CONTROL_REG0_RXRES 0x1
+
+ * UART Control Register
+ * (OFFSET, MASK, VALUE) (0XFF000000, 0x000001FFU ,0x00000017U)
+ */
+ PSU_Mask_Write(UART0_CONTROL_REG0_OFFSET, 0x000001FFU, 0x00000017U);
+/*##################################################################### */
+
+ /*
+ * Register : mode_reg0 @ 0XFF000004
+
+ * Channel mode: Defines the mode of operation of the UART. 00: normal 01:
+ * automatic echo 10: local loopback 11: remote loopback
+ * PSU_UART0_MODE_REG0_CHMODE 0x0
+
+ * Number of stop bits: Defines the number of stop bits to detect on receiv
+ * e and to generate on transmit. 00: 1 stop bit 01: 1.5 stop bits 10: 2 st
+ * op bits 11: reserved
+ * PSU_UART0_MODE_REG0_NBSTOP 0x0
+
+ * Parity type select: Defines the expected parity to check on receive and
+ * the parity to generate on transmit. 000: even parity 001: odd parity 010
+ * : forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no pari
+ * ty
+ * PSU_UART0_MODE_REG0_PAR 0x4
+
+ * Character length select: Defines the number of bits in each character. 1
+ * 1: 6 bits 10: 7 bits 0x: 8 bits
+ * PSU_UART0_MODE_REG0_CHRL 0x0
+
+ * Clock source select: This field defines whether a pre-scalar of 8 is app
+ * lied to the baud rate generator input clock. 0: clock source is uart_ref
+ * _clk 1: clock source is uart_ref_clk/8
+ * PSU_UART0_MODE_REG0_CLKS 0x0
+
+ * UART Mode Register
+ * (OFFSET, MASK, VALUE) (0XFF000004, 0x000003FFU ,0x00000020U)
+ */
+ PSU_Mask_Write(UART0_MODE_REG0_OFFSET, 0x000003FFU, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : Baud_rate_divider_reg0 @ 0XFF010034
+
+ * Baud rate divider value: 0 - 3: ignored 4 - 255: Baud rate
+ * PSU_UART1_BAUD_RATE_DIVIDER_REG0_BDIV 0x5
+
+ * Baud Rate Divider Register
+ * (OFFSET, MASK, VALUE) (0XFF010034, 0x000000FFU ,0x00000005U)
+ */
+ PSU_Mask_Write(UART1_BAUD_RATE_DIVIDER_REG0_OFFSET,
+ 0x000000FFU, 0x00000005U);
+/*##################################################################### */
+
+ /*
+ * Register : Baud_rate_gen_reg0 @ 0XFF010018
+
+ * Baud Rate Clock Divisor Value: 0: Disables baud_sample 1: Clock divisor
+ * bypass (baud_sample = sel_clk) 2 - 65535: baud_sample
+ * PSU_UART1_BAUD_RATE_GEN_REG0_CD 0x8f
+
+ * Baud Rate Generator Register.
+ * (OFFSET, MASK, VALUE) (0XFF010018, 0x0000FFFFU ,0x0000008FU)
+ */
+ PSU_Mask_Write(UART1_BAUD_RATE_GEN_REG0_OFFSET,
+ 0x0000FFFFU, 0x0000008FU);
+/*##################################################################### */
+
+ /*
+ * Register : Control_reg0 @ 0XFF010000
+
+ * Stop transmitter break: 0: no affect 1: stop transmission of the break a
+ * fter a minimum of one character length and transmit a high level during
+ * 12 bit periods. It can be set regardless of the value of STTBRK.
+ * PSU_UART1_CONTROL_REG0_STPBRK 0x0
+
+ * Start transmitter break: 0: no affect 1: start to transmit a break after
+ * the characters currently present in the FIFO and the transmit shift reg
+ * ister have been transmitted. It can only be set if STPBRK (Stop transmit
+ * ter break) is not high.
+ * PSU_UART1_CONTROL_REG0_STTBRK 0x0
+
+ * Restart receiver timeout counter: 1: receiver timeout counter is restart
+ * ed. This bit is self clearing once the restart has completed.
+ * PSU_UART1_CONTROL_REG0_RSTTO 0x0
+
+ * Transmit disable: 0: enable transmitter 1: disable transmitter
+ * PSU_UART1_CONTROL_REG0_TXDIS 0x0
+
+ * Transmit enable: 0: disable transmitter 1: enable transmitter, provided
+ * the TXDIS field is set to 0.
+ * PSU_UART1_CONTROL_REG0_TXEN 0x1
+
+ * Receive disable: 0: enable 1: disable, regardless of the value of RXEN
+ * PSU_UART1_CONTROL_REG0_RXDIS 0x0
+
+ * Receive enable: 0: disable 1: enable When set to one, the receiver logic
+ * is enabled, provided the RXDIS field is set to zero.
+ * PSU_UART1_CONTROL_REG0_RXEN 0x1
+
+ * Software reset for Tx data path: 0: no affect 1: transmitter logic is re
+ * set and all pending transmitter data is discarded This bit is self clear
+ * ing once the reset has completed.
+ * PSU_UART1_CONTROL_REG0_TXRES 0x1
+
+ * Software reset for Rx data path: 0: no affect 1: receiver logic is reset
+ * and all pending receiver data is discarded. This bit is self clearing o
+ * nce the reset has completed.
+ * PSU_UART1_CONTROL_REG0_RXRES 0x1
+
+ * UART Control Register
+ * (OFFSET, MASK, VALUE) (0XFF010000, 0x000001FFU ,0x00000017U)
+ */
+ PSU_Mask_Write(UART1_CONTROL_REG0_OFFSET, 0x000001FFU, 0x00000017U);
+/*##################################################################### */
+
+ /*
+ * Register : mode_reg0 @ 0XFF010004
+
+ * Channel mode: Defines the mode of operation of the UART. 00: normal 01:
+ * automatic echo 10: local loopback 11: remote loopback
+ * PSU_UART1_MODE_REG0_CHMODE 0x0
+
+ * Number of stop bits: Defines the number of stop bits to detect on receiv
+ * e and to generate on transmit. 00: 1 stop bit 01: 1.5 stop bits 10: 2 st
+ * op bits 11: reserved
+ * PSU_UART1_MODE_REG0_NBSTOP 0x0
+
+ * Parity type select: Defines the expected parity to check on receive and
+ * the parity to generate on transmit. 000: even parity 001: odd parity 010
+ * : forced to 0 parity (space) 011: forced to 1 parity (mark) 1xx: no pari
+ * ty
+ * PSU_UART1_MODE_REG0_PAR 0x4
+
+ * Character length select: Defines the number of bits in each character. 1
+ * 1: 6 bits 10: 7 bits 0x: 8 bits
+ * PSU_UART1_MODE_REG0_CHRL 0x0
+
+ * Clock source select: This field defines whether a pre-scalar of 8 is app
+ * lied to the baud rate generator input clock. 0: clock source is uart_ref
+ * _clk 1: clock source is uart_ref_clk/8
+ * PSU_UART1_MODE_REG0_CLKS 0x0
+
+ * UART Mode Register
+ * (OFFSET, MASK, VALUE) (0XFF010004, 0x000003FFU ,0x00000020U)
+ */
+ PSU_Mask_Write(UART1_MODE_REG0_OFFSET, 0x000003FFU, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * GPIO
+ */
+ /*
+ * Register : RST_LPD_IOU2 @ 0XFF5E0238
+
+ * Block level reset
+ * PSU_CRL_APB_RST_LPD_IOU2_GPIO_RESET 0
+
+ * Software control register for the IOU block. Each bit will cause a singl
+ * erperipheral or part of the peripheral to be reset.
+ * (OFFSET, MASK, VALUE) (0XFF5E0238, 0x00040000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU2_OFFSET,
+ 0x00040000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * ADMA TZ
+ */
+ /*
+ * Register : slcr_adma @ 0XFF4B0024
+
+ * TrustZone Classification for ADMA
+ * PSU_LPD_SLCR_SECURE_SLCR_ADMA_TZ 0XFF
+
+ * RPU TrustZone settings
+ * (OFFSET, MASK, VALUE) (0XFF4B0024, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(LPD_SLCR_SECURE_SLCR_ADMA_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * CSU TAMPERING
+ */
+ /*
+ * CSU TAMPER STATUS
+ */
+ /*
+ * Register : tamper_status @ 0XFFCA5000
+
+ * CSU regsiter
+ * PSU_CSU_TAMPER_STATUS_TAMPER_0 0
+
+ * External MIO
+ * PSU_CSU_TAMPER_STATUS_TAMPER_1 0
+
+ * JTAG toggle detect
+ * PSU_CSU_TAMPER_STATUS_TAMPER_2 0
+
+ * PL SEU error
+ * PSU_CSU_TAMPER_STATUS_TAMPER_3 0
+
+ * AMS over temperature alarm for LPD
+ * PSU_CSU_TAMPER_STATUS_TAMPER_4 0
+
+ * AMS over temperature alarm for APU
+ * PSU_CSU_TAMPER_STATUS_TAMPER_5 0
+
+ * AMS voltage alarm for VCCPINT_FPD
+ * PSU_CSU_TAMPER_STATUS_TAMPER_6 0
+
+ * AMS voltage alarm for VCCPINT_LPD
+ * PSU_CSU_TAMPER_STATUS_TAMPER_7 0
+
+ * AMS voltage alarm for VCCPAUX
+ * PSU_CSU_TAMPER_STATUS_TAMPER_8 0
+
+ * AMS voltage alarm for DDRPHY
+ * PSU_CSU_TAMPER_STATUS_TAMPER_9 0
+
+ * AMS voltage alarm for PSIO bank 0/1/2
+ * PSU_CSU_TAMPER_STATUS_TAMPER_10 0
+
+ * AMS voltage alarm for PSIO bank 3 (dedicated pins)
+ * PSU_CSU_TAMPER_STATUS_TAMPER_11 0
+
+ * AMS voltaage alarm for GT
+ * PSU_CSU_TAMPER_STATUS_TAMPER_12 0
+
+ * Tamper Response Status
+ * (OFFSET, MASK, VALUE) (0XFFCA5000, 0x00001FFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(CSU_TAMPER_STATUS_OFFSET, 0x00001FFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * CSU TAMPER RESPONSE
+ */
+ /*
+ * CPU QOS DEFAULT
+ */
+ /*
+ * Register : ACE_CTRL @ 0XFD5C0060
+
+ * Set ACE outgoing AWQOS value
+ * PSU_APU_ACE_CTRL_AWQOS 0X0
+
+ * Set ACE outgoing ARQOS value
+ * PSU_APU_ACE_CTRL_ARQOS 0X0
+
+ * ACE Control Register
+ * (OFFSET, MASK, VALUE) (0XFD5C0060, 0x000F000FU ,0x00000000U)
+ */
+ PSU_Mask_Write(APU_ACE_CTRL_OFFSET, 0x000F000FU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * ENABLES RTC SWITCH TO BATTERY WHEN VCC_PSAUX IS NOT AVAILABLE
+ */
+ /*
+ * Register : CONTROL @ 0XFFA60040
+
+ * Enables the RTC. By writing a 0 to this bit, RTC will be powered off and
+ * the only module that potentially draws current from the battery will be
+ * BBRAM. The value read through this bit does not necessarily reflect whe
+ * ther RTC is enabled or not. It is expected that RTC is enabled every tim
+ * e it is being configured. If RTC is not used in the design, FSBL will di
+ * sable it by writing a 0 to this bit.
+ * PSU_RTC_CONTROL_BATTERY_DISABLE 0X1
+
+ * This register controls various functionalities within the RTC
+ * (OFFSET, MASK, VALUE) (0XFFA60040, 0x80000000U ,0x80000000U)
+ */
+ PSU_Mask_Write(RTC_CONTROL_OFFSET, 0x80000000U, 0x80000000U);
+/*##################################################################### */
+
+ /*
+ * TIMESTAMP COUNTER
+ */
+ /*
+ * Register : base_frequency_ID_register @ 0XFF260020
+
+ * Frequency in number of ticks per second. Valid range from 10 MHz to 100
+ * MHz.
+ * PSU_IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_FREQ 0x5f5b9f0
+
+ * Program this register to match the clock frequency of the timestamp gene
+ * rator, in ticks per second. For example, for a 50 MHz clock, program 0x0
+ * 2FAF080. This register is not accessible to the read-only programming in
+ * terface.
+ * (OFFSET, MASK, VALUE) (0XFF260020, 0xFFFFFFFFU ,0x05F5B9F0U)
+ */
+ PSU_Mask_Write(IOU_SCNTRS_BASE_FREQUENCY_ID_REGISTER_OFFSET,
+ 0xFFFFFFFFU, 0x05F5B9F0U);
+/*##################################################################### */
+
+ /*
+ * Register : counter_control_register @ 0XFF260000
+
+ * Enable 0: The counter is disabled and not incrementing. 1: The counter i
+ * s enabled and is incrementing.
+ * PSU_IOU_SCNTRS_COUNTER_CONTROL_REGISTER_EN 0x1
+
+ * Controls the counter increments. This register is not accessible to the
+ * read-only programming interface.
+ * (OFFSET, MASK, VALUE) (0XFF260000, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(IOU_SCNTRS_COUNTER_CONTROL_REGISTER_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * TTC SRC SELECT
+ */
+ /*
+ * PCIE GPIO RESET
+ */
+ /*
+ * PCIE RESET
+ */
+ /*
+ * DIR MODE BANK 0
+ */
+ /*
+ * DIR MODE BANK 1
+ */
+ /*
+ * Register : DIRM_1 @ 0XFF0A0244
+
+ * Operation is the same as DIRM_0[DIRECTION_0]
+ * PSU_GPIO_DIRM_1_DIRECTION_1 0x20
+
+ * Direction mode (GPIO Bank1, MIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0244, 0x03FFFFFFU ,0x00000020U)
+ */
+ PSU_Mask_Write(GPIO_DIRM_1_OFFSET, 0x03FFFFFFU, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * DIR MODE BANK 2
+ */
+ /*
+ * OUTPUT ENABLE BANK 0
+ */
+ /*
+ * OUTPUT ENABLE BANK 1
+ */
+ /*
+ * Register : OEN_1 @ 0XFF0A0248
+
+ * Operation is the same as OEN_0[OP_ENABLE_0]
+ * PSU_GPIO_OEN_1_OP_ENABLE_1 0x20
+
+ * Output enable (GPIO Bank1, MIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0248, 0x03FFFFFFU ,0x00000020U)
+ */
+ PSU_Mask_Write(GPIO_OEN_1_OFFSET, 0x03FFFFFFU, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * OUTPUT ENABLE BANK 2
+ */
+ /*
+ * MASK_DATA_0_LSW LOW BANK [15:0]
+ */
+ /*
+ * MASK_DATA_0_MSW LOW BANK [25:16]
+ */
+ /*
+ * MASK_DATA_1_LSW LOW BANK [41:26]
+ */
+ /*
+ * Register : MASK_DATA_1_LSW @ 0XFF0A0008
+
+ * Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW]
+ * PSU_GPIO_MASK_DATA_1_LSW_MASK_1_LSW 0xffdf
+
+ * Operation is the same as MASK_DATA_0_LSW[DATA_0_LSW]
+ * PSU_GPIO_MASK_DATA_1_LSW_DATA_1_LSW 0x20
+
+ * Maskable Output Data (GPIO Bank1, MIO, Lower 16bits)
+ * (OFFSET, MASK, VALUE) (0XFF0A0008, 0xFFFFFFFFU ,0xFFDF0020U)
+ */
+ PSU_Mask_Write(GPIO_MASK_DATA_1_LSW_OFFSET,
+ 0xFFFFFFFFU, 0xFFDF0020U);
+/*##################################################################### */
+
+ /*
+ * MASK_DATA_1_MSW HIGH BANK [51:42]
+ */
+ /*
+ * MASK_DATA_1_LSW HIGH BANK [67:52]
+ */
+ /*
+ * MASK_DATA_1_LSW HIGH BANK [77:68]
+ */
+ /*
+ * ADD 1 MS DELAY
+ */
+ mask_delay(1);
- RegVal = ((0x0000D021U << PCIE_ATTRIB_ID_CFG_DEV_ID_SHIFT
- | 0x000010EEU << PCIE_ATTRIB_ID_CFG_VEND_ID_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ID_OFFSET ,0xFFFFFFFFU ,0x10EED021U);
- /*############################################################################################################################ */
+/*##################################################################### */
+
+ /*
+ * MASK_DATA_0_LSW LOW BANK [15:0]
+ */
+ /*
+ * MASK_DATA_0_MSW LOW BANK [25:16]
+ */
+ /*
+ * MASK_DATA_1_LSW LOW BANK [41:26]
+ */
+ /*
+ * Register : MASK_DATA_1_LSW @ 0XFF0A0008
+
+ * Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW]
+ * PSU_GPIO_MASK_DATA_1_LSW_MASK_1_LSW 0xffdf
+
+ * Operation is the same as MASK_DATA_0_LSW[DATA_0_LSW]
+ * PSU_GPIO_MASK_DATA_1_LSW_DATA_1_LSW 0x0
+
+ * Maskable Output Data (GPIO Bank1, MIO, Lower 16bits)
+ * (OFFSET, MASK, VALUE) (0XFF0A0008, 0xFFFFFFFFU ,0xFFDF0000U)
+ */
+ PSU_Mask_Write(GPIO_MASK_DATA_1_LSW_OFFSET,
+ 0xFFFFFFFFU, 0xFFDF0000U);
+/*##################################################################### */
+
+ /*
+ * MASK_DATA_1_MSW HIGH BANK [51:42]
+ */
+ /*
+ * MASK_DATA_1_LSW HIGH BANK [67:52]
+ */
+ /*
+ * MASK_DATA_1_LSW HIGH BANK [77:68]
+ */
+ /*
+ * ADD 5 MS DELAY
+ */
+ mask_delay(5);
+
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_post_config_data(void)
+{
+ /*
+ * POST_CONFIG
+ */
- /*Register : SUBSYS_ID @ 0XFD480204</p>
+ return 1;
+}
+unsigned long psu_peripherals_powerdwn_data(void)
+{
+ /*
+ * POWER DOWN REQUEST INTERRUPT ENABLE
+ */
+ /*
+ * POWER DOWN TRIGGER
+ */
+
+ return 1;
+}
+unsigned long psu_lpd_xppu_data(void)
+{
+ /*
+ * MASTER ID LIST
+ */
+ /*
+ * APERTURE PERMISIION LIST
+ */
+ /*
+ * APERTURE NAME: UART0, START ADDRESS: FF000000, END ADDRESS: FF00FFFF
+ */
+ /*
+ * APERTURE NAME: UART1, START ADDRESS: FF010000, END ADDRESS: FF01FFFF
+ */
+ /*
+ * APERTURE NAME: I2C0, START ADDRESS: FF020000, END ADDRESS: FF02FFFF
+ */
+ /*
+ * APERTURE NAME: I2C1, START ADDRESS: FF030000, END ADDRESS: FF03FFFF
+ */
+ /*
+ * APERTURE NAME: SPI0, START ADDRESS: FF040000, END ADDRESS: FF04FFFF
+ */
+ /*
+ * APERTURE NAME: SPI1, START ADDRESS: FF050000, END ADDRESS: FF05FFFF
+ */
+ /*
+ * APERTURE NAME: CAN0, START ADDRESS: FF060000, END ADDRESS: FF06FFFF
+ */
+ /*
+ * APERTURE NAME: CAN1, START ADDRESS: FF070000, END ADDRESS: FF07FFFF
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_12, START ADDRESS: FF080000, END ADDRESS: FF09
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_12, START ADDRESS: FF080000, END ADDRESS: FF09
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: GPIO, START ADDRESS: FF0A0000, END ADDRESS: FF0AFFFF
+ */
+ /*
+ * APERTURE NAME: GEM0, START ADDRESS: FF0B0000, END ADDRESS: FF0BFFFF
+ */
+ /*
+ * APERTURE NAME: GEM1, START ADDRESS: FF0C0000, END ADDRESS: FF0CFFFF
+ */
+ /*
+ * APERTURE NAME: GEM2, START ADDRESS: FF0D0000, END ADDRESS: FF0DFFFF
+ */
+ /*
+ * APERTURE NAME: GEM3, START ADDRESS: FF0E0000, END ADDRESS: FF0EFFFF
+ */
+ /*
+ * APERTURE NAME: QSPI, START ADDRESS: FF0F0000, END ADDRESS: FF0FFFFF
+ */
+ /*
+ * APERTURE NAME: NAND, START ADDRESS: FF100000, END ADDRESS: FF10FFFF
+ */
+ /*
+ * APERTURE NAME: TTC0, START ADDRESS: FF110000, END ADDRESS: FF11FFFF
+ */
+ /*
+ * APERTURE NAME: TTC1, START ADDRESS: FF120000, END ADDRESS: FF12FFFF
+ */
+ /*
+ * APERTURE NAME: TTC2, START ADDRESS: FF130000, END ADDRESS: FF13FFFF
+ */
+ /*
+ * APERTURE NAME: TTC3, START ADDRESS: FF140000, END ADDRESS: FF14FFFF
+ */
+ /*
+ * APERTURE NAME: SWDT, START ADDRESS: FF150000, END ADDRESS: FF15FFFF
+ */
+ /*
+ * APERTURE NAME: SD0, START ADDRESS: FF160000, END ADDRESS: FF16FFFF
+ */
+ /*
+ * APERTURE NAME: SD1, START ADDRESS: FF170000, END ADDRESS: FF17FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SLCR, START ADDRESS: FF180000, END ADDRESS: FF23FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SECURE_SLCR, START ADDRESS: FF240000, END ADDRESS: FF
+ * 24FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SCNTR, START ADDRESS: FF250000, END ADDRESS: FF25FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_SCNTRS, START ADDRESS: FF260000, END ADDRESS: FF26FFF
+ * F
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2A
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2A
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2A
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_11, START ADDRESS: FF270000, END ADDRESS: FF2A
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_14, START ADDRESS: FF2B0000, END ADDRESS: FF2F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: IPI_CTRL, START ADDRESS: FF380000, END ADDRESS: FF3FFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_1, START ADDRESS: FF400000, END ADDRESS: FF40F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR, START ADDRESS: FF410000, END ADDRESS: FF4AFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR_SECURE, START ADDRESS: FF4B0000, END ADDRESS: FF
+ * 4DFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR_SECURE, START ADDRESS: FF4B0000, END ADDRESS: FF
+ * 4DFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_SLCR_SECURE, START ADDRESS: FF4B0000, END ADDRESS: FF
+ * 4DFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_2, START ADDRESS: FF4E0000, END ADDRESS: FF5DF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: CRL_APB, START ADDRESS: FF5E0000, END ADDRESS: FF85FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_3, START ADDRESS: FF860000, END ADDRESS: FF95F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: OCM_SLCR, START ADDRESS: FF960000, END ADDRESS: FF96FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_4, START ADDRESS: FF970000, END ADDRESS: FF97F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_XPPU, START ADDRESS: FF980000, END ADDRESS: FF99FFFF
+ */
+ /*
+ * APERTURE NAME: RPU, START ADDRESS: FF9A0000, END ADDRESS: FF9AFFFF
+ */
+ /*
+ * APERTURE NAME: AFIFM6, START ADDRESS: FF9B0000, END ADDRESS: FF9BFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_XPPU_SINK, START ADDRESS: FF9C0000, END ADDRESS: FF9C
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: USB3_0, START ADDRESS: FF9D0000, END ADDRESS: FF9DFFFF
+ */
+ /*
+ * APERTURE NAME: USB3_1, START ADDRESS: FF9E0000, END ADDRESS: FF9EFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_5, START ADDRESS: FF9F0000, END ADDRESS: FF9FF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: APM0, START ADDRESS: FFA00000, END ADDRESS: FFA0FFFF
+ */
+ /*
+ * APERTURE NAME: APM1, START ADDRESS: FFA10000, END ADDRESS: FFA1FFFF
+ */
+ /*
+ * APERTURE NAME: APM_INTC_IOU, START ADDRESS: FFA20000, END ADDRESS: FFA2F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: APM_FPD_LPD, START ADDRESS: FFA30000, END ADDRESS: FFA3FF
+ * FF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_6, START ADDRESS: FFA40000, END ADDRESS: FFA4F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: AMS, START ADDRESS: FFA50000, END ADDRESS: FFA5FFFF
+ */
+ /*
+ * APERTURE NAME: RTC, START ADDRESS: FFA60000, END ADDRESS: FFA6FFFF
+ */
+ /*
+ * APERTURE NAME: OCM_XMPU_CFG, START ADDRESS: FFA70000, END ADDRESS: FFA7F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: ADMA_0, START ADDRESS: FFA80000, END ADDRESS: FFA8FFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_1, START ADDRESS: FFA90000, END ADDRESS: FFA9FFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_2, START ADDRESS: FFAA0000, END ADDRESS: FFAAFFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_3, START ADDRESS: FFAB0000, END ADDRESS: FFABFFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_4, START ADDRESS: FFAC0000, END ADDRESS: FFACFFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_5, START ADDRESS: FFAD0000, END ADDRESS: FFADFFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_6, START ADDRESS: FFAE0000, END ADDRESS: FFAEFFFF
+ */
+ /*
+ * APERTURE NAME: ADMA_7, START ADDRESS: FFAF0000, END ADDRESS: FFAFFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_7, START ADDRESS: FFB00000, END ADDRESS: FFBFF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: CSU_ROM, START ADDRESS: FFC00000, END ADDRESS: FFC1FFFF
+ */
+ /*
+ * APERTURE NAME: CSU_ROM, START ADDRESS: FFC00000, END ADDRESS: FFC1FFFF
+ */
+ /*
+ * APERTURE NAME: CSU_LOCAL, START ADDRESS: FFC20000, END ADDRESS: FFC2FFFF
+ */
+ /*
+ * APERTURE NAME: PUF, START ADDRESS: FFC30000, END ADDRESS: FFC3FFFF
+ */
+ /*
+ * APERTURE NAME: CSU_RAM, START ADDRESS: FFC40000, END ADDRESS: FFC5FFFF
+ */
+ /*
+ * APERTURE NAME: CSU_RAM, START ADDRESS: FFC40000, END ADDRESS: FFC5FFFF
+ */
+ /*
+ * APERTURE NAME: CSU_IOMODULE, START ADDRESS: FFC60000, END ADDRESS: FFC7F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: CSU_IOMODULE, START ADDRESS: FFC60000, END ADDRESS: FFC7F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: CSUDMA, START ADDRESS: FFC80000, END ADDRESS: FFC9FFFF
+ */
+ /*
+ * APERTURE NAME: CSUDMA, START ADDRESS: FFC80000, END ADDRESS: FFC9FFFF
+ */
+ /*
+ * APERTURE NAME: CSU, START ADDRESS: FFCA0000, END ADDRESS: FFCAFFFF
+ */
+ /*
+ * APERTURE NAME: CSU_WDT, START ADDRESS: FFCB0000, END ADDRESS: FFCBFFFF
+ */
+ /*
+ * APERTURE NAME: EFUSE, START ADDRESS: FFCC0000, END ADDRESS: FFCCFFFF
+ */
+ /*
+ * APERTURE NAME: BBRAM, START ADDRESS: FFCD0000, END ADDRESS: FFCDFFFF
+ */
+ /*
+ * APERTURE NAME: RSA_CORE, START ADDRESS: FFCE0000, END ADDRESS: FFCEFFFF
+ */
+ /*
+ * APERTURE NAME: MBISTJTAG, START ADDRESS: FFCF0000, END ADDRESS: FFCFFFFF
+ */
+ /*
+ * APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF
+ */
+ /*
+ * APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF
+ */
+ /*
+ * APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF
+ */
+ /*
+ * APERTURE NAME: PMU_ROM, START ADDRESS: FFD00000, END ADDRESS: FFD3FFFF
+ */
+ /*
+ * APERTURE NAME: PMU_IOMODULE, START ADDRESS: FFD40000, END ADDRESS: FFD5F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: PMU_IOMODULE, START ADDRESS: FFD40000, END ADDRESS: FFD5F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: PMU_LOCAL, START ADDRESS: FFD60000, END ADDRESS: FFD7FFFF
+ */
+ /*
+ * APERTURE NAME: PMU_LOCAL, START ADDRESS: FFD60000, END ADDRESS: FFD7FFFF
+ */
+ /*
+ * APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFF
+ * F
+ */
+ /*
+ * APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFF
+ * F
+ */
+ /*
+ * APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFF
+ * F
+ */
+ /*
+ * APERTURE NAME: PMU_GLOBAL, START ADDRESS: FFD80000, END ADDRESS: FFDBFFF
+ * F
+ */
+ /*
+ * APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF
+ */
+ /*
+ * APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF
+ */
+ /*
+ * APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF
+ */
+ /*
+ * APERTURE NAME: PMU_RAM, START ADDRESS: FFDC0000, END ADDRESS: FFDFFFFF
+ */
+ /*
+ * APERTURE NAME: R5_0_ATCM, START ADDRESS: FFE00000, END ADDRESS: FFE0FFFF
+ */
+ /*
+ * APERTURE NAME: R5_0_ATCM_LOCKSTEP, START ADDRESS: FFE10000, END ADDRESS:
+ * FFE1FFFF
+ */
+ /*
+ * APERTURE NAME: R5_0_BTCM, START ADDRESS: FFE20000, END ADDRESS: FFE2FFFF
+ */
+ /*
+ * APERTURE NAME: R5_0_BTCM_LOCKSTEP, START ADDRESS: FFE30000, END ADDRESS:
+ * FFE3FFFF
+ */
+ /*
+ * APERTURE NAME: R5_0_INSTRUCTION_CACHE, START ADDRESS: FFE40000, END ADDR
+ * ESS: FFE4FFFF
+ */
+ /*
+ * APERTURE NAME: R5_0_DATA_CACHE, START ADDRESS: FFE50000, END ADDRESS: FF
+ * E5FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_8, START ADDRESS: FFE60000, END ADDRESS: FFE8F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_8, START ADDRESS: FFE60000, END ADDRESS: FFE8F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_8, START ADDRESS: FFE60000, END ADDRESS: FFE8F
+ * FFF
+ */
+ /*
+ * APERTURE NAME: R5_1_ATCM_, START ADDRESS: FFE90000, END ADDRESS: FFE9FFF
+ * F
+ */
+ /*
+ * APERTURE NAME: RPU_UNUSED_10, START ADDRESS: FFEA0000, END ADDRESS: FFEA
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: R5_1_BTCM_, START ADDRESS: FFEB0000, END ADDRESS: FFEBFFF
+ * F
+ */
+ /*
+ * APERTURE NAME: R5_1_INSTRUCTION_CACHE, START ADDRESS: FFEC0000, END ADDR
+ * ESS: FFECFFFF
+ */
+ /*
+ * APERTURE NAME: R5_1_DATA_CACHE, START ADDRESS: FFED0000, END ADDRESS: FF
+ * EDFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_9, START ADDRESS: FFEE0000, END ADDRESS: FFFBF
+ * FFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_15, START ADDRESS: FFFD0000, END ADDRESS: FFFF
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_15, START ADDRESS: FFFD0000, END ADDRESS: FFFF
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_15, START ADDRESS: FFFD0000, END ADDRESS: FFFF
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_1, START ADDRESS: FF310000, END ADDRESS: FF31FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_2, START ADDRESS: FF320000, END ADDRESS: FF32FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_0, START ADDRESS: FF300000, END ADDRESS: FF30FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_7, START ADDRESS: FF340000, END ADDRESS: FF34FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_8, START ADDRESS: FF350000, END ADDRESS: FF35FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_9, START ADDRESS: FF360000, END ADDRESS: FF36FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_10, START ADDRESS: FF370000, END ADDRESS: FF37FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IPI_PMU, START ADDRESS: FF330000, END ADDRESS: FF33FFFF
+ */
+ /*
+ * APERTURE NAME: IOU_GPV, START ADDRESS: FE000000, END ADDRESS: FE0FFFFF
+ */
+ /*
+ * APERTURE NAME: LPD_GPV, START ADDRESS: FE100000, END ADDRESS: FE1FFFFF
+ */
+ /*
+ * APERTURE NAME: USB3_0_XHCI, START ADDRESS: FE200000, END ADDRESS: FE2FFF
+ * FF
+ */
+ /*
+ * APERTURE NAME: USB3_1_XHCI, START ADDRESS: FE300000, END ADDRESS: FE3FFF
+ * FF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: LPD_UNUSED_13, START ADDRESS: FE400000, END ADDRESS: FE7F
+ * FFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: CORESIGHT, START ADDRESS: FE800000, END ADDRESS: FEFFFFFF
+ */
+ /*
+ * APERTURE NAME: QSPI_LINEAR_ADDRESS, START ADDRESS: C0000000, END ADDRESS
+ * : DFFFFFFF
+ */
+ /*
+ * XPPU CONTROL
+ */
+
+ return 1;
+}
+unsigned long psu_ddr_xmpu0_data(void)
+{
+ /*
+ * DDR XMPU0
+ */
- Subsystem ID for the the PCIe Cap Structure Subsystem ID field
- PSU_PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_ID 0x7
+ return 1;
+}
+unsigned long psu_ddr_xmpu1_data(void)
+{
+ /*
+ * DDR XMPU1
+ */
- Subsystem Vendor ID for the PCIe Cap Structure Subsystem Vendor ID field
- PSU_PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_VEND_ID 0x10ee
+ return 1;
+}
+unsigned long psu_ddr_xmpu2_data(void)
+{
+ /*
+ * DDR XMPU2
+ */
- SUBSYS_ID
- (OFFSET, MASK, VALUE) (0XFD480204, 0xFFFFFFFFU ,0x10EE0007U)
- RegMask = (PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_ID_MASK | PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_VEND_ID_MASK | 0 );
+ return 1;
+}
+unsigned long psu_ddr_xmpu3_data(void)
+{
+ /*
+ * DDR XMPU3
+ */
- RegVal = ((0x00000007U << PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_ID_SHIFT
- | 0x000010EEU << PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_VEND_ID_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_SUBSYS_ID_OFFSET ,0xFFFFFFFFU ,0x10EE0007U);
- /*############################################################################################################################ */
+ return 1;
+}
+unsigned long psu_ddr_xmpu4_data(void)
+{
+ /*
+ * DDR XMPU4
+ */
- /*Register : REV_ID @ 0XFD480208</p>
+ return 1;
+}
+unsigned long psu_ddr_xmpu5_data(void)
+{
+ /*
+ * DDR XMPU5
+ */
- Revision ID for the the PCIe Cap Structure
- PSU_PCIE_ATTRIB_REV_ID_CFG_REV_ID 0x0
+ return 1;
+}
+unsigned long psu_ocm_xmpu_data(void)
+{
+ /*
+ * OCM XMPU
+ */
- REV_ID
- (OFFSET, MASK, VALUE) (0XFD480208, 0x000000FFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_REV_ID_CFG_REV_ID_MASK | 0 );
+ return 1;
+}
+unsigned long psu_fpd_xmpu_data(void)
+{
+ /*
+ * FPD XMPU
+ */
- RegVal = ((0x00000000U << PCIE_ATTRIB_REV_ID_CFG_REV_ID_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_REV_ID_OFFSET ,0x000000FFU ,0x00000000U);
- /*############################################################################################################################ */
+ return 1;
+}
+unsigned long psu_protection_lock_data(void)
+{
+ /*
+ * LOCKING PROTECTION MODULE
+ */
+ /*
+ * XPPU LOCK
+ */
+ /*
+ * APERTURE NAME: LPD_XPPU, START ADDRESS: FF980000, END ADDRESS: FF99FFFF
+ */
+ /*
+ * XMPU LOCK
+ */
+ /*
+ * LOCK OCM XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK FPD XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK DDR XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK DDR XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK DDR XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK DDR XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK DDR XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+ /*
+ * LOCK DDR XMPU ONLY IF IT IS NOT PROTECTED BY ANY MASTER
+ */
+
+ return 1;
+}
+unsigned long psu_apply_master_tz(void)
+{
+ /*
+ * RPU
+ */
+ /*
+ * DP TZ
+ */
+ /*
+ * Register : slcr_dpdma @ 0XFD690040
- /*Register : ATTR_24 @ 0XFD480060</p>
+ * TrustZone classification for DisplayPort DMA
+ * PSU_FPD_SLCR_SECURE_SLCR_DPDMA_TZ 1
- Code identifying basic function, subclass and applicable programming interface. Transferred to the Class Code register.; EP=0
- 8000; RP=0x8000
- PSU_PCIE_ATTRIB_ATTR_24_ATTR_CLASS_CODE 0x400
+ * DPDMA TrustZone Settings
+ * (OFFSET, MASK, VALUE) (0XFD690040, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(FPD_SLCR_SECURE_SLCR_DPDMA_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
- ATTR_24
- (OFFSET, MASK, VALUE) (0XFD480060, 0x0000FFFFU ,0x00000400U)
- RegMask = (PCIE_ATTRIB_ATTR_24_ATTR_CLASS_CODE_MASK | 0 );
+ /*
+ * SATA TZ
+ */
+ /*
+ * PCIE TZ
+ */
+ /*
+ * Register : slcr_pcie @ 0XFD690030
- RegVal = ((0x00000400U << PCIE_ATTRIB_ATTR_24_ATTR_CLASS_CODE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_24_OFFSET ,0x0000FFFFU ,0x00000400U);
- /*############################################################################################################################ */
+ * TrustZone classification for DMA Channel 0
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_DMA_0 1
- /*Register : ATTR_25 @ 0XFD480064</p>
+ * TrustZone classification for DMA Channel 1
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_DMA_1 1
- Code identifying basic function, subclass and applicable programming interface. Transferred to the Class Code register.; EP=0
- 0005; RP=0x0006
- PSU_PCIE_ATTRIB_ATTR_25_ATTR_CLASS_CODE 0x6
+ * TrustZone classification for DMA Channel 2
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_DMA_2 1
- INTX Interrupt Generation Capable. If FALSE, this will cause Command[10] to be hardwired to 0.; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_25_ATTR_CMD_INTX_IMPLEMENTED 0
+ * TrustZone classification for DMA Channel 3
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_DMA_3 1
- ATTR_25
- (OFFSET, MASK, VALUE) (0XFD480064, 0x000001FFU ,0x00000006U)
- RegMask = (PCIE_ATTRIB_ATTR_25_ATTR_CLASS_CODE_MASK | PCIE_ATTRIB_ATTR_25_ATTR_CMD_INTX_IMPLEMENTED_MASK | 0 );
+ * TrustZone classification for Ingress Address Translation 0
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_0 1
- RegVal = ((0x00000006U << PCIE_ATTRIB_ATTR_25_ATTR_CLASS_CODE_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_25_ATTR_CMD_INTX_IMPLEMENTED_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_25_OFFSET ,0x000001FFU ,0x00000006U);
- /*############################################################################################################################ */
+ * TrustZone classification for Ingress Address Translation 1
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_1 1
- /*Register : ATTR_4 @ 0XFD480010</p>
+ * TrustZone classification for Ingress Address Translation 2
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_2 1
- Indicates that the AER structures exists. If this is FALSE, then the AER structure cannot be accessed via either the link or
- he management port, and AER will be considered to not be present for error management tasks (such as what types of error mess
- ges are sent if an error is detected).; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON 0
+ * TrustZone classification for Ingress Address Translation 3
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_3 1
+
+ * TrustZone classification for Ingress Address Translation 4
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_4 1
- Indicates that the AER structures exists. If this is FALSE, then the AER structure cannot be accessed via either the link or
- he management port, and AER will be considered to not be present for error management tasks (such as what types of error mess
- ges are sent if an error is detected).; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON 0
+ * TrustZone classification for Ingress Address Translation 5
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_5 1
- ATTR_4
- (OFFSET, MASK, VALUE) (0XFD480010, 0x00001000U ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON_MASK | PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON_MASK | 0 );
+ * TrustZone classification for Ingress Address Translation 6
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_6 1
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON_SHIFT
- | 0x00000000U << PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_4_OFFSET ,0x00001000U ,0x00000000U);
- /*############################################################################################################################ */
+ * TrustZone classification for Ingress Address Translation 7
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_INGR_7 1
+
+ * TrustZone classification for Egress Address Translation 0
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_0 1
- /*Register : ATTR_89 @ 0XFD480164</p>
+ * TrustZone classification for Egress Address Translation 1
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_1 1
+
+ * TrustZone classification for Egress Address Translation 2
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_2 1
+
+ * TrustZone classification for Egress Address Translation 3
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_3 1
+
+ * TrustZone classification for Egress Address Translation 4
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_4 1
+
+ * TrustZone classification for Egress Address Translation 5
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_5 1
+
+ * TrustZone classification for Egress Address Translation 6
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_6 1
+
+ * TrustZone classification for Egress Address Translation 7
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_AT_EGR_7 1
+
+ * TrustZone classification for DMA Registers
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_DMA_REGS 1
+
+ * TrustZone classification for MSIx Table
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_MSIX_TABLE 1
+
+ * TrustZone classification for MSIx PBA
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_MSIX_PBA 1
+
+ * TrustZone classification for ECAM
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_ECAM 1
+
+ * TrustZone classification for Bridge Common Registers
+ * PSU_FPD_SLCR_SECURE_SLCR_PCIE_TZ_BRIDGE_REGS 1
+
+ * PCIe TrustZone settings. This register may only be modified during bootu
+ * p (while PCIe block is disabled)
+ * (OFFSET, MASK, VALUE) (0XFD690030, 0x01FFFFFFU ,0x01FFFFFFU)
+ */
+ PSU_Mask_Write(FPD_SLCR_SECURE_SLCR_PCIE_OFFSET,
+ 0x01FFFFFFU, 0x01FFFFFFU);
+/*##################################################################### */
+
+ /*
+ * USB TZ
+ */
+ /*
+ * Register : slcr_usb @ 0XFF4B0034
+
+ * TrustZone Classification for USB3_0
+ * PSU_LPD_SLCR_SECURE_SLCR_USB_TZ_USB3_0 1
+
+ * TrustZone Classification for USB3_1
+ * PSU_LPD_SLCR_SECURE_SLCR_USB_TZ_USB3_1 1
+
+ * USB3 TrustZone settings
+ * (OFFSET, MASK, VALUE) (0XFF4B0034, 0x00000003U ,0x00000003U)
+ */
+ PSU_Mask_Write(LPD_SLCR_SECURE_SLCR_USB_OFFSET,
+ 0x00000003U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * SD TZ
+ */
+ /*
+ * Register : IOU_AXI_RPRTCN @ 0XFF240004
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_SD0_AXI_ARPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_SD1_AXI_ARPROT 2
+
+ * AXI read protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240004, 0x003F0000U ,0x00120000U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_RPRTCN_OFFSET,
+ 0x003F0000U, 0x00120000U);
+/*##################################################################### */
+
+ /*
+ * Register : IOU_AXI_WPRTCN @ 0XFF240000
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_SD0_AXI_AWPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_SD1_AXI_AWPROT 2
+
+ * AXI write protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240000, 0x003F0000U ,0x00120000U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_WPRTCN_OFFSET,
+ 0x003F0000U, 0x00120000U);
+/*##################################################################### */
+
+ /*
+ * GEM TZ
+ */
+ /*
+ * Register : IOU_AXI_RPRTCN @ 0XFF240004
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_GEM0_AXI_ARPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_GEM1_AXI_ARPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_GEM2_AXI_ARPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_GEM3_AXI_ARPROT 2
+
+ * AXI read protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240004, 0x00000FFFU ,0x00000492U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_RPRTCN_OFFSET,
+ 0x00000FFFU, 0x00000492U);
+/*##################################################################### */
+
+ /*
+ * Register : IOU_AXI_WPRTCN @ 0XFF240000
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_GEM0_AXI_AWPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_GEM1_AXI_AWPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_GEM2_AXI_AWPROT 2
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_GEM3_AXI_AWPROT 2
+
+ * AXI write protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240000, 0x00000FFFU ,0x00000492U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_WPRTCN_OFFSET,
+ 0x00000FFFU, 0x00000492U);
+/*##################################################################### */
+
+ /*
+ * QSPI TZ
+ */
+ /*
+ * Register : IOU_AXI_WPRTCN @ 0XFF240000
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_QSPI_AXI_AWPROT 2
+
+ * AXI write protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240000, 0x0E000000U ,0x04000000U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_WPRTCN_OFFSET,
+ 0x0E000000U, 0x04000000U);
+/*##################################################################### */
+
+ /*
+ * NAND TZ
+ */
+ /*
+ * Register : IOU_AXI_RPRTCN @ 0XFF240004
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_RPRTCN_NAND_AXI_ARPROT 2
+
+ * AXI read protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240004, 0x01C00000U ,0x00800000U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_RPRTCN_OFFSET,
+ 0x01C00000U, 0x00800000U);
+/*##################################################################### */
+
+ /*
+ * Register : IOU_AXI_WPRTCN @ 0XFF240000
+
+ * AXI protection [0] = '0' : Normal access [0] = '1' : Previleged access [
+ * 1] = '0' : Secure access [1] = '1' : No secure access [2] = '0' : Data a
+ * ccess [2] = '1'' : Instruction access
+ * PSU_IOU_SECURE_SLCR_IOU_AXI_WPRTCN_NAND_AXI_AWPROT 2
+
+ * AXI write protection type selection
+ * (OFFSET, MASK, VALUE) (0XFF240000, 0x01C00000U ,0x00800000U)
+ */
+ PSU_Mask_Write(IOU_SECURE_SLCR_IOU_AXI_WPRTCN_OFFSET,
+ 0x01C00000U, 0x00800000U);
+/*##################################################################### */
+
+ /*
+ * DMA TZ
+ */
+ /*
+ * Register : slcr_adma @ 0XFF4B0024
+
+ * TrustZone Classification for ADMA
+ * PSU_LPD_SLCR_SECURE_SLCR_ADMA_TZ 0xFF
+
+ * RPU TrustZone settings
+ * (OFFSET, MASK, VALUE) (0XFF4B0024, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(LPD_SLCR_SECURE_SLCR_ADMA_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : slcr_gdma @ 0XFD690050
+
+ * TrustZone Classification for GDMA
+ * PSU_FPD_SLCR_SECURE_SLCR_GDMA_TZ 0xFF
+
+ * GDMA Trustzone Settings
+ * (OFFSET, MASK, VALUE) (0XFD690050, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(FPD_SLCR_SECURE_SLCR_GDMA_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_serdes_init_data(void)
+{
+ /*
+ * SERDES INITIALIZATION
+ */
+ /*
+ * GT REFERENCE CLOCK SOURCE SELECTION
+ */
+ /*
+ * Register : PLL_REF_SEL0 @ 0XFD410000
+
+ * PLL0 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 1
+ * 2MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - 24MHz, 0x8 - 26MHz,
+ * 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE
+ * - 108MHz, 0xF - 125MHz, 0x10 - 135MHz, 0x11 - 150 MHz. 0x12 to 0x1F - R
+ * eserved
+ * PSU_SERDES_PLL_REF_SEL0_PLLREFSEL0 0xD
+
+ * PLL0 Reference Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD410000, 0x0000001FU ,0x0000000DU)
+ */
+ PSU_Mask_Write(SERDES_PLL_REF_SEL0_OFFSET, 0x0000001FU, 0x0000000DU);
+/*##################################################################### */
+
+ /*
+ * Register : PLL_REF_SEL1 @ 0XFD410004
+
+ * PLL1 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 1
+ * 2MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - 24MHz, 0x8 - 26MHz,
+ * 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE
+ * - 108MHz, 0xF - 125MHz, 0x10 - 135MHz, 0x11 - 150 MHz. 0x12 to 0x1F - R
+ * eserved
+ * PSU_SERDES_PLL_REF_SEL1_PLLREFSEL1 0x9
+
+ * PLL1 Reference Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD410004, 0x0000001FU ,0x00000009U)
+ */
+ PSU_Mask_Write(SERDES_PLL_REF_SEL1_OFFSET, 0x0000001FU, 0x00000009U);
+/*##################################################################### */
+
+ /*
+ * Register : PLL_REF_SEL2 @ 0XFD410008
+
+ * PLL2 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 1
+ * 2MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - 24MHz, 0x8 - 26MHz,
+ * 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE
+ * - 108MHz, 0xF - 125MHz, 0x10 - 135MHz, 0x11 - 150 MHz. 0x12 to 0x1F - R
+ * eserved
+ * PSU_SERDES_PLL_REF_SEL2_PLLREFSEL2 0x8
+
+ * PLL2 Reference Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD410008, 0x0000001FU ,0x00000008U)
+ */
+ PSU_Mask_Write(SERDES_PLL_REF_SEL2_OFFSET, 0x0000001FU, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : PLL_REF_SEL3 @ 0XFD41000C
+
+ * PLL3 Reference Selection. 0x0 - 5MHz, 0x1 - 9.6MHz, 0x2 - 10MHz, 0x3 - 1
+ * 2MHz, 0x4 - 13MHz, 0x5 - 19.2MHz, 0x6 - 20MHz, 0x7 - 24MHz, 0x8 - 26MHz,
+ * 0x9 - 27MHz, 0xA - 38.4MHz, 0xB - 40MHz, 0xC - 52MHz, 0xD - 100MHz, 0xE
+ * - 108MHz, 0xF - 125MHz, 0x10 - 135MHz, 0x11 - 150 MHz. 0x12 to 0x1F - R
+ * eserved
+ * PSU_SERDES_PLL_REF_SEL3_PLLREFSEL3 0xF
+
+ * PLL3 Reference Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD41000C, 0x0000001FU ,0x0000000FU)
+ */
+ PSU_Mask_Write(SERDES_PLL_REF_SEL3_OFFSET, 0x0000001FU, 0x0000000FU);
+/*##################################################################### */
+
+ /*
+ * GT REFERENCE CLOCK FREQUENCY SELECTION
+ */
+ /*
+ * Register : L0_L0_REF_CLK_SEL @ 0XFD402860
+
+ * Sel of lane 0 ref clock local mux. Set to 1 to select lane 0 slicer outp
+ * ut. Set to 0 to select lane0 ref clock mux output.
+ * PSU_SERDES_L0_L0_REF_CLK_SEL_L0_REF_CLK_LCL_SEL 0x1
+
+ * Lane0 Ref Clock Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD402860, 0x00000080U ,0x00000080U)
+ */
+ PSU_Mask_Write(SERDES_L0_L0_REF_CLK_SEL_OFFSET,
+ 0x00000080U, 0x00000080U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_L1_REF_CLK_SEL @ 0XFD402864
+
+ * Sel of lane 1 ref clock local mux. Set to 1 to select lane 1 slicer outp
+ * ut. Set to 0 to select lane1 ref clock mux output.
+ * PSU_SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_LCL_SEL 0x0
+
+ * Bit 3 of lane 1 ref clock mux one hot sel. Set to 1 to select lane 3 sli
+ * cer output from ref clock network
+ * PSU_SERDES_L0_L1_REF_CLK_SEL_L1_REF_CLK_SEL_3 0x1
+
+ * Lane1 Ref Clock Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD402864, 0x00000088U ,0x00000008U)
+ */
+ PSU_Mask_Write(SERDES_L0_L1_REF_CLK_SEL_OFFSET,
+ 0x00000088U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_L2_REF_CLK_SEL @ 0XFD402868
+
+ * Sel of lane 2 ref clock local mux. Set to 1 to select lane 1 slicer outp
+ * ut. Set to 0 to select lane2 ref clock mux output.
+ * PSU_SERDES_L0_L2_REF_CLK_SEL_L2_REF_CLK_LCL_SEL 0x1
+
+ * Lane2 Ref Clock Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD402868, 0x00000080U ,0x00000080U)
+ */
+ PSU_Mask_Write(SERDES_L0_L2_REF_CLK_SEL_OFFSET,
+ 0x00000080U, 0x00000080U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_L3_REF_CLK_SEL @ 0XFD40286C
+
+ * Sel of lane 3 ref clock local mux. Set to 1 to select lane 3 slicer outp
+ * ut. Set to 0 to select lane3 ref clock mux output.
+ * PSU_SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_LCL_SEL 0x0
+
+ * Bit 1 of lane 3 ref clock mux one hot sel. Set to 1 to select lane 1 sli
+ * cer output from ref clock network
+ * PSU_SERDES_L0_L3_REF_CLK_SEL_L3_REF_CLK_SEL_1 0x1
+
+ * Lane3 Ref Clock Selection Register
+ * (OFFSET, MASK, VALUE) (0XFD40286C, 0x00000082U ,0x00000002U)
+ */
+ PSU_Mask_Write(SERDES_L0_L3_REF_CLK_SEL_OFFSET,
+ 0x00000082U, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * ENABLE SPREAD SPECTRUM
+ */
+ /*
+ * Register : L2_TM_PLL_DIG_37 @ 0XFD40A094
+
+ * Enable/Disable coarse code satureation limiting logic
+ * PSU_SERDES_L2_TM_PLL_DIG_37_TM_ENABLE_COARSE_SATURATION 0x1
+
+ * Test mode register 37
+ * (OFFSET, MASK, VALUE) (0XFD40A094, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_PLL_DIG_37_OFFSET,
+ 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_PLL_SS_STEPS_0_LSB @ 0XFD40A368
+
+ * Spread Spectrum No of Steps [7:0]
+ * PSU_SERDES_L2_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x38
+
+ * Spread Spectrum No of Steps bits 7:0
+ * (OFFSET, MASK, VALUE) (0XFD40A368, 0x000000FFU ,0x00000038U)
+ */
+ PSU_Mask_Write(SERDES_L2_PLL_SS_STEPS_0_LSB_OFFSET,
+ 0x000000FFU, 0x00000038U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_PLL_SS_STEPS_1_MSB @ 0XFD40A36C
+
+ * Spread Spectrum No of Steps [10:8]
+ * PSU_SERDES_L2_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x03
+
+ * Spread Spectrum No of Steps bits 10:8
+ * (OFFSET, MASK, VALUE) (0XFD40A36C, 0x00000007U ,0x00000003U)
+ */
+ PSU_Mask_Write(SERDES_L2_PLL_SS_STEPS_1_MSB_OFFSET,
+ 0x00000007U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_PLL_SS_STEPS_0_LSB @ 0XFD40E368
+
+ * Spread Spectrum No of Steps [7:0]
+ * PSU_SERDES_L3_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0xE0
+
+ * Spread Spectrum No of Steps bits 7:0
+ * (OFFSET, MASK, VALUE) (0XFD40E368, 0x000000FFU ,0x000000E0U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_SS_STEPS_0_LSB_OFFSET,
+ 0x000000FFU, 0x000000E0U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_PLL_SS_STEPS_1_MSB @ 0XFD40E36C
+
+ * Spread Spectrum No of Steps [10:8]
+ * PSU_SERDES_L3_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3
+
+ * Spread Spectrum No of Steps bits 10:8
+ * (OFFSET, MASK, VALUE) (0XFD40E36C, 0x00000007U ,0x00000003U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_SS_STEPS_1_MSB_OFFSET,
+ 0x00000007U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_PLL_SS_STEPS_0_LSB @ 0XFD406368
+
+ * Spread Spectrum No of Steps [7:0]
+ * PSU_SERDES_L1_PLL_SS_STEPS_0_LSB_SS_NUM_OF_STEPS_0_LSB 0x58
+
+ * Spread Spectrum No of Steps bits 7:0
+ * (OFFSET, MASK, VALUE) (0XFD406368, 0x000000FFU ,0x00000058U)
+ */
+ PSU_Mask_Write(SERDES_L1_PLL_SS_STEPS_0_LSB_OFFSET,
+ 0x000000FFU, 0x00000058U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_PLL_SS_STEPS_1_MSB @ 0XFD40636C
+
+ * Spread Spectrum No of Steps [10:8]
+ * PSU_SERDES_L1_PLL_SS_STEPS_1_MSB_SS_NUM_OF_STEPS_1_MSB 0x3
+
+ * Spread Spectrum No of Steps bits 10:8
+ * (OFFSET, MASK, VALUE) (0XFD40636C, 0x00000007U ,0x00000003U)
+ */
+ PSU_Mask_Write(SERDES_L1_PLL_SS_STEPS_1_MSB_OFFSET,
+ 0x00000007U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_PLL_SS_STEP_SIZE_0_LSB @ 0XFD406370
+
+ * Step Size for Spread Spectrum [7:0]
+ * PSU_SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0x7C
+
+ * Step Size for Spread Spectrum LSB
+ * (OFFSET, MASK, VALUE) (0XFD406370, 0x000000FFU ,0x0000007CU)
+ */
+ PSU_Mask_Write(SERDES_L1_PLL_SS_STEP_SIZE_0_LSB_OFFSET,
+ 0x000000FFU, 0x0000007CU);
+/*##################################################################### */
+
+ /*
+ * Register : L1_PLL_SS_STEP_SIZE_1 @ 0XFD406374
+
+ * Step Size for Spread Spectrum [15:8]
+ * PSU_SERDES_L1_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x33
+
+ * Step Size for Spread Spectrum 1
+ * (OFFSET, MASK, VALUE) (0XFD406374, 0x000000FFU ,0x00000033U)
+ */
+ PSU_Mask_Write(SERDES_L1_PLL_SS_STEP_SIZE_1_OFFSET,
+ 0x000000FFU, 0x00000033U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_PLL_SS_STEP_SIZE_2 @ 0XFD406378
+
+ * Step Size for Spread Spectrum [23:16]
+ * PSU_SERDES_L1_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2
+
+ * Step Size for Spread Spectrum 2
+ * (OFFSET, MASK, VALUE) (0XFD406378, 0x000000FFU ,0x00000002U)
+ */
+ PSU_Mask_Write(SERDES_L1_PLL_SS_STEP_SIZE_2_OFFSET,
+ 0x000000FFU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40637C
+
+ * Step Size for Spread Spectrum [25:24]
+ * PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0
+
+ * Enable/Disable test mode force on SS step size
+ * PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1
+
+ * Enable/Disable test mode force on SS no of steps
+ * PSU_SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1
+
+ * Enable force on enable Spread Spectrum
+ * (OFFSET, MASK, VALUE) (0XFD40637C, 0x00000033U ,0x00000030U)
+ */
+ PSU_Mask_Write(SERDES_L1_PLL_SS_STEP_SIZE_3_MSB_OFFSET,
+ 0x00000033U, 0x00000030U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_PLL_SS_STEP_SIZE_0_LSB @ 0XFD40A370
+
+ * Step Size for Spread Spectrum [7:0]
+ * PSU_SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0xF4
+
+ * Step Size for Spread Spectrum LSB
+ * (OFFSET, MASK, VALUE) (0XFD40A370, 0x000000FFU ,0x000000F4U)
+ */
+ PSU_Mask_Write(SERDES_L2_PLL_SS_STEP_SIZE_0_LSB_OFFSET,
+ 0x000000FFU, 0x000000F4U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_PLL_SS_STEP_SIZE_1 @ 0XFD40A374
+
+ * Step Size for Spread Spectrum [15:8]
+ * PSU_SERDES_L2_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0x31
+
+ * Step Size for Spread Spectrum 1
+ * (OFFSET, MASK, VALUE) (0XFD40A374, 0x000000FFU ,0x00000031U)
+ */
+ PSU_Mask_Write(SERDES_L2_PLL_SS_STEP_SIZE_1_OFFSET,
+ 0x000000FFU, 0x00000031U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_PLL_SS_STEP_SIZE_2 @ 0XFD40A378
- VSEC's Next Capability Offset pointer to the next item in the capabilities list, or 000h if this is the final capability.; EP
- 0x0140; RP=0x0140
- PSU_PCIE_ATTRIB_ATTR_89_ATTR_VSEC_CAP_NEXTPTR 0
+ * Step Size for Spread Spectrum [23:16]
+ * PSU_SERDES_L2_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x2
+
+ * Step Size for Spread Spectrum 2
+ * (OFFSET, MASK, VALUE) (0XFD40A378, 0x000000FFU ,0x00000002U)
+ */
+ PSU_Mask_Write(SERDES_L2_PLL_SS_STEP_SIZE_2_OFFSET,
+ 0x000000FFU, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40A37C
- ATTR_89
- (OFFSET, MASK, VALUE) (0XFD480164, 0x00001FFEU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_89_ATTR_VSEC_CAP_NEXTPTR_MASK | 0 );
+ * Step Size for Spread Spectrum [25:24]
+ * PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_89_ATTR_VSEC_CAP_NEXTPTR_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_89_OFFSET ,0x00001FFEU ,0x00000000U);
- /*############################################################################################################################ */
+ * Enable/Disable test mode force on SS step size
+ * PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1
+
+ * Enable/Disable test mode force on SS no of steps
+ * PSU_SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1
+
+ * Enable force on enable Spread Spectrum
+ * (OFFSET, MASK, VALUE) (0XFD40A37C, 0x00000033U ,0x00000030U)
+ */
+ PSU_Mask_Write(SERDES_L2_PLL_SS_STEP_SIZE_3_MSB_OFFSET,
+ 0x00000033U, 0x00000030U);
+/*##################################################################### */
- /*Register : ATTR_79 @ 0XFD48013C</p>
+ /*
+ * Register : L3_PLL_SS_STEP_SIZE_0_LSB @ 0XFD40E370
+
+ * Step Size for Spread Spectrum [7:0]
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_SS_STEP_SIZE_0_LSB 0xC9
+
+ * Step Size for Spread Spectrum LSB
+ * (OFFSET, MASK, VALUE) (0XFD40E370, 0x000000FFU ,0x000000C9U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_SS_STEP_SIZE_0_LSB_OFFSET,
+ 0x000000FFU, 0x000000C9U);
+/*##################################################################### */
- CRS SW Visibility. Indicates RC can return CRS to SW. Transferred to the Root Capabilities register.; EP=0x0000; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_79_ATTR_ROOT_CAP_CRS_SW_VISIBILITY 1
+ /*
+ * Register : L3_PLL_SS_STEP_SIZE_1 @ 0XFD40E374
- ATTR_79
- (OFFSET, MASK, VALUE) (0XFD48013C, 0x00000020U ,0x00000020U)
- RegMask = (PCIE_ATTRIB_ATTR_79_ATTR_ROOT_CAP_CRS_SW_VISIBILITY_MASK | 0 );
+ * Step Size for Spread Spectrum [15:8]
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_1_SS_STEP_SIZE_1 0xD2
- RegVal = ((0x00000001U << PCIE_ATTRIB_ATTR_79_ATTR_ROOT_CAP_CRS_SW_VISIBILITY_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_79_OFFSET ,0x00000020U ,0x00000020U);
- /*############################################################################################################################ */
+ * Step Size for Spread Spectrum 1
+ * (OFFSET, MASK, VALUE) (0XFD40E374, 0x000000FFU ,0x000000D2U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_SS_STEP_SIZE_1_OFFSET,
+ 0x000000FFU, 0x000000D2U);
+/*##################################################################### */
- /*Register : ATTR_43 @ 0XFD4800AC</p>
+ /*
+ * Register : L3_PLL_SS_STEP_SIZE_2 @ 0XFD40E378
- Indicates that the MSIX structures exists. If this is FALSE, then the MSIX structure cannot be accessed via either the link o
- the management port.; EP=0x0001; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_43_ATTR_MSIX_CAP_ON 0
+ * Step Size for Spread Spectrum [23:16]
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_2_SS_STEP_SIZE_2 0x1
- ATTR_43
- (OFFSET, MASK, VALUE) (0XFD4800AC, 0x00000100U ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_43_ATTR_MSIX_CAP_ON_MASK | 0 );
+ * Step Size for Spread Spectrum 2
+ * (OFFSET, MASK, VALUE) (0XFD40E378, 0x000000FFU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_SS_STEP_SIZE_2_OFFSET,
+ 0x000000FFU, 0x00000001U);
+/*##################################################################### */
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_43_ATTR_MSIX_CAP_ON_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_43_OFFSET ,0x00000100U ,0x00000000U);
- /*############################################################################################################################ */
+ /*
+ * Register : L3_PLL_SS_STEP_SIZE_3_MSB @ 0XFD40E37C
- /*Register : ATTR_48 @ 0XFD4800C0</p>
+ * Step Size for Spread Spectrum [25:24]
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_SS_STEP_SIZE_3_MSB 0x0
- MSI-X Table Size. This value is transferred to the MSI-X Message Control[10:0] field. Set to 0 if MSI-X is not enabled. Note
- hat the core does not implement the table; that must be implemented in user logic.; EP=0x0003; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_48_ATTR_MSIX_CAP_TABLE_SIZE 0
+ * Enable/Disable test mode force on SS step size
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_STEP_SIZE 0x1
- ATTR_48
- (OFFSET, MASK, VALUE) (0XFD4800C0, 0x000007FFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_48_ATTR_MSIX_CAP_TABLE_SIZE_MASK | 0 );
+ * Enable/Disable test mode force on SS no of steps
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_FORCE_SS_NUM_OF_STEPS 0x1
+
+ * Enable test mode forcing on enable Spread Spectrum
+ * PSU_SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_TM_FORCE_EN_SS 0x1
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_48_ATTR_MSIX_CAP_TABLE_SIZE_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_48_OFFSET ,0x000007FFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Enable force on enable Spread Spectrum
+ * (OFFSET, MASK, VALUE) (0XFD40E37C, 0x000000B3U ,0x000000B0U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_SS_STEP_SIZE_3_MSB_OFFSET,
+ 0x000000B3U, 0x000000B0U);
+/*##################################################################### */
- /*Register : ATTR_46 @ 0XFD4800B8</p>
+ /*
+ * Register : L2_TM_DIG_6 @ 0XFD40906C
- MSI-X Table Offset. This value is transferred to the MSI-X Table Offset field. Set to 0 if MSI-X is not enabled.; EP=0x0001;
- P=0x0000
- PSU_PCIE_ATTRIB_ATTR_46_ATTR_MSIX_CAP_TABLE_OFFSET 0
+ * Bypass Descrambler
+ * PSU_SERDES_L2_TM_DIG_6_BYPASS_DESCRAM 0x1
- ATTR_46
- (OFFSET, MASK, VALUE) (0XFD4800B8, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_46_ATTR_MSIX_CAP_TABLE_OFFSET_MASK | 0 );
+ * Enable Bypass for <1> TM_DIG_CTRL_6
+ * PSU_SERDES_L2_TM_DIG_6_FORCE_BYPASS_DESCRAM 0x1
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_46_ATTR_MSIX_CAP_TABLE_OFFSET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_46_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Data path test modes in decoder and descram
+ * (OFFSET, MASK, VALUE) (0XFD40906C, 0x00000003U ,0x00000003U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_DIG_6_OFFSET, 0x00000003U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TX_DIG_TM_61 @ 0XFD4080F4
- /*Register : ATTR_47 @ 0XFD4800BC</p>
+ * Bypass scrambler signal
+ * PSU_SERDES_L2_TX_DIG_TM_61_BYPASS_SCRAM 0x1
- MSI-X Table Offset. This value is transferred to the MSI-X Table Offset field. Set to 0 if MSI-X is not enabled.; EP=0x0000;
- P=0x0000
- PSU_PCIE_ATTRIB_ATTR_47_ATTR_MSIX_CAP_TABLE_OFFSET 0
+ * Enable/disable scrambler bypass signal
+ * PSU_SERDES_L2_TX_DIG_TM_61_FORCE_BYPASS_SCRAM 0x1
+
+ * MPHY PLL Gear and bypass scrambler
+ * (OFFSET, MASK, VALUE) (0XFD4080F4, 0x00000003U ,0x00000003U)
+ */
+ PSU_Mask_Write(SERDES_L2_TX_DIG_TM_61_OFFSET,
+ 0x00000003U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_PLL_FBDIV_FRAC_3_MSB @ 0XFD40E360
+
+ * Enable test mode force on fractional mode enable
+ * PSU_SERDES_L3_PLL_FBDIV_FRAC_3_MSB_TM_FORCE_EN_FRAC 0x1
+
+ * Fractional feedback division control and fractional value for feedback d
+ * ivision bits 26:24
+ * (OFFSET, MASK, VALUE) (0XFD40E360, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L3_PLL_FBDIV_FRAC_3_MSB_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
- ATTR_47
- (OFFSET, MASK, VALUE) (0XFD4800BC, 0x00001FFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_47_ATTR_MSIX_CAP_TABLE_OFFSET_MASK | 0 );
+ /*
+ * Register : L3_TM_DIG_6 @ 0XFD40D06C
+
+ * Bypass 8b10b decoder
+ * PSU_SERDES_L3_TM_DIG_6_BYPASS_DECODER 0x1
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_47_ATTR_MSIX_CAP_TABLE_OFFSET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_47_OFFSET ,0x00001FFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * Enable Bypass for <3> TM_DIG_CTRL_6
+ * PSU_SERDES_L3_TM_DIG_6_FORCE_BYPASS_DEC 0x1
- /*Register : ATTR_44 @ 0XFD4800B0</p>
+ * Bypass Descrambler
+ * PSU_SERDES_L3_TM_DIG_6_BYPASS_DESCRAM 0x1
- MSI-X Pending Bit Array Offset This value is transferred to the MSI-X PBA Offset field. Set to 0 if MSI-X is not enabled.; EP
- 0x0001; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_44_ATTR_MSIX_CAP_PBA_OFFSET 0
+ * Enable Bypass for <1> TM_DIG_CTRL_6
+ * PSU_SERDES_L3_TM_DIG_6_FORCE_BYPASS_DESCRAM 0x1
+
+ * Data path test modes in decoder and descram
+ * (OFFSET, MASK, VALUE) (0XFD40D06C, 0x0000000FU ,0x0000000FU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_DIG_6_OFFSET, 0x0000000FU, 0x0000000FU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TX_DIG_TM_61 @ 0XFD40C0F4
+
+ * Enable/disable encoder bypass signal
+ * PSU_SERDES_L3_TX_DIG_TM_61_BYPASS_ENC 0x1
+
+ * Bypass scrambler signal
+ * PSU_SERDES_L3_TX_DIG_TM_61_BYPASS_SCRAM 0x1
+
+ * Enable/disable scrambler bypass signal
+ * PSU_SERDES_L3_TX_DIG_TM_61_FORCE_BYPASS_SCRAM 0x1
- ATTR_44
- (OFFSET, MASK, VALUE) (0XFD4800B0, 0x0000FFFFU ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_44_ATTR_MSIX_CAP_PBA_OFFSET_MASK | 0 );
+ * MPHY PLL Gear and bypass scrambler
+ * (OFFSET, MASK, VALUE) (0XFD40C0F4, 0x0000000BU ,0x0000000BU)
+ */
+ PSU_Mask_Write(SERDES_L3_TX_DIG_TM_61_OFFSET,
+ 0x0000000BU, 0x0000000BU);
+/*##################################################################### */
+
+ /*
+ * ENABLE CHICKEN BIT FOR PCIE AND USB
+ */
+ /*
+ * Register : L0_TM_AUX_0 @ 0XFD4010CC
+
+ * Spare- not used
+ * PSU_SERDES_L0_TM_AUX_0_BIT_2 1
+
+ * Spare registers
+ * (OFFSET, MASK, VALUE) (0XFD4010CC, 0x00000020U ,0x00000020U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_AUX_0_OFFSET, 0x00000020U, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_AUX_0 @ 0XFD4090CC
+
+ * Spare- not used
+ * PSU_SERDES_L2_TM_AUX_0_BIT_2 1
+
+ * Spare registers
+ * (OFFSET, MASK, VALUE) (0XFD4090CC, 0x00000020U ,0x00000020U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_AUX_0_OFFSET, 0x00000020U, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * ENABLING EYE SURF
+ */
+ /*
+ * Register : L0_TM_DIG_8 @ 0XFD401074
+
+ * Enable Eye Surf
+ * PSU_SERDES_L0_TM_DIG_8_EYESURF_ENABLE 0x1
+
+ * Test modes for Elastic buffer and enabling Eye Surf
+ * (OFFSET, MASK, VALUE) (0XFD401074, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_DIG_8_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_DIG_8 @ 0XFD405074
+
+ * Enable Eye Surf
+ * PSU_SERDES_L1_TM_DIG_8_EYESURF_ENABLE 0x1
+
+ * Test modes for Elastic buffer and enabling Eye Surf
+ * (OFFSET, MASK, VALUE) (0XFD405074, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_DIG_8_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_DIG_8 @ 0XFD409074
+
+ * Enable Eye Surf
+ * PSU_SERDES_L2_TM_DIG_8_EYESURF_ENABLE 0x1
+
+ * Test modes for Elastic buffer and enabling Eye Surf
+ * (OFFSET, MASK, VALUE) (0XFD409074, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_DIG_8_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_DIG_8 @ 0XFD40D074
+
+ * Enable Eye Surf
+ * PSU_SERDES_L3_TM_DIG_8_EYESURF_ENABLE 0x1
+
+ * Test modes for Elastic buffer and enabling Eye Surf
+ * (OFFSET, MASK, VALUE) (0XFD40D074, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_DIG_8_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * ILL SETTINGS FOR GAIN AND LOCK SETTINGS
+ */
+ /*
+ * Register : L0_TM_MISC2 @ 0XFD40189C
+
+ * ILL calib counts BYPASSED with calcode bits
+ * PSU_SERDES_L0_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1
+
+ * sampler cal
+ * (OFFSET, MASK, VALUE) (0XFD40189C, 0x00000080U ,0x00000080U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_MISC2_OFFSET, 0x00000080U, 0x00000080U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_IQ_ILL1 @ 0XFD4018F8
+
+ * IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 ,
+ * USB3 : SS
+ * PSU_SERDES_L0_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x64
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD4018F8, 0x000000FFU ,0x00000064U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_IQ_ILL1_OFFSET,
+ 0x000000FFU, 0x00000064U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_IQ_ILL2 @ 0XFD4018FC
+
+ * IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
+ * PSU_SERDES_L0_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x64
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD4018FC, 0x000000FFU ,0x00000064U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_IQ_ILL2_OFFSET,
+ 0x000000FFU, 0x00000064U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_ILL12 @ 0XFD401990
+
+ * G1A pll ctr bypass value
+ * PSU_SERDES_L0_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x11
+
+ * ill pll counter values
+ * (OFFSET, MASK, VALUE) (0XFD401990, 0x000000FFU ,0x00000011U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_ILL12_OFFSET, 0x000000FFU, 0x00000011U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_E_ILL1 @ 0XFD401924
+
+ * E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , U
+ * SB3 : SS
+ * PSU_SERDES_L0_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0x4
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD401924, 0x000000FFU ,0x00000004U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_E_ILL1_OFFSET, 0x000000FFU, 0x00000004U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_E_ILL2 @ 0XFD401928
+
+ * E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
+ * PSU_SERDES_L0_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0xFE
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD401928, 0x000000FFU ,0x000000FEU)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_E_ILL2_OFFSET, 0x000000FFU, 0x000000FEU);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_IQ_ILL3 @ 0XFD401900
+
+ * IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
+ * PSU_SERDES_L0_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x64
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD401900, 0x000000FFU ,0x00000064U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_IQ_ILL3_OFFSET,
+ 0x000000FFU, 0x00000064U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_E_ILL3 @ 0XFD40192C
+
+ * E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
+ * PSU_SERDES_L0_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x0
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40192C, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_E_ILL3_OFFSET, 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_ILL8 @ 0XFD401980
+
+ * ILL calibration code change wait time
+ * PSU_SERDES_L0_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF
+
+ * ILL cal routine control
+ * (OFFSET, MASK, VALUE) (0XFD401980, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_ILL8_OFFSET, 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_IQ_ILL8 @ 0XFD401914
+
+ * IQ ILL polytrim bypass value
+ * PSU_SERDES_L0_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7
+
+ * iqpi polytrim
+ * (OFFSET, MASK, VALUE) (0XFD401914, 0x000000FFU ,0x000000F7U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_IQ_ILL8_OFFSET,
+ 0x000000FFU, 0x000000F7U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_IQ_ILL9 @ 0XFD401918
+
+ * bypass IQ polytrim
+ * PSU_SERDES_L0_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1
+
+ * enables for lf,constant gm trim and polytirm
+ * (OFFSET, MASK, VALUE) (0XFD401918, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_IQ_ILL9_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_E_ILL8 @ 0XFD401940
+
+ * E ILL polytrim bypass value
+ * PSU_SERDES_L0_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7
+
+ * epi polytrim
+ * (OFFSET, MASK, VALUE) (0XFD401940, 0x000000FFU ,0x000000F7U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_E_ILL8_OFFSET, 0x000000FFU, 0x000000F7U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_E_ILL9 @ 0XFD401944
+
+ * bypass E polytrim
+ * PSU_SERDES_L0_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1
+
+ * enables for lf,constant gm trim and polytirm
+ * (OFFSET, MASK, VALUE) (0XFD401944, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_E_ILL9_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_ILL13 @ 0XFD401994
+
+ * ILL cal idle val refcnt
+ * PSU_SERDES_L0_TM_ILL13_ILL_CAL_IDLE_VAL_REFCNT 0x7
+
+ * ill cal idle value count
+ * (OFFSET, MASK, VALUE) (0XFD401994, 0x00000007U ,0x00000007U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_ILL13_OFFSET, 0x00000007U, 0x00000007U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_ILL13 @ 0XFD405994
+
+ * ILL cal idle val refcnt
+ * PSU_SERDES_L1_TM_ILL13_ILL_CAL_IDLE_VAL_REFCNT 0x7
+
+ * ill cal idle value count
+ * (OFFSET, MASK, VALUE) (0XFD405994, 0x00000007U ,0x00000007U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_ILL13_OFFSET, 0x00000007U, 0x00000007U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_MISC2 @ 0XFD40989C
+
+ * ILL calib counts BYPASSED with calcode bits
+ * PSU_SERDES_L2_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1
+
+ * sampler cal
+ * (OFFSET, MASK, VALUE) (0XFD40989C, 0x00000080U ,0x00000080U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_MISC2_OFFSET, 0x00000080U, 0x00000080U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_IQ_ILL1 @ 0XFD4098F8
+
+ * IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 ,
+ * USB3 : SS
+ * PSU_SERDES_L2_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x1A
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD4098F8, 0x000000FFU ,0x0000001AU)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_IQ_ILL1_OFFSET,
+ 0x000000FFU, 0x0000001AU);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_IQ_ILL2 @ 0XFD4098FC
+
+ * IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
+ * PSU_SERDES_L2_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x1A
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD4098FC, 0x000000FFU ,0x0000001AU)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_IQ_ILL2_OFFSET,
+ 0x000000FFU, 0x0000001AU);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_ILL12 @ 0XFD409990
+
+ * G1A pll ctr bypass value
+ * PSU_SERDES_L2_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x10
+
+ * ill pll counter values
+ * (OFFSET, MASK, VALUE) (0XFD409990, 0x000000FFU ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_ILL12_OFFSET, 0x000000FFU, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_E_ILL1 @ 0XFD409924
+
+ * E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , U
+ * SB3 : SS
+ * PSU_SERDES_L2_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0xFE
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD409924, 0x000000FFU ,0x000000FEU)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_E_ILL1_OFFSET, 0x000000FFU, 0x000000FEU);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_E_ILL2 @ 0XFD409928
+
+ * E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
+ * PSU_SERDES_L2_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0x0
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD409928, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_E_ILL2_OFFSET, 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_IQ_ILL3 @ 0XFD409900
+
+ * IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
+ * PSU_SERDES_L2_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x1A
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD409900, 0x000000FFU ,0x0000001AU)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_IQ_ILL3_OFFSET,
+ 0x000000FFU, 0x0000001AU);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_E_ILL3 @ 0XFD40992C
+
+ * E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
+ * PSU_SERDES_L2_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x0
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40992C, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_E_ILL3_OFFSET, 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_ILL8 @ 0XFD409980
+
+ * ILL calibration code change wait time
+ * PSU_SERDES_L2_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF
+
+ * ILL cal routine control
+ * (OFFSET, MASK, VALUE) (0XFD409980, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_ILL8_OFFSET, 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_IQ_ILL8 @ 0XFD409914
+
+ * IQ ILL polytrim bypass value
+ * PSU_SERDES_L2_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7
+
+ * iqpi polytrim
+ * (OFFSET, MASK, VALUE) (0XFD409914, 0x000000FFU ,0x000000F7U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_IQ_ILL8_OFFSET,
+ 0x000000FFU, 0x000000F7U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_IQ_ILL9 @ 0XFD409918
+
+ * bypass IQ polytrim
+ * PSU_SERDES_L2_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1
+
+ * enables for lf,constant gm trim and polytirm
+ * (OFFSET, MASK, VALUE) (0XFD409918, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_IQ_ILL9_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_E_ILL8 @ 0XFD409940
+
+ * E ILL polytrim bypass value
+ * PSU_SERDES_L2_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7
+
+ * epi polytrim
+ * (OFFSET, MASK, VALUE) (0XFD409940, 0x000000FFU ,0x000000F7U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_E_ILL8_OFFSET, 0x000000FFU, 0x000000F7U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_E_ILL9 @ 0XFD409944
+
+ * bypass E polytrim
+ * PSU_SERDES_L2_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1
+
+ * enables for lf,constant gm trim and polytirm
+ * (OFFSET, MASK, VALUE) (0XFD409944, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_E_ILL9_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_ILL13 @ 0XFD409994
+
+ * ILL cal idle val refcnt
+ * PSU_SERDES_L2_TM_ILL13_ILL_CAL_IDLE_VAL_REFCNT 0x7
+
+ * ill cal idle value count
+ * (OFFSET, MASK, VALUE) (0XFD409994, 0x00000007U ,0x00000007U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_ILL13_OFFSET, 0x00000007U, 0x00000007U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_MISC2 @ 0XFD40D89C
+
+ * ILL calib counts BYPASSED with calcode bits
+ * PSU_SERDES_L3_TM_MISC2_ILL_CAL_BYPASS_COUNTS 0x1
+
+ * sampler cal
+ * (OFFSET, MASK, VALUE) (0XFD40D89C, 0x00000080U ,0x00000080U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_MISC2_OFFSET, 0x00000080U, 0x00000080U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_IQ_ILL1 @ 0XFD40D8F8
+
+ * IQ ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 ,
+ * USB3 : SS
+ * PSU_SERDES_L3_TM_IQ_ILL1_ILL_BYPASS_IQ_CALCODE_F0 0x7D
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40D8F8, 0x000000FFU ,0x0000007DU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_IQ_ILL1_OFFSET,
+ 0x000000FFU, 0x0000007DU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_IQ_ILL2 @ 0XFD40D8FC
+
+ * IQ ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
+ * PSU_SERDES_L3_TM_IQ_ILL2_ILL_BYPASS_IQ_CALCODE_F1 0x7D
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40D8FC, 0x000000FFU ,0x0000007DU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_IQ_ILL2_OFFSET,
+ 0x000000FFU, 0x0000007DU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_ILL12 @ 0XFD40D990
+
+ * G1A pll ctr bypass value
+ * PSU_SERDES_L3_TM_ILL12_G1A_PLL_CTR_BYP_VAL 0x1
+
+ * ill pll counter values
+ * (OFFSET, MASK, VALUE) (0XFD40D990, 0x000000FFU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_ILL12_OFFSET, 0x000000FFU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_E_ILL1 @ 0XFD40D924
+
+ * E ILL F0 CALCODE bypass value. MPHY : G1a, PCIE : Gen 1, SATA : Gen1 , U
+ * SB3 : SS
+ * PSU_SERDES_L3_TM_E_ILL1_ILL_BYPASS_E_CALCODE_F0 0x9C
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40D924, 0x000000FFU ,0x0000009CU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_E_ILL1_OFFSET, 0x000000FFU, 0x0000009CU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_E_ILL2 @ 0XFD40D928
+
+ * E ILL F1 CALCODE bypass value. MPHY : G1b, PCIE : Gen2, SATA: Gen2
+ * PSU_SERDES_L3_TM_E_ILL2_ILL_BYPASS_E_CALCODE_F1 0x39
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40D928, 0x000000FFU ,0x00000039U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_E_ILL2_OFFSET, 0x000000FFU, 0x00000039U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_ILL11 @ 0XFD40D98C
+
+ * G2A_PCIe1 PLL ctr bypass value
+ * PSU_SERDES_L3_TM_ILL11_G2A_PCIEG1_PLL_CTR_11_8_BYP_VAL 0x2
+
+ * ill pll counter values
+ * (OFFSET, MASK, VALUE) (0XFD40D98C, 0x000000F0U ,0x00000020U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_ILL11_OFFSET, 0x000000F0U, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_IQ_ILL3 @ 0XFD40D900
+
+ * IQ ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
+ * PSU_SERDES_L3_TM_IQ_ILL3_ILL_BYPASS_IQ_CALCODE_F2 0x7D
+
+ * iqpi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40D900, 0x000000FFU ,0x0000007DU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_IQ_ILL3_OFFSET,
+ 0x000000FFU, 0x0000007DU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_E_ILL3 @ 0XFD40D92C
+
+ * E ILL F2CALCODE bypass value. MPHY : G2a, SATA : Gen3
+ * PSU_SERDES_L3_TM_E_ILL3_ILL_BYPASS_E_CALCODE_F2 0x64
+
+ * epi cal code
+ * (OFFSET, MASK, VALUE) (0XFD40D92C, 0x000000FFU ,0x00000064U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_E_ILL3_OFFSET, 0x000000FFU, 0x00000064U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_ILL8 @ 0XFD40D980
+
+ * ILL calibration code change wait time
+ * PSU_SERDES_L3_TM_ILL8_ILL_CAL_ITER_WAIT 0xFF
+
+ * ILL cal routine control
+ * (OFFSET, MASK, VALUE) (0XFD40D980, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_ILL8_OFFSET, 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_IQ_ILL8 @ 0XFD40D914
+
+ * IQ ILL polytrim bypass value
+ * PSU_SERDES_L3_TM_IQ_ILL8_ILL_BYPASS_IQ_POLYTRIM_VAL 0xF7
+
+ * iqpi polytrim
+ * (OFFSET, MASK, VALUE) (0XFD40D914, 0x000000FFU ,0x000000F7U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_IQ_ILL8_OFFSET,
+ 0x000000FFU, 0x000000F7U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_IQ_ILL9 @ 0XFD40D918
+
+ * bypass IQ polytrim
+ * PSU_SERDES_L3_TM_IQ_ILL9_ILL_BYPASS_IQ_POLYTIM 0x1
+
+ * enables for lf,constant gm trim and polytirm
+ * (OFFSET, MASK, VALUE) (0XFD40D918, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_IQ_ILL9_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_E_ILL8 @ 0XFD40D940
+
+ * E ILL polytrim bypass value
+ * PSU_SERDES_L3_TM_E_ILL8_ILL_BYPASS_E_POLYTRIM_VAL 0xF7
+
+ * epi polytrim
+ * (OFFSET, MASK, VALUE) (0XFD40D940, 0x000000FFU ,0x000000F7U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_E_ILL8_OFFSET, 0x000000FFU, 0x000000F7U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_E_ILL9 @ 0XFD40D944
+
+ * bypass E polytrim
+ * PSU_SERDES_L3_TM_E_ILL9_ILL_BYPASS_E_POLYTIM 0x1
+
+ * enables for lf,constant gm trim and polytirm
+ * (OFFSET, MASK, VALUE) (0XFD40D944, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_E_ILL9_OFFSET, 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_ILL13 @ 0XFD40D994
+
+ * ILL cal idle val refcnt
+ * PSU_SERDES_L3_TM_ILL13_ILL_CAL_IDLE_VAL_REFCNT 0x7
+
+ * ill cal idle value count
+ * (OFFSET, MASK, VALUE) (0XFD40D994, 0x00000007U ,0x00000007U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_ILL13_OFFSET, 0x00000007U, 0x00000007U);
+/*##################################################################### */
+
+ /*
+ * SYMBOL LOCK AND WAIT
+ */
+ /*
+ * Register : L0_TM_DIG_10 @ 0XFD40107C
+
+ * CDR lock wait time. (1-16 us). cdr_lock_wait_time = 4'b xxxx + 4'b 0001
+ * PSU_SERDES_L0_TM_DIG_10_CDR_BIT_LOCK_TIME 0x1
+
+ * test control for changing cdr lock wait time
+ * (OFFSET, MASK, VALUE) (0XFD40107C, 0x0000000FU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_DIG_10_OFFSET, 0x0000000FU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_DIG_10 @ 0XFD40507C
+
+ * CDR lock wait time. (1-16 us). cdr_lock_wait_time = 4'b xxxx + 4'b 0001
+ * PSU_SERDES_L1_TM_DIG_10_CDR_BIT_LOCK_TIME 0x1
+
+ * test control for changing cdr lock wait time
+ * (OFFSET, MASK, VALUE) (0XFD40507C, 0x0000000FU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_DIG_10_OFFSET, 0x0000000FU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_DIG_10 @ 0XFD40907C
+
+ * CDR lock wait time. (1-16 us). cdr_lock_wait_time = 4'b xxxx + 4'b 0001
+ * PSU_SERDES_L2_TM_DIG_10_CDR_BIT_LOCK_TIME 0x1
+
+ * test control for changing cdr lock wait time
+ * (OFFSET, MASK, VALUE) (0XFD40907C, 0x0000000FU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_DIG_10_OFFSET, 0x0000000FU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_DIG_10 @ 0XFD40D07C
+
+ * CDR lock wait time. (1-16 us). cdr_lock_wait_time = 4'b xxxx + 4'b 0001
+ * PSU_SERDES_L3_TM_DIG_10_CDR_BIT_LOCK_TIME 0x1
+
+ * test control for changing cdr lock wait time
+ * (OFFSET, MASK, VALUE) (0XFD40D07C, 0x0000000FU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_DIG_10_OFFSET, 0x0000000FU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * SIOU SETTINGS FOR BYPASS CONTROL,HSRX-DIG
+ */
+ /*
+ * Register : L0_TM_RST_DLY @ 0XFD4019A4
+
+ * Delay apb reset by specified amount
+ * PSU_SERDES_L0_TM_RST_DLY_APB_RST_DLY 0xFF
+
+ * reset delay for apb reset w.r.t pso of hsrx
+ * (OFFSET, MASK, VALUE) (0XFD4019A4, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_RST_DLY_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_ANA_BYP_15 @ 0XFD401038
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_15
+ * PSU_SERDES_L0_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+
+ * Bypass control for pcs-pma interface. EQ supplies, main master supply an
+ * d ps for samp c2c
+ * (OFFSET, MASK, VALUE) (0XFD401038, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_ANA_BYP_15_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L0_TM_ANA_BYP_12 @ 0XFD40102C
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_12
+ * PSU_SERDES_L0_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+
+ * Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr ena
+ * ble controls
+ * (OFFSET, MASK, VALUE) (0XFD40102C, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_ANA_BYP_12_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_RST_DLY @ 0XFD4059A4
+
+ * Delay apb reset by specified amount
+ * PSU_SERDES_L1_TM_RST_DLY_APB_RST_DLY 0xFF
+
+ * reset delay for apb reset w.r.t pso of hsrx
+ * (OFFSET, MASK, VALUE) (0XFD4059A4, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_RST_DLY_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_ANA_BYP_15 @ 0XFD405038
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_15
+ * PSU_SERDES_L1_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+
+ * Bypass control for pcs-pma interface. EQ supplies, main master supply an
+ * d ps for samp c2c
+ * (OFFSET, MASK, VALUE) (0XFD405038, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_ANA_BYP_15_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_ANA_BYP_12 @ 0XFD40502C
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_12
+ * PSU_SERDES_L1_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+
+ * Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr ena
+ * ble controls
+ * (OFFSET, MASK, VALUE) (0XFD40502C, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_ANA_BYP_12_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_RST_DLY @ 0XFD4099A4
+
+ * Delay apb reset by specified amount
+ * PSU_SERDES_L2_TM_RST_DLY_APB_RST_DLY 0xFF
+
+ * reset delay for apb reset w.r.t pso of hsrx
+ * (OFFSET, MASK, VALUE) (0XFD4099A4, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_RST_DLY_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_ANA_BYP_15 @ 0XFD409038
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_15
+ * PSU_SERDES_L2_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+
+ * Bypass control for pcs-pma interface. EQ supplies, main master supply an
+ * d ps for samp c2c
+ * (OFFSET, MASK, VALUE) (0XFD409038, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_ANA_BYP_15_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_ANA_BYP_12 @ 0XFD40902C
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_12
+ * PSU_SERDES_L2_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+
+ * Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr ena
+ * ble controls
+ * (OFFSET, MASK, VALUE) (0XFD40902C, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_ANA_BYP_12_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_RST_DLY @ 0XFD40D9A4
+
+ * Delay apb reset by specified amount
+ * PSU_SERDES_L3_TM_RST_DLY_APB_RST_DLY 0xFF
+
+ * reset delay for apb reset w.r.t pso of hsrx
+ * (OFFSET, MASK, VALUE) (0XFD40D9A4, 0x000000FFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_RST_DLY_OFFSET,
+ 0x000000FFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_ANA_BYP_15 @ 0XFD40D038
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_15
+ * PSU_SERDES_L3_TM_ANA_BYP_15_FORCE_UPHY_ENABLE_LOW_LEAKAGE 0x1
+
+ * Bypass control for pcs-pma interface. EQ supplies, main master supply an
+ * d ps for samp c2c
+ * (OFFSET, MASK, VALUE) (0XFD40D038, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_ANA_BYP_15_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_ANA_BYP_12 @ 0XFD40D02C
+
+ * Enable Bypass for <7> of TM_ANA_BYPS_12
+ * PSU_SERDES_L3_TM_ANA_BYP_12_FORCE_UPHY_PSO_HSRXDIG 0x1
+
+ * Bypass control for pcs-pma interface. Hsrx supply, hsrx des, and cdr ena
+ * ble controls
+ * (OFFSET, MASK, VALUE) (0XFD40D02C, 0x00000040U ,0x00000040U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_ANA_BYP_12_OFFSET,
+ 0x00000040U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * DISABLE FPL/FFL
+ */
+ /*
+ * Register : L0_TM_MISC3 @ 0XFD4019AC
+
+ * CDR fast phase lock control
+ * PSU_SERDES_L0_TM_MISC3_CDR_EN_FPL 0x0
+
+ * CDR fast frequency lock control
+ * PSU_SERDES_L0_TM_MISC3_CDR_EN_FFL 0x0
+
+ * debug bus selection bit, cdr fast phase and freq controls
+ * (OFFSET, MASK, VALUE) (0XFD4019AC, 0x00000003U ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_MISC3_OFFSET, 0x00000003U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_MISC3 @ 0XFD4059AC
+
+ * CDR fast phase lock control
+ * PSU_SERDES_L1_TM_MISC3_CDR_EN_FPL 0x0
+
+ * CDR fast frequency lock control
+ * PSU_SERDES_L1_TM_MISC3_CDR_EN_FFL 0x0
+
+ * debug bus selection bit, cdr fast phase and freq controls
+ * (OFFSET, MASK, VALUE) (0XFD4059AC, 0x00000003U ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_MISC3_OFFSET, 0x00000003U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_MISC3 @ 0XFD4099AC
+
+ * CDR fast phase lock control
+ * PSU_SERDES_L2_TM_MISC3_CDR_EN_FPL 0x0
+
+ * CDR fast frequency lock control
+ * PSU_SERDES_L2_TM_MISC3_CDR_EN_FFL 0x0
+
+ * debug bus selection bit, cdr fast phase and freq controls
+ * (OFFSET, MASK, VALUE) (0XFD4099AC, 0x00000003U ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_MISC3_OFFSET, 0x00000003U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_MISC3 @ 0XFD40D9AC
+
+ * CDR fast phase lock control
+ * PSU_SERDES_L3_TM_MISC3_CDR_EN_FPL 0x0
+
+ * CDR fast frequency lock control
+ * PSU_SERDES_L3_TM_MISC3_CDR_EN_FFL 0x0
+
+ * debug bus selection bit, cdr fast phase and freq controls
+ * (OFFSET, MASK, VALUE) (0XFD40D9AC, 0x00000003U ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_MISC3_OFFSET, 0x00000003U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * DISABLE DYNAMIC OFFSET CALIBRATION
+ */
+ /*
+ * Register : L0_TM_EQ11 @ 0XFD401978
+
+ * Force EQ offset correction algo off if not forced on
+ * PSU_SERDES_L0_TM_EQ11_FORCE_EQ_OFFS_OFF 0x1
+
+ * eq dynamic offset correction
+ * (OFFSET, MASK, VALUE) (0XFD401978, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L0_TM_EQ11_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TM_EQ11 @ 0XFD405978
+
+ * Force EQ offset correction algo off if not forced on
+ * PSU_SERDES_L1_TM_EQ11_FORCE_EQ_OFFS_OFF 0x1
+
+ * eq dynamic offset correction
+ * (OFFSET, MASK, VALUE) (0XFD405978, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L1_TM_EQ11_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L2_TM_EQ11 @ 0XFD409978
+
+ * Force EQ offset correction algo off if not forced on
+ * PSU_SERDES_L2_TM_EQ11_FORCE_EQ_OFFS_OFF 0x1
+
+ * eq dynamic offset correction
+ * (OFFSET, MASK, VALUE) (0XFD409978, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L2_TM_EQ11_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_EQ11 @ 0XFD40D978
+
+ * Force EQ offset correction algo off if not forced on
+ * PSU_SERDES_L3_TM_EQ11_FORCE_EQ_OFFS_OFF 0x1
+
+ * eq dynamic offset correction
+ * (OFFSET, MASK, VALUE) (0XFD40D978, 0x00000010U ,0x00000010U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_EQ11_OFFSET, 0x00000010U, 0x00000010U);
+/*##################################################################### */
+
+ /*
+ * DISABLE ECO FOR PCIE
+ */
+ /*
+ * Register : eco_0 @ 0XFD3D001C
+
+ * For future use
+ * PSU_SIOU_ECO_0_FIELD 0x1
+
+ * ECO Register for future use
+ * (OFFSET, MASK, VALUE) (0XFD3D001C, 0xFFFFFFFFU ,0x00000001U)
+ */
+ PSU_Mask_Write(SIOU_ECO_0_OFFSET, 0xFFFFFFFFU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * GT LANE SETTINGS
+ */
+ /*
+ * Register : ICM_CFG0 @ 0XFD410010
+
+ * Controls UPHY Lane 0 protocol configuration. 0 - PowerDown, 1 - PCIe .0,
+ * 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII0, 6 - Unused, 7 - Unused
+ * PSU_SERDES_ICM_CFG0_L0_ICM_CFG 1
+
+ * Controls UPHY Lane 1 protocol configuration. 0 - PowerDown, 1 - PCIe.1,
+ * 2 - Sata1, 3 - USB0, 4 - DP.0, 5 - SGMII1, 6 - Unused, 7 - Unused
+ * PSU_SERDES_ICM_CFG0_L1_ICM_CFG 4
+
+ * ICM Configuration Register 0
+ * (OFFSET, MASK, VALUE) (0XFD410010, 0x00000077U ,0x00000041U)
+ */
+ PSU_Mask_Write(SERDES_ICM_CFG0_OFFSET, 0x00000077U, 0x00000041U);
+/*##################################################################### */
+
+ /*
+ * Register : ICM_CFG1 @ 0XFD410014
+
+ * Controls UPHY Lane 2 protocol configuration. 0 - PowerDown, 1 - PCIe.1,
+ * 2 - Sata0, 3 - USB0, 4 - DP.1, 5 - SGMII2, 6 - Unused, 7 - Unused
+ * PSU_SERDES_ICM_CFG1_L2_ICM_CFG 3
+
+ * Controls UPHY Lane 3 protocol configuration. 0 - PowerDown, 1 - PCIe.3,
+ * 2 - Sata1, 3 - USB1, 4 - DP.0, 5 - SGMII3, 6 - Unused, 7 - Unused
+ * PSU_SERDES_ICM_CFG1_L3_ICM_CFG 2
+
+ * ICM Configuration Register 1
+ * (OFFSET, MASK, VALUE) (0XFD410014, 0x00000077U ,0x00000023U)
+ */
+ PSU_Mask_Write(SERDES_ICM_CFG1_OFFSET, 0x00000077U, 0x00000023U);
+/*##################################################################### */
+
+ /*
+ * CHECKING PLL LOCK
+ */
+ /*
+ * ENABLE SERIAL DATA MUX DEEMPH
+ */
+ /*
+ * Register : L1_TXPMD_TM_45 @ 0XFD404CB4
+
+ * Enable/disable DP post2 path
+ * PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_POST2_PATH 0x1
+
+ * Override enable/disable of DP post2 path
+ * PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST2_PATH 0x1
+
+ * Override enable/disable of DP post1 path
+ * PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_POST1_PATH 0x1
+
+ * Enable/disable DP main path
+ * PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_DP_ENABLE_MAIN_PATH 0x1
+
+ * Override enable/disable of DP main path
+ * PSU_SERDES_L1_TXPMD_TM_45_DP_TM_TX_OVRD_DP_ENABLE_MAIN_PATH 0x1
+
+ * Post or pre or main DP path selection
+ * (OFFSET, MASK, VALUE) (0XFD404CB4, 0x00000037U ,0x00000037U)
+ */
+ PSU_Mask_Write(SERDES_L1_TXPMD_TM_45_OFFSET,
+ 0x00000037U, 0x00000037U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TX_ANA_TM_118 @ 0XFD4041D8
+
+ * Test register force for enabling/disablign TX deemphasis bits <17:0>
+ * PSU_SERDES_L1_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1
+
+ * Enable Override of TX deemphasis
+ * (OFFSET, MASK, VALUE) (0XFD4041D8, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L1_TX_ANA_TM_118_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TX_ANA_TM_118 @ 0XFD40C1D8
+
+ * Test register force for enabling/disablign TX deemphasis bits <17:0>
+ * PSU_SERDES_L3_TX_ANA_TM_118_FORCE_TX_DEEMPH_17_0 0x1
+
+ * Enable Override of TX deemphasis
+ * (OFFSET, MASK, VALUE) (0XFD40C1D8, 0x00000001U ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_TX_ANA_TM_118_OFFSET,
+ 0x00000001U, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * CDR AND RX EQUALIZATION SETTINGS
+ */
+ /*
+ * Register : L3_TM_CDR5 @ 0XFD40DC14
+
+ * FPHL FSM accumulate cycles
+ * PSU_SERDES_L3_TM_CDR5_FPHL_FSM_ACC_CYCLES 0x7
+
+ * FFL Phase0 int gain aka 2ol SD update rate
+ * PSU_SERDES_L3_TM_CDR5_FFL_PH0_INT_GAIN 0x6
+
+ * Fast phase lock controls -- FSM accumulator cycle control and phase 0 in
+ * t gain control.
+ * (OFFSET, MASK, VALUE) (0XFD40DC14, 0x000000FFU ,0x000000E6U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_CDR5_OFFSET, 0x000000FFU, 0x000000E6U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_CDR16 @ 0XFD40DC40
+
+ * FFL Phase0 prop gain aka 1ol SD update rate
+ * PSU_SERDES_L3_TM_CDR16_FFL_PH0_PROP_GAIN 0xC
+
+ * Fast phase lock controls -- phase 0 prop gain
+ * (OFFSET, MASK, VALUE) (0XFD40DC40, 0x0000001FU ,0x0000000CU)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_CDR16_OFFSET, 0x0000001FU, 0x0000000CU);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_EQ0 @ 0XFD40D94C
+
+ * EQ stg 2 controls BYPASSED
+ * PSU_SERDES_L3_TM_EQ0_EQ_STG2_CTRL_BYP 1
+
+ * eq stg1 and stg2 controls
+ * (OFFSET, MASK, VALUE) (0XFD40D94C, 0x00000020U ,0x00000020U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_EQ0_OFFSET, 0x00000020U, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TM_EQ1 @ 0XFD40D950
+
+ * EQ STG2 RL PROG
+ * PSU_SERDES_L3_TM_EQ1_EQ_STG2_RL_PROG 0x2
+
+ * EQ stg 2 preamp mode val
+ * PSU_SERDES_L3_TM_EQ1_EQ_STG2_PREAMP_MODE_VAL 0x1
+
+ * eq stg1 and stg2 controls
+ * (OFFSET, MASK, VALUE) (0XFD40D950, 0x00000007U ,0x00000006U)
+ */
+ PSU_Mask_Write(SERDES_L3_TM_EQ1_OFFSET, 0x00000007U, 0x00000006U);
+/*##################################################################### */
+
+ /*
+ * GEM SERDES SETTINGS
+ */
+ /*
+ * ENABLE PRE EMPHAIS AND VOLTAGE SWING
+ */
+ /*
+ * Register : L1_TXPMD_TM_48 @ 0XFD404CC0
+
+ * Margining factor value
+ * PSU_SERDES_L1_TXPMD_TM_48_TM_RESULTANT_MARGINING_FACTOR 0
+
+ * Margining factor
+ * (OFFSET, MASK, VALUE) (0XFD404CC0, 0x0000001FU ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L1_TXPMD_TM_48_OFFSET,
+ 0x0000001FU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L1_TX_ANA_TM_18 @ 0XFD404048
+
+ * pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-em
+ * phasis, Others: reserved
+ * PSU_SERDES_L1_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0
+
+ * Override for PIPE TX de-emphasis
+ * (OFFSET, MASK, VALUE) (0XFD404048, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(SERDES_L1_TX_ANA_TM_18_OFFSET,
+ 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : L3_TX_ANA_TM_18 @ 0XFD40C048
+
+ * pipe_TX_Deemph. 0: -6dB de-emphasis, 1: -3.5dB de-emphasis, 2 : No de-em
+ * phasis, Others: reserved
+ * PSU_SERDES_L3_TX_ANA_TM_18_PIPE_TX_DEEMPH_7_0 0x1
+
+ * Override for PIPE TX de-emphasis
+ * (OFFSET, MASK, VALUE) (0XFD40C048, 0x000000FFU ,0x00000001U)
+ */
+ PSU_Mask_Write(SERDES_L3_TX_ANA_TM_18_OFFSET,
+ 0x000000FFU, 0x00000001U);
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_resetout_init_data(void)
+{
+ /*
+ * TAKING SERDES PERIPHERAL OUT OF RESET RESET
+ */
+ /*
+ * PUTTING USB0 IN RESET
+ */
+ /*
+ * Register : RST_LPD_TOP @ 0XFF5E023C
+
+ * USB 0 reset for control registers
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0X0
+
+ * Software control register for the LPD block.
+ * (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000400U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_TOP_OFFSET, 0x00000400U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * HIBERREST
+ */
+ /*
+ * Register : RST_LPD_TOP @ 0XFF5E023C
+
+ * USB 0 sleep circuit reset
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0X0
+
+ * USB 0 reset
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0X0
+
+ * Software control register for the LPD block.
+ * (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000140U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_TOP_OFFSET, 0x00000140U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * PUTTING GEM0 IN RESET
+ */
+ /*
+ * Register : RST_LPD_IOU0 @ 0XFF5E0230
+
+ * GEM 3 reset
+ * PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0X0
+
+ * Software controlled reset for the GEMs
+ * (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU0_OFFSET,
+ 0x00000008U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * PUTTING SATA IN RESET
+ */
+ /*
+ * Register : sata_misc_ctrl @ 0XFD3D0100
+
+ * Sata PM clock control select
+ * PSU_SIOU_SATA_MISC_CTRL_SATA_PM_CLK_SEL 0x3
+
+ * Misc Contorls for SATA.This register may only be modified during bootup
+ * (while SATA block is disabled)
+ * (OFFSET, MASK, VALUE) (0XFD3D0100, 0x00000003U ,0x00000003U)
+ */
+ PSU_Mask_Write(SIOU_SATA_MISC_CTRL_OFFSET, 0x00000003U, 0x00000003U);
+/*##################################################################### */
+
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * Sata block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0X0
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00000002U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x00000002U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * PUTTING PCIE CFG AND BRIDGE IN RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * PCIE config reset
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET 0X0
+
+ * PCIE bridge block level reset (AXI interface)
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET 0X0
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x000C0000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x000C0000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * PUTTING DP IN RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * Display Port block level reset (includes DPDMA)
+ * PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0X0
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00010000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x00010000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DP_PHY_RESET @ 0XFD4A0200
+
+ * Set to '1' to hold the GT in reset. Clear to release.
+ * PSU_DP_DP_PHY_RESET_GT_RESET 0X0
+
+ * Reset the transmitter PHY.
+ * (OFFSET, MASK, VALUE) (0XFD4A0200, 0x00000002U ,0x00000000U)
+ */
+ PSU_Mask_Write(DP_DP_PHY_RESET_OFFSET, 0x00000002U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DP_TX_PHY_POWER_DOWN @ 0XFD4A0238
+
+ * Two bits per lane. When set to 11, moves the GT to power down mode. When
+ * set to 00, GT will be in active state. bits [1:0] - lane0 Bits [3:2] -
+ * lane 1
+ * PSU_DP_DP_TX_PHY_POWER_DOWN_POWER_DWN 0X0
+
+ * Control PHY Power down
+ * (OFFSET, MASK, VALUE) (0XFD4A0238, 0x0000000FU ,0x00000000U)
+ */
+ PSU_Mask_Write(DP_DP_TX_PHY_POWER_DOWN_OFFSET,
+ 0x0000000FU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * USB0 GFLADJ
+ */
+ /*
+ * Register : GUSB2PHYCFG @ 0XFE20C200
+
+ * USB 2.0 Turnaround Time (USBTrdTim) Sets the turnaround time in PHY cloc
+ * ks. Specifies the response time for a MAC request to the Packet FIFO Con
+ * troller (PFC) to fetch data from the DFIFO (SPRAM). The following are th
+ * e required values for the minimum SoC bus frequency of 60 MHz. USB turna
+ * round time is a critical certification criteria when using long cables a
+ * nd five hub levels. The required values for this field: - 4'h5: When the
+ * MAC interface is 16-bit UTMI+. - 4'h9: When the MAC interface is 8-bit
+ * UTMI+/ULPI. If SoC bus clock is less than 60 MHz, and USB turnaround tim
+ * e is not critical, this field can be set to a larger value. Note: This f
+ * ield is valid only in device mode.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_USBTRDTIM 0x9
+
+ * Transceiver Delay: Enables a delay between the assertion of the UTMI/ULP
+ * I Transceiver Select signal (for HS) and the assertion of the TxValid si
+ * gnal during a HS Chirp. When this bit is set to 1, a delay (of approxima
+ * tely 2.5 us) is introduced from the time when the Transceiver Select is
+ * set to 2'b00 (HS) to the time the TxValid is driven to 0 for sending the
+ * chirp-K. This delay is required for some UTMI/ULPI PHYs. Note: - If you
+ * enable the hibernation feature when the device core comes out of power-
+ * off, you must re-initialize this bit with the appropriate value because
+ * the core does not save and restore this bit value during hibernation. -
+ * This bit is valid only in device mode.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_XCVRDLY 0x0
+
+ * Enable utmi_sleep_n and utmi_l1_suspend_n (EnblSlpM) The application use
+ * s this bit to control utmi_sleep_n and utmi_l1_suspend_n assertion to th
+ * e PHY in the L1 state. - 1'b0: utmi_sleep_n and utmi_l1_suspend_n assert
+ * ion from the core is not transferred to the external PHY. - 1'b1: utmi_s
+ * leep_n and utmi_l1_suspend_n assertion from the core is transferred to t
+ * he external PHY. Note: This bit must be set high for Port0 if PHY is use
+ * d. Note: In Device mode - Before issuing any device endpoint command whe
+ * n operating in 2.0 speeds, disable this bit and enable it after the comm
+ * and completes. Without disabling this bit, if a command is issued when t
+ * he device is in L1 state and if mac2_clk (utmi_clk/ulpi_clk) is gated of
+ * f, the command will not get completed.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_ENBLSLPM 0x0
+
+ * USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial Transceiver Select T
+ * he application uses this bit to select a high-speed PHY or a full-speed
+ * transceiver. - 1'b0: USB 2.0 high-speed UTMI+ or ULPI PHY. This bit is a
+ * lways 0, with Write Only access. - 1'b1: USB 1.1 full-speed serial trans
+ * ceiver. This bit is always 1, with Write Only access. If both interface
+ * types are selected in coreConsultant (that is, parameters' values are no
+ * t zero), the application uses this bit to select the active interface is
+ * active, with Read-Write bit access. Note: USB 1.1 full-serial transceiv
+ * er is not supported. This bit always reads as 1'b0.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_PHYSEL 0x0
+
+ * Suspend USB2.0 HS/FS/LS PHY (SusPHY) When set, USB2.0 PHY enters Suspend
+ * mode if Suspend conditions are valid. For DRD/OTG configurations, it is
+ * recommended that this bit is set to 0 during coreConsultant configurati
+ * on. If it is set to 1, then the application must clear this bit after po
+ * wer-on reset. Application needs to set it to 1 after the core initializa
+ * tion completes. For all other configurations, this bit can be set to 1 d
+ * uring core configuration. Note: - In host mode, on reset, this bit is se
+ * t to 1. Software can override this bit after reset. - In device mode, be
+ * fore issuing any device endpoint command when operating in 2.0 speeds, d
+ * isable this bit and enable it after the command completes. If you issue
+ * a command without disabling this bit when the device is in L2 state and
+ * if mac2_clk (utmi_clk/ulpi_clk) is gated off, the command will not get c
+ * ompleted.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_SUSPENDUSB20 0x1
+
+ * Full-Speed Serial Interface Select (FSIntf) The application uses this bi
+ * t to select a unidirectional or bidirectional USB 1.1 full-speed serial
+ * transceiver interface. - 1'b0: 6-pin unidirectional full-speed serial in
+ * terface. This bit is set to 0 with Read Only access. - 1'b1: 3-pin bidir
+ * ectional full-speed serial interface. This bit is set to 0 with Read Onl
+ * y access. Note: USB 1.1 full-speed serial interface is not supported. Th
+ * is bit always reads as 1'b0.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_FSINTF 0x0
+
+ * ULPI or UTMI+ Select (ULPI_UTMI_Sel) The application uses this bit to se
+ * lect a UTMI+ or ULPI Interface. - 1'b0: UTMI+ Interface - 1'b1: ULPI Int
+ * erface This bit is writable only if UTMI+ and ULPI is specified for High
+ * -Speed PHY Interface(s) in coreConsultant configuration (DWC_USB3_HSPHY_
+ * INTERFACE = 3). Otherwise, this bit is read-only and the value depends o
+ * n the interface selected through DWC_USB3_HSPHY_INTERFACE.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_ULPI_UTMI_SEL 0x1
+
+ * PHY Interface (PHYIf) If UTMI+ is selected, the application uses this bi
+ * t to configure the core to support a UTMI+ PHY with an 8- or 16-bit inte
+ * rface. - 1'b0: 8 bits - 1'b1: 16 bits ULPI Mode: 1'b0 Note: - All the en
+ * abled 2.0 ports must have the same clock frequency as Port0 clock freque
+ * ncy (utmi_clk[0]). - The UTMI 8-bit and 16-bit modes cannot be used toge
+ * ther for different ports at the same time (that is, all the ports must b
+ * e in 8-bit mode, or all of them must be in 16-bit mode, at a time). - If
+ * any of the USB 2.0 ports is selected as ULPI port for operation, then a
+ * ll the USB 2.0 ports must be operating at 60 MHz.
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_PHYIF 0x0
+
+ * HS/FS Timeout Calibration (TOutCal) The number of PHY clocks, as indicat
+ * ed by the application in this field, is multiplied by a bit-time factor;
+ * this factor is added to the high-speed/full-speed interpacket timeout d
+ * uration in the core to account for additional delays introduced by the P
+ * HY. This may be required, since the delay introduced by the PHY in gener
+ * ating the linestate condition may vary among PHYs. The USB standard time
+ * out value for high-speed operation is 736 to 816 (inclusive) bit times.
+ * The USB standard timeout value for full-speed operation is 16 to 18 (inc
+ * lusive) bit times. The application must program this field based on the
+ * speed of connection. The number of bit times added per PHY clock are: Hi
+ * gh-speed operation: - One 30-MHz PHY clock = 16 bit times - One 60-MHz P
+ * HY clock = 8 bit times Full-speed operation: - One 30-MHz PHY clock = 0.
+ * 4 bit times - One 60-MHz PHY clock = 0.2 bit times - One 48-MHz PHY cloc
+ * k = 0.25 bit times
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_TOUTCAL 0x7
+
+ * ULPI External VBUS Drive (ULPIExtVbusDrv) Selects supply source to drive
+ * 5V on VBUS, in the ULPI PHY. - 1'b0: PHY drives VBUS with internal char
+ * ge pump (default). - 1'b1: PHY drives VBUS with an external supply. (Onl
+ * y when RTL parameter DWC_USB3_HSPHY_INTERFACE = 2 or 3)
+ * PSU_USB3_0_XHCI_GUSB2PHYCFG_ULPIEXTVBUSDRV 0x1
+
+ * Global USB2 PHY Configuration Register The application must program this
+ * register before starting any transactions on either the SoC bus or the
+ * USB. In Device-only configurations, only one register is needed. In Host
+ * mode, per-port registers are implemented.
+ * (OFFSET, MASK, VALUE) (0XFE20C200, 0x00023FFFU ,0x00022457U)
+ */
+ PSU_Mask_Write(USB3_0_XHCI_GUSB2PHYCFG_OFFSET,
+ 0x00023FFFU, 0x00022457U);
+/*##################################################################### */
+
+ /*
+ * Register : GFLADJ @ 0XFE20C630
+
+ * This field indicates the frame length adjustment to be applied when SOF/
+ * ITP counter is running on the ref_clk. This register value is used to ad
+ * just the ITP interval when GCTL[SOFITPSYNC] is set to '1'; SOF and ITP i
+ * nterval when GLADJ.GFLADJ_REFCLK_LPM_SEL is set to '1'. This field must
+ * be programmed to a non-zero value only if GFLADJ_REFCLK_LPM_SEL is set t
+ * o '1' or GCTL.SOFITPSYNC is set to '1'. The value is derived as follows:
+ * FLADJ_REF_CLK_FLADJ=((125000/ref_clk_period_integer)-(125000/ref_clk_pe
+ * riod)) * ref_clk_period where - the ref_clk_period_integer is the intege
+ * r value of the ref_clk period got by truncating the decimal (fractional)
+ * value that is programmed in the GUCTL.REF_CLK_PERIOD field. - the ref_c
+ * lk_period is the ref_clk period including the fractional value. Examples
+ * : If the ref_clk is 24 MHz then - GUCTL.REF_CLK_PERIOD = 41 - GFLADJ.GLA
+ * DJ_REFCLK_FLADJ = ((125000/41)-(125000/41.6666))*41.6666 = 2032 (ignorin
+ * g the fractional value) If the ref_clk is 48 MHz then - GUCTL.REF_CLK_PE
+ * RIOD = 20 - GFLADJ.GLADJ_REFCLK_FLADJ = ((125000/20)-(125000/20.8333))*2
+ * 0.8333 = 5208 (ignoring the fractional value)
+ * PSU_USB3_0_XHCI_GFLADJ_GFLADJ_REFCLK_FLADJ 0x0
+
+ * Global Frame Length Adjustment Register This register provides options f
+ * or the software to control the core behavior with respect to SOF (Start
+ * of Frame) and ITP (Isochronous Timestamp Packet) timers and frame timer
+ * functionality. It provides an option to override the fladj_30mhz_reg sid
+ * eband signal. In addition, it enables running SOF or ITP frame timer cou
+ * nters completely from the ref_clk. This facilitates hardware LPM in host
+ * mode with the SOF or ITP counters being run from the ref_clk signal.
+ * (OFFSET, MASK, VALUE) (0XFE20C630, 0x003FFF00U ,0x00000000U)
+ */
+ PSU_Mask_Write(USB3_0_XHCI_GFLADJ_OFFSET, 0x003FFF00U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : GUCTL1 @ 0XFE20C11C
+
+ * When this bit is set to '0', termsel, xcvrsel will become 0 during end o
+ * f resume while the opmode will become 0 once controller completes end of
+ * resume and enters U0 state (2 separate commandswill be issued). When th
+ * is bit is set to '1', all the termsel, xcvrsel, opmode becomes 0 during
+ * end of resume itself (only 1 command will be issued)
+ * PSU_USB3_0_XHCI_GUCTL1_RESUME_TERMSEL_XCVRSEL_UNIFY 0x1
+
+ * Reserved
+ * PSU_USB3_0_XHCI_GUCTL1_RESERVED_9 0x1
+
+ * Global User Control Register 1
+ * (OFFSET, MASK, VALUE) (0XFE20C11C, 0x00000600U ,0x00000600U)
+ */
+ PSU_Mask_Write(USB3_0_XHCI_GUCTL1_OFFSET, 0x00000600U, 0x00000600U);
+/*##################################################################### */
+
+ /*
+ * Register : GUCTL @ 0XFE20C12C
+
+ * Host IN Auto Retry (USBHstInAutoRetryEn) When set, this field enables th
+ * e Auto Retry feature. For IN transfers (non-isochronous) that encounter
+ * data packets with CRC errors or internal overrun scenarios, the auto ret
+ * ry feature causes the Host core to reply to the device with a non-termin
+ * ating retry ACK (that is, an ACK transaction packet with Retry = 1 and N
+ * umP != 0). If the Auto Retry feature is disabled (default), the core wil
+ * l respond with a terminating retry ACK (that is, an ACK transaction pack
+ * et with Retry = 1 and NumP = 0). - 1'b0: Auto Retry Disabled - 1'b1: Aut
+ * o Retry Enabled Note: This bit is also applicable to the device mode.
+ * PSU_USB3_0_XHCI_GUCTL_USBHSTINAUTORETRYEN 0x1
+
+ * Global User Control Register: This register provides a few options for t
+ * he software to control the core behavior in the Host mode. Most of the o
+ * ptions are used to improve host inter-operability with different devices
+ * .
+ * (OFFSET, MASK, VALUE) (0XFE20C12C, 0x00004000U ,0x00004000U)
+ */
+ PSU_Mask_Write(USB3_0_XHCI_GUCTL_OFFSET, 0x00004000U, 0x00004000U);
+/*##################################################################### */
+
+ /*
+ * UPDATING TWO PCIE REGISTERS DEFAULT VALUES, AS THESE REGISTERS HAVE INCO
+ * RRECT RESET VALUES IN SILICON.
+ */
+ /*
+ * Register : ATTR_25 @ 0XFD480064
+
+ * If TRUE Completion Timeout Disable is supported. This is required to be
+ * TRUE for Endpoint and either setting allowed for Root ports. Drives Devi
+ * ce Capability 2 [4]; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_25_ATTR_CPL_TIMEOUT_DISABLE_SUPPORTED 0X1
+
+ * ATTR_25
+ * (OFFSET, MASK, VALUE) (0XFD480064, 0x00000200U ,0x00000200U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_25_OFFSET, 0x00000200U, 0x00000200U);
+/*##################################################################### */
+
+ /*
+ * PCIE SETTINGS
+ */
+ /*
+ * Register : ATTR_7 @ 0XFD48001C
+
+ * Specifies mask/settings for Base Address Register (BAR) 0. If BAR is not
+ * to be implemented, set to 32'h00000000. Bits are defined as follows: Me
+ * mory Space BAR [0] = Mem Space Indicator (set to 0) [2:1] = Type field (
+ * 10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask
+ * for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to 1, w
+ * here 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:
+ * n bits of \'7bBAR1,BAR0\'7d to 1. IO Space BAR 0] = IO Space Indicator (
+ * set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of B
+ * AR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in bytes.;
+ * EP=0x0004; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_7_ATTR_BAR0 0x0
+
+ * ATTR_7
+ * (OFFSET, MASK, VALUE) (0XFD48001C, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_7_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_8 @ 0XFD480020
+
+ * Specifies mask/settings for Base Address Register (BAR) 0. If BAR is not
+ * to be implemented, set to 32'h00000000. Bits are defined as follows: Me
+ * mory Space BAR [0] = Mem Space Indicator (set to 0) [2:1] = Type field (
+ * 10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = Mask
+ * for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to 1, w
+ * here 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost 63:
+ * n bits of \'7bBAR1,BAR0\'7d to 1. IO Space BAR 0] = IO Space Indicator (
+ * set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits of B
+ * AR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in bytes.;
+ * EP=0xFFF0; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_8_ATTR_BAR0 0x0
+
+ * ATTR_8
+ * (OFFSET, MASK, VALUE) (0XFD480020, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_8_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_9 @ 0XFD480024
+
+ * Specifies mask/settings for Base Address Register (BAR) 1 if BAR0 is a 3
+ * 2-bit BAR, or the upper bits of \'7bBAR1,BAR0\'7d if BAR0 is a 64-bit BA
+ * R. If BAR is not to be implemented, set to 32'h00000000. See BAR0 descri
+ * ption if this functions as the upper bits of a 64-bit BAR. Bits are defi
+ * ned as follows: Memory Space BAR (not upper bits of BAR0) [0] = Mem Spac
+ * e Indicator (set to 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit)
+ * [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if
+ * 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory aperture size
+ * in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR2,BAR1\'7d t
+ * o 1. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set
+ * to 0) [31:2] = Mask for writable bits of BAR; set uppermost 31:n bits t
+ * o 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_9_ATTR_BAR1 0x0
+
+ * ATTR_9
+ * (OFFSET, MASK, VALUE) (0XFD480024, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_9_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_10 @ 0XFD480028
+
+ * Specifies mask/settings for Base Address Register (BAR) 1 if BAR0 is a 3
+ * 2-bit BAR, or the upper bits of \'7bBAR1,BAR0\'7d if BAR0 is a 64-bit BA
+ * R. If BAR is not to be implemented, set to 32'h00000000. See BAR0 descri
+ * ption if this functions as the upper bits of a 64-bit BAR. Bits are defi
+ * ned as follows: Memory Space BAR (not upper bits of BAR0) [0] = Mem Spac
+ * e Indicator (set to 0) [2:1] = Type field (10 for 64-bit, 00 for 32-bit)
+ * [3] = Prefetchable (0 or 1) [31:4] = Mask for writable bits of BAR; if
+ * 32-bit BAR, set uppermost 31:n bits to 1, where 2^n=memory aperture size
+ * in bytes. If 64-bit BAR, set uppermost 63:n bits of \'7bBAR2,BAR1\'7d t
+ * o 1. IO Space BAR 0] = IO Space Indicator (set to 1) [1] = Reserved (set
+ * to 0) [31:2] = Mask for writable bits of BAR; set uppermost 31:n bits t
+ * o 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_10_ATTR_BAR1 0x0
+
+ * ATTR_10
+ * (OFFSET, MASK, VALUE) (0XFD480028, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_10_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_11 @ 0XFD48002C
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 2 if BAR1 is a 32-bit BAR, or the upper bits of \'7bBAR2,BAR1\'7d if BA
+ * R1 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR1 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root: This must be set to 00FF_FFF
+ * F. For an endpoint, bits are defined as follows: Memory Space BAR (not u
+ * pper bits of BAR1) [0] = Mem Space Indicator (set to 0) [2:1] = Type fie
+ * ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = M
+ * ask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to
+ * 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost
+ * 63:n bits of \'7bBAR3,BAR2\'7d to 1. IO Space BAR 0] = IO Space Indicat
+ * or (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits
+ * of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in byt
+ * es.; EP=0x0004; RP=0xFFFF
+ * PSU_PCIE_ATTRIB_ATTR_11_ATTR_BAR2 0xFFFF
+
+ * ATTR_11
+ * (OFFSET, MASK, VALUE) (0XFD48002C, 0x0000FFFFU ,0x0000FFFFU)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_11_OFFSET, 0x0000FFFFU, 0x0000FFFFU);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_12 @ 0XFD480030
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 2 if BAR1 is a 32-bit BAR, or the upper bits of \'7bBAR2,BAR1\'7d if BA
+ * R1 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR1 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root: This must be set to 00FF_FFF
+ * F. For an endpoint, bits are defined as follows: Memory Space BAR (not u
+ * pper bits of BAR1) [0] = Mem Space Indicator (set to 0) [2:1] = Type fie
+ * ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = M
+ * ask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to
+ * 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost
+ * 63:n bits of \'7bBAR3,BAR2\'7d to 1. IO Space BAR 0] = IO Space Indicat
+ * or (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits
+ * of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in byt
+ * es.; EP=0xFFF0; RP=0x00FF
+ * PSU_PCIE_ATTRIB_ATTR_12_ATTR_BAR2 0xFF
+
+ * ATTR_12
+ * (OFFSET, MASK, VALUE) (0XFD480030, 0x0000FFFFU ,0x000000FFU)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_12_OFFSET, 0x0000FFFFU, 0x000000FFU);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_13 @ 0XFD480034
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 3 if BAR2 is a 32-bit BAR, or the upper bits of \'7bBAR3,BAR2\'7d if BA
+ * R2 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR2 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root, this must be set to: FFFF_00
+ * 00 = IO Limit/Base Registers not implemented FFFF_F0F0 = IO Limit/Base R
+ * egisters use 16-bit decode FFFF_F1F1 = IO Limit/Base Registers use 32-bi
+ * t decode For an endpoint, bits are defined as follows: Memory Space BAR
+ * (not upper bits of BAR2) [0] = Mem Space Indicator (set to 0) [2:1] = Ty
+ * pe field (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:
+ * 4] = Mask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bi
+ * ts to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set upp
+ * ermost 63:n bits of \'7bBAR4,BAR3\'7d to 1. IO Space BAR 0] = IO Space I
+ * ndicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable
+ * bits of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size
+ * in bytes.; EP=0xFFFF; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_13_ATTR_BAR3 0x0
+
+ * ATTR_13
+ * (OFFSET, MASK, VALUE) (0XFD480034, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_13_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_14 @ 0XFD480038
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 3 if BAR2 is a 32-bit BAR, or the upper bits of \'7bBAR3,BAR2\'7d if BA
+ * R2 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR2 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root, this must be set to: FFFF_00
+ * 00 = IO Limit/Base Registers not implemented FFFF_F0F0 = IO Limit/Base R
+ * egisters use 16-bit decode FFFF_F1F1 = IO Limit/Base Registers use 32-bi
+ * t decode For an endpoint, bits are defined as follows: Memory Space BAR
+ * (not upper bits of BAR2) [0] = Mem Space Indicator (set to 0) [2:1] = Ty
+ * pe field (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:
+ * 4] = Mask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bi
+ * ts to 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set upp
+ * ermost 63:n bits of \'7bBAR4,BAR3\'7d to 1. IO Space BAR 0] = IO Space I
+ * ndicator (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable
+ * bits of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size
+ * in bytes.; EP=0xFFFF; RP=0xFFFF
+ * PSU_PCIE_ATTRIB_ATTR_14_ATTR_BAR3 0xFFFF
+
+ * ATTR_14
+ * (OFFSET, MASK, VALUE) (0XFD480038, 0x0000FFFFU ,0x0000FFFFU)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_14_OFFSET, 0x0000FFFFU, 0x0000FFFFU);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_15 @ 0XFD48003C
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 4 if BAR3 is a 32-bit BAR, or the upper bits of \'7bBAR4,BAR3\'7d if BA
+ * R3 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR3 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root: This must be set to FFF0_FFF
+ * 0. For an endpoint, bits are defined as follows: Memory Space BAR (not u
+ * pper bits of BAR3) [0] = Mem Space Indicator (set to 0) [2:1] = Type fie
+ * ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = M
+ * ask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to
+ * 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost
+ * 63:n bits of \'7bBAR5,BAR4\'7d to 1. IO Space BAR 0] = IO Space Indicat
+ * or (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits
+ * of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in byt
+ * es.; EP=0x0004; RP=0xFFF0
+ * PSU_PCIE_ATTRIB_ATTR_15_ATTR_BAR4 0xFFF0
+
+ * ATTR_15
+ * (OFFSET, MASK, VALUE) (0XFD48003C, 0x0000FFFFU ,0x0000FFF0U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_15_OFFSET, 0x0000FFFFU, 0x0000FFF0U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_16 @ 0XFD480040
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 4 if BAR3 is a 32-bit BAR, or the upper bits of \'7bBAR4,BAR3\'7d if BA
+ * R3 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR3 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root: This must be set to FFF0_FFF
+ * 0. For an endpoint, bits are defined as follows: Memory Space BAR (not u
+ * pper bits of BAR3) [0] = Mem Space Indicator (set to 0) [2:1] = Type fie
+ * ld (10 for 64-bit, 00 for 32-bit) [3] = Prefetchable (0 or 1) [31:4] = M
+ * ask for writable bits of BAR; if 32-bit BAR, set uppermost 31:n bits to
+ * 1, where 2^n=memory aperture size in bytes. If 64-bit BAR, set uppermost
+ * 63:n bits of \'7bBAR5,BAR4\'7d to 1. IO Space BAR 0] = IO Space Indicat
+ * or (set to 1) [1] = Reserved (set to 0) [31:2] = Mask for writable bits
+ * of BAR; set uppermost 31:n bits to 1, where 2^n=i/o aperture size in byt
+ * es.; EP=0xFFF0; RP=0xFFF0
+ * PSU_PCIE_ATTRIB_ATTR_16_ATTR_BAR4 0xFFF0
+
+ * ATTR_16
+ * (OFFSET, MASK, VALUE) (0XFD480040, 0x0000FFFFU ,0x0000FFF0U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_16_OFFSET, 0x0000FFFFU, 0x0000FFF0U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_17 @ 0XFD480044
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 5 if BAR4 is a 32-bit BAR, or the upper bits of \'7bBAR5,BAR4\'7d if BA
+ * R4 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR4 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root, this must be set to: 0000_00
+ * 00 = Prefetchable Memory Limit/Base Registers not implemented FFF0_FFF0
+ * = 32-bit Prefetchable Memory Limit/Base implemented FFF1_FFF1 = 64-bit P
+ * refetchable Memory Limit/Base implemented For an endpoint, bits are defi
+ * ned as follows: Memory Space BAR (not upper bits of BAR4) [0] = Mem Spac
+ * e Indicator (set to 0) [2:1] = Type field (00 for 32-bit; BAR5 cannot be
+ * lower part of a 64-bit BAR) [3] = Prefetchable (0 or 1) [31:4] = Mask f
+ * or writable bits of BAR; set uppermost 31:n bits to 1, where 2^n=memory
+ * aperture size in bytes. IO Space BAR 0] = IO Space Indicator (set to 1)
+ * [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set up
+ * permost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF
+ * ; RP=0xFFF1
+ * PSU_PCIE_ATTRIB_ATTR_17_ATTR_BAR5 0xFFF1
+
+ * ATTR_17
+ * (OFFSET, MASK, VALUE) (0XFD480044, 0x0000FFFFU ,0x0000FFF1U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_17_OFFSET, 0x0000FFFFU, 0x0000FFF1U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_18 @ 0XFD480048
+
+ * For an endpoint, specifies mask/settings for Base Address Register (BAR)
+ * 5 if BAR4 is a 32-bit BAR, or the upper bits of \'7bBAR5,BAR4\'7d if BA
+ * R4 is the lower part of a 64-bit BAR. If BAR is not to be implemented, s
+ * et to 32'h00000000. See BAR4 description if this functions as the upper
+ * bits of a 64-bit BAR. For a switch or root, this must be set to: 0000_00
+ * 00 = Prefetchable Memory Limit/Base Registers not implemented FFF0_FFF0
+ * = 32-bit Prefetchable Memory Limit/Base implemented FFF1_FFF1 = 64-bit P
+ * refetchable Memory Limit/Base implemented For an endpoint, bits are defi
+ * ned as follows: Memory Space BAR (not upper bits of BAR4) [0] = Mem Spac
+ * e Indicator (set to 0) [2:1] = Type field (00 for 32-bit; BAR5 cannot be
+ * lower part of a 64-bit BAR) [3] = Prefetchable (0 or 1) [31:4] = Mask f
+ * or writable bits of BAR; set uppermost 31:n bits to 1, where 2^n=memory
+ * aperture size in bytes. IO Space BAR 0] = IO Space Indicator (set to 1)
+ * [1] = Reserved (set to 0) [31:2] = Mask for writable bits of BAR; set up
+ * permost 31:n bits to 1, where 2^n=i/o aperture size in bytes.; EP=0xFFFF
+ * ; RP=0xFFF1
+ * PSU_PCIE_ATTRIB_ATTR_18_ATTR_BAR5 0xFFF1
+
+ * ATTR_18
+ * (OFFSET, MASK, VALUE) (0XFD480048, 0x0000FFFFU ,0x0000FFF1U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_18_OFFSET, 0x0000FFFFU, 0x0000FFF1U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_27 @ 0XFD48006C
+
+ * Specifies maximum payload supported. Valid settings are: 0- 128 bytes, 1
+ * - 256 bytes, 2- 512 bytes, 3- 1024 bytes. Transferred to the Device Capa
+ * bilities register. The values: 4-2048 bytes, 5- 4096 bytes are not suppo
+ * rted; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_MAX_PAYLOAD_SUPPORTED 1
+
+ * Endpoint L1 Acceptable Latency. Records the latency that the endpoint ca
+ * n withstand on transitions from L1 state to L0 (if L1 state supported).
+ * Valid settings are: 0h less than 1us, 1h 1 to 2us, 2h 2 to 4us, 3h 4 to
+ * 8us, 4h 8 to 16us, 5h 16 to 32us, 6h 32 to 64us, 7h more than 64us. For
+ * Endpoints only. Must be 0h for other devices.; EP=0x0007; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_27_ATTR_DEV_CAP_ENDPOINT_L1_LATENCY 0x0
+
+ * ATTR_27
+ * (OFFSET, MASK, VALUE) (0XFD48006C, 0x00000738U ,0x00000100U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_27_OFFSET, 0x00000738U, 0x00000100U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_50 @ 0XFD4800C8
+
+ * Identifies the type of device/port as follows: 0000b PCI Express Endpoin
+ * t device, 0001b Legacy PCI Express Endpoint device, 0100b Root Port of P
+ * CI Express Root Complex, 0101b Upstream Port of PCI Express Switch, 0110
+ * b Downstream Port of PCI Express Switch, 0111b PCIE Express to PCI/PCI-X
+ * Bridge, 1000b PCI/PCI-X to PCI Express Bridge. Transferred to PCI Expre
+ * ss Capabilities register. Must be consistent with IS_SWITCH and UPSTREAM
+ * _FACING settings.; EP=0x0000; RP=0x0004
+ * PSU_PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_DEVICE_PORT_TYPE 4
+
+ * PCIe Capability's Next Capability Offset pointer to the next item in the
+ * capabilities list, or 00h if this is the final capability.; EP=0x009C;
+ * RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_50_ATTR_PCIE_CAP_NEXTPTR 0
+
+ * ATTR_50
+ * (OFFSET, MASK, VALUE) (0XFD4800C8, 0x0000FFF0U ,0x00000040U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_50_OFFSET, 0x0000FFF0U, 0x00000040U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_105 @ 0XFD4801A4
+
+ * Number of credits that should be advertised for Completion data received
+ * on Virtual Channel 0. The bytes advertised must be less than or equal t
+ * o the bram bytes available. See VC0_RX_RAM_LIMIT; EP=0x0172; RP=0x00CD
+ * PSU_PCIE_ATTRIB_ATTR_105_ATTR_VC0_TOTAL_CREDITS_CD 0xCD
+
+ * ATTR_105
+ * (OFFSET, MASK, VALUE) (0XFD4801A4, 0x000007FFU ,0x000000CDU)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_105_OFFSET,
+ 0x000007FFU, 0x000000CDU);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_106 @ 0XFD4801A8
+
+ * Number of credits that should be advertised for Completion headers recei
+ * ved on Virtual Channel 0. The sum of the posted, non posted, and complet
+ * ion header credits must be <= 80; EP=0x0048; RP=0x0024
+ * PSU_PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_CH 0x24
+
+ * Number of credits that should be advertised for Non-Posted headers recei
+ * ved on Virtual Channel 0. The number of non posted data credits advertis
+ * ed by the block is equal to the number of non posted header credits. The
+ * sum of the posted, non posted, and completion header credits must be <=
+ * 80; EP=0x0004; RP=0x000C
+ * PSU_PCIE_ATTRIB_ATTR_106_ATTR_VC0_TOTAL_CREDITS_NPH 0xC
+
+ * ATTR_106
+ * (OFFSET, MASK, VALUE) (0XFD4801A8, 0x00003FFFU ,0x00000624U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_106_OFFSET,
+ 0x00003FFFU, 0x00000624U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_107 @ 0XFD4801AC
+
+ * Number of credits that should be advertised for Non-Posted data received
+ * on Virtual Channel 0. The number of non posted data credits advertised
+ * by the block is equal to two times the number of non posted header credi
+ * ts if atomic operations are supported or is equal to the number of non p
+ * osted header credits if atomic operations are not supported. The bytes a
+ * dvertised must be less than or equal to the bram bytes available. See VC
+ * 0_RX_RAM_LIMIT; EP=0x0008; RP=0x0018
+ * PSU_PCIE_ATTRIB_ATTR_107_ATTR_VC0_TOTAL_CREDITS_NPD 0x18
+
+ * ATTR_107
+ * (OFFSET, MASK, VALUE) (0XFD4801AC, 0x000007FFU ,0x00000018U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_107_OFFSET,
+ 0x000007FFU, 0x00000018U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_108 @ 0XFD4801B0
+
+ * Number of credits that should be advertised for Posted data received on
+ * Virtual Channel 0. The bytes advertised must be less than or equal to th
+ * e bram bytes available. See VC0_RX_RAM_LIMIT; EP=0x0020; RP=0x00B5
+ * PSU_PCIE_ATTRIB_ATTR_108_ATTR_VC0_TOTAL_CREDITS_PD 0xB5
+
+ * ATTR_108
+ * (OFFSET, MASK, VALUE) (0XFD4801B0, 0x000007FFU ,0x000000B5U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_108_OFFSET,
+ 0x000007FFU, 0x000000B5U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_109 @ 0XFD4801B4
+
+ * Not currently in use. Invert ECRC generated by block when trn_tecrc_gen_
+ * n and trn_terrfwd_n are asserted.; EP=0x0000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_109_ATTR_TECRC_EP_INV 0x0
+
+ * Enables td bit clear and ECRC trim on received TLP's FALSE == don't trim
+ * TRUE == trim.; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK_TRIM 0x1
+
+ * Enables ECRC check on received TLP's 0 == don't check 1 == always check
+ * 3 == check if enabled by ECRC check enable bit of AER cap structure; EP=
+ * 0x0003; RP=0x0003
+ * PSU_PCIE_ATTRIB_ATTR_109_ATTR_RECRC_CHK 0x3
+
+ * Index of last packet buffer used by TX TLM (i.e. number of buffers - 1).
+ * Calculated from max payload size supported and the number of brams conf
+ * igured for transmit; EP=0x001C; RP=0x001C
+ * PSU_PCIE_ATTRIB_ATTR_109_ATTR_VC0_TX_LASTPACKET 0x1c
+
+ * Number of credits that should be advertised for Posted headers received
+ * on Virtual Channel 0. The sum of the posted, non posted, and completion
+ * header credits must be <= 80; EP=0x0004; RP=0x0020
+ * PSU_PCIE_ATTRIB_ATTR_109_ATTR_VC0_TOTAL_CREDITS_PH 0x20
+
+ * ATTR_109
+ * (OFFSET, MASK, VALUE) (0XFD4801B4, 0x0000FFFFU ,0x00007E20U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_109_OFFSET,
+ 0x0000FFFFU, 0x00007E20U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_34 @ 0XFD480088
+
+ * Specifies values to be transferred to Header Type register. Bit 7 should
+ * be set to '0' indicating single-function device. Bit 0 identifies heade
+ * r as Type 0 or Type 1, with '0' indicating a Type 0 header.; EP=0x0000;
+ * RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_34_ATTR_HEADER_TYPE 0x1
+
+ * ATTR_34
+ * (OFFSET, MASK, VALUE) (0XFD480088, 0x000000FFU ,0x00000001U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_34_OFFSET, 0x000000FFU, 0x00000001U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_53 @ 0XFD4800D4
+
+ * PM Capability's Next Capability Offset pointer to the next item in the c
+ * apabilities list, or 00h if this is the final capability.; EP=0x0048; RP
+ * =0x0060
+ * PSU_PCIE_ATTRIB_ATTR_53_ATTR_PM_CAP_NEXTPTR 0x60
+
+ * ATTR_53
+ * (OFFSET, MASK, VALUE) (0XFD4800D4, 0x000000FFU ,0x00000060U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_53_OFFSET, 0x000000FFU, 0x00000060U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_41 @ 0XFD4800A4
+
+ * MSI Per-Vector Masking Capable. The value is transferred to the MSI Cont
+ * rol Register[8]. When set, adds Mask and Pending Dword to Cap structure;
+ * EP=0x0000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_PER_VECTOR_MASKING_CAPABLE 0x0
+
+ * Indicates that the MSI structures exists. If this is FALSE, then the MSI
+ * structure cannot be accessed via either the link or the management port
+ * .; EP=0x0001; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON 0
+
+ * MSI Capability's Next Capability Offset pointer to the next item in the
+ * capabilities list, or 00h if this is the final capability.; EP=0x0060; R
+ * P=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_NEXTPTR 0x0
+
+ * Indicates that the MSI structures exists. If this is FALSE, then the MSI
+ * structure cannot be accessed via either the link or the management port
+ * .; EP=0x0001; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_41_ATTR_MSI_CAP_ON 0
+
+ * ATTR_41
+ * (OFFSET, MASK, VALUE) (0XFD4800A4, 0x000003FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_41_OFFSET, 0x000003FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_97 @ 0XFD480184
+
+ * Maximum Link Width. Valid settings are: 000001b x1, 000010b x2, 000100b
+ * x4, 001000b x8.; EP=0x0004; RP=0x0004
+ * PSU_PCIE_ATTRIB_ATTR_97_ATTR_LINK_CAP_MAX_LINK_WIDTH 0x1
+
+ * Used by LTSSM to set Maximum Link Width. Valid settings are: 000001b [x1
+ * ], 000010b [x2], 000100b [x4], 001000b [x8].; EP=0x0004; RP=0x0004
+ * PSU_PCIE_ATTRIB_ATTR_97_ATTR_LTSSM_MAX_LINK_WIDTH 0x1
+
+ * ATTR_97
+ * (OFFSET, MASK, VALUE) (0XFD480184, 0x00000FFFU ,0x00000041U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_97_OFFSET, 0x00000FFFU, 0x00000041U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_100 @ 0XFD480190
+
+ * TRUE specifies upstream-facing port. FALSE specifies downstream-facing p
+ * ort.; EP=0x0001; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_100_ATTR_UPSTREAM_FACING 0x0
+
+ * ATTR_100
+ * (OFFSET, MASK, VALUE) (0XFD480190, 0x00000040U ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_100_OFFSET,
+ 0x00000040U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_101 @ 0XFD480194
+
+ * Enable the routing of message TLPs to the user through the TRN RX interf
+ * ace. A bit value of 1 enables routing of the message TLP to the user. Me
+ * ssages are always decoded by the message decoder. Bit 0 - ERR COR, Bit 1
+ * - ERR NONFATAL, Bit 2 - ERR FATAL, Bit 3 - INTA Bit 4 - INTB, Bit 5 - I
+ * NTC, Bit 6 - INTD, Bit 7 PM_PME, Bit 8 - PME_TO_ACK, Bit 9 - unlock, Bit
+ * 10 PME_Turn_Off; EP=0x0000; RP=0x07FF
+ * PSU_PCIE_ATTRIB_ATTR_101_ATTR_ENABLE_MSG_ROUTE 0x7FF
+
+ * Disable BAR filtering. Does not change the behavior of the bar hit outpu
+ * ts; EP=0x0000; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_101_ATTR_DISABLE_BAR_FILTERING 0x1
+
+ * ATTR_101
+ * (OFFSET, MASK, VALUE) (0XFD480194, 0x0000FFE2U ,0x0000FFE2U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_101_OFFSET,
+ 0x0000FFE2U, 0x0000FFE2U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_37 @ 0XFD480094
+
+ * Link Bandwidth notification capability. Indicates support for the link b
+ * andwidth notification status and interrupt mechanism. Required for Root.
+ * ; EP=0x0000; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP 0x1
+
+ * Sets the ASPM Optionality Compliance bit, to comply with the 2.1 ASPM Op
+ * tionality ECN. Transferred to the Link Capabilities register.; EP=0x0001
+ * ; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_37_ATTR_LINK_CAP_ASPM_OPTIONALITY 0x1
+
+ * ATTR_37
+ * (OFFSET, MASK, VALUE) (0XFD480094, 0x00004200U ,0x00004200U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_37_OFFSET, 0x00004200U, 0x00004200U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_93 @ 0XFD480174
+
+ * Enables the Replay Timer to use the user-defined LL_REPLAY_TIMEOUT value
+ * (or combined with the built-in value, depending on LL_REPLAY_TIMEOUT_FU
+ * NC). If FALSE, the built-in value is used.; EP=0x0000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT_EN 0x1
+
+ * Sets a user-defined timeout for the Replay Timer to force cause the retr
+ * ansmission of unacknowledged TLPs; refer to LL_REPLAY_TIMEOUT_EN and LL_
+ * REPLAY_TIMEOUT_FUNC to see how this value is used. The unit for this att
+ * ribute is in symbol times, which is 4ns at GEN1 speeds and 2ns at GEN2.;
+ * EP=0x0000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_93_ATTR_LL_REPLAY_TIMEOUT 0x1000
+
+ * ATTR_93
+ * (OFFSET, MASK, VALUE) (0XFD480174, 0x0000FFFFU ,0x00009000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_93_OFFSET, 0x0000FFFFU, 0x00009000U);
+/*##################################################################### */
+
+ /*
+ * Register : ID @ 0XFD480200
+
+ * Device ID for the the PCIe Cap Structure Device ID field
+ * PSU_PCIE_ATTRIB_ID_CFG_DEV_ID 0xd021
+
+ * Vendor ID for the PCIe Cap Structure Vendor ID field
+ * PSU_PCIE_ATTRIB_ID_CFG_VEND_ID 0x10ee
+
+ * ID
+ * (OFFSET, MASK, VALUE) (0XFD480200, 0xFFFFFFFFU ,0x10EED021U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ID_OFFSET, 0xFFFFFFFFU, 0x10EED021U);
+/*##################################################################### */
+
+ /*
+ * Register : SUBSYS_ID @ 0XFD480204
+
+ * Subsystem ID for the the PCIe Cap Structure Subsystem ID field
+ * PSU_PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_ID 0x7
+
+ * Subsystem Vendor ID for the PCIe Cap Structure Subsystem Vendor ID field
+ * PSU_PCIE_ATTRIB_SUBSYS_ID_CFG_SUBSYS_VEND_ID 0x10ee
+
+ * SUBSYS_ID
+ * (OFFSET, MASK, VALUE) (0XFD480204, 0xFFFFFFFFU ,0x10EE0007U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_SUBSYS_ID_OFFSET,
+ 0xFFFFFFFFU, 0x10EE0007U);
+/*##################################################################### */
+
+ /*
+ * Register : REV_ID @ 0XFD480208
+
+ * Revision ID for the the PCIe Cap Structure
+ * PSU_PCIE_ATTRIB_REV_ID_CFG_REV_ID 0x0
+
+ * REV_ID
+ * (OFFSET, MASK, VALUE) (0XFD480208, 0x000000FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_REV_ID_OFFSET, 0x000000FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_24 @ 0XFD480060
+
+ * Code identifying basic function, subclass and applicable programming int
+ * erface. Transferred to the Class Code register.; EP=0x8000; RP=0x8000
+ * PSU_PCIE_ATTRIB_ATTR_24_ATTR_CLASS_CODE 0x400
+
+ * ATTR_24
+ * (OFFSET, MASK, VALUE) (0XFD480060, 0x0000FFFFU ,0x00000400U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_24_OFFSET, 0x0000FFFFU, 0x00000400U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_25 @ 0XFD480064
+
+ * Code identifying basic function, subclass and applicable programming int
+ * erface. Transferred to the Class Code register.; EP=0x0005; RP=0x0006
+ * PSU_PCIE_ATTRIB_ATTR_25_ATTR_CLASS_CODE 0x6
+
+ * INTX Interrupt Generation Capable. If FALSE, this will cause Command[10]
+ * to be hardwired to 0.; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_25_ATTR_CMD_INTX_IMPLEMENTED 0
+
+ * ATTR_25
+ * (OFFSET, MASK, VALUE) (0XFD480064, 0x000001FFU ,0x00000006U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_25_OFFSET, 0x000001FFU, 0x00000006U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_4 @ 0XFD480010
+
+ * Indicates that the AER structures exists. If this is FALSE, then the AER
+ * structure cannot be accessed via either the link or the management port
+ * , and AER will be considered to not be present for error management task
+ * s (such as what types of error messages are sent if an error is detected
+ * ).; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON 0
+
+ * Indicates that the AER structures exists. If this is FALSE, then the AER
+ * structure cannot be accessed via either the link or the management port
+ * , and AER will be considered to not be present for error management task
+ * s (such as what types of error messages are sent if an error is detected
+ * ).; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_4_ATTR_AER_CAP_ON 0
+
+ * ATTR_4
+ * (OFFSET, MASK, VALUE) (0XFD480010, 0x00001000U ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_4_OFFSET, 0x00001000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_89 @ 0XFD480164
+
+ * VSEC's Next Capability Offset pointer to the next item in the capabiliti
+ * es list, or 000h if this is the final capability.; EP=0x0140; RP=0x0140
+ * PSU_PCIE_ATTRIB_ATTR_89_ATTR_VSEC_CAP_NEXTPTR 0
+
+ * ATTR_89
+ * (OFFSET, MASK, VALUE) (0XFD480164, 0x00001FFEU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_89_OFFSET, 0x00001FFEU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_79 @ 0XFD48013C
+
+ * CRS SW Visibility. Indicates RC can return CRS to SW. Transferred to the
+ * Root Capabilities register.; EP=0x0000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_79_ATTR_ROOT_CAP_CRS_SW_VISIBILITY 1
+
+ * ATTR_79
+ * (OFFSET, MASK, VALUE) (0XFD48013C, 0x00000020U ,0x00000020U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_79_OFFSET, 0x00000020U, 0x00000020U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_43 @ 0XFD4800AC
+
+ * Indicates that the MSIX structures exists. If this is FALSE, then the MS
+ * IX structure cannot be accessed via either the link or the management po
+ * rt.; EP=0x0001; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_43_ATTR_MSIX_CAP_ON 0
+
+ * ATTR_43
+ * (OFFSET, MASK, VALUE) (0XFD4800AC, 0x00000100U ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_43_OFFSET, 0x00000100U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_48 @ 0XFD4800C0
+
+ * MSI-X Table Size. This value is transferred to the MSI-X Message Control
+ * [10:0] field. Set to 0 if MSI-X is not enabled. Note that the core does
+ * not implement the table; that must be implemented in user logic.; EP=0x0
+ * 003; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_48_ATTR_MSIX_CAP_TABLE_SIZE 0
+
+ * ATTR_48
+ * (OFFSET, MASK, VALUE) (0XFD4800C0, 0x000007FFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_48_OFFSET, 0x000007FFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_46 @ 0XFD4800B8
+
+ * MSI-X Table Offset. This value is transferred to the MSI-X Table Offset
+ * field. Set to 0 if MSI-X is not enabled.; EP=0x0001; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_46_ATTR_MSIX_CAP_TABLE_OFFSET 0
+
+ * ATTR_46
+ * (OFFSET, MASK, VALUE) (0XFD4800B8, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_46_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_47 @ 0XFD4800BC
+
+ * MSI-X Table Offset. This value is transferred to the MSI-X Table Offset
+ * field. Set to 0 if MSI-X is not enabled.; EP=0x0000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_47_ATTR_MSIX_CAP_TABLE_OFFSET 0
+
+ * ATTR_47
+ * (OFFSET, MASK, VALUE) (0XFD4800BC, 0x00001FFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_47_OFFSET, 0x00001FFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_44 @ 0XFD4800B0
+
+ * MSI-X Pending Bit Array Offset This value is transferred to the MSI-X PB
+ * A Offset field. Set to 0 if MSI-X is not enabled.; EP=0x0001; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_44_ATTR_MSIX_CAP_PBA_OFFSET 0
+
+ * ATTR_44
+ * (OFFSET, MASK, VALUE) (0XFD4800B0, 0x0000FFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_44_OFFSET, 0x0000FFFFU, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_45 @ 0XFD4800B4
+
+ * MSI-X Pending Bit Array Offset This value is transferred to the MSI-X PB
+ * A Offset field. Set to 0 if MSI-X is not enabled.; EP=0x1000; RP=0x0000
+ * PSU_PCIE_ATTRIB_ATTR_45_ATTR_MSIX_CAP_PBA_OFFSET 0
+
+ * ATTR_45
+ * (OFFSET, MASK, VALUE) (0XFD4800B4, 0x0000FFF8U ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_45_OFFSET, 0x0000FFF8U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : CB @ 0XFD48031C
+
+ * DT837748 Enable
+ * PSU_PCIE_ATTRIB_CB_CB1 0x0
+
+ * ECO Register 1
+ * (OFFSET, MASK, VALUE) (0XFD48031C, 0x00000002U ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_CB_OFFSET, 0x00000002U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * Register : ATTR_35 @ 0XFD48008C
+
+ * Active State PM Support. Indicates the level of active state power manag
+ * ement supported by the selected PCI Express Link, encoded as follows: 0
+ * Reserved, 1 L0s entry supported, 2 Reserved, 3 L0s and L1 entry supporte
+ * d.; EP=0x0001; RP=0x0001
+ * PSU_PCIE_ATTRIB_ATTR_35_ATTR_LINK_CAP_ASPM_SUPPORT 0x0
+
+ * ATTR_35
+ * (OFFSET, MASK, VALUE) (0XFD48008C, 0x00003000U ,0x00000000U)
+ */
+ PSU_Mask_Write(PCIE_ATTRIB_ATTR_35_OFFSET, 0x00003000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * PUTTING PCIE CONTROL IN RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * PCIE control block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET 0X0
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00020000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x00020000U, 0x00000000U);
+/*##################################################################### */
+
+ /*
+ * PCIE GPIO RESET
+ */
+ /*
+ * MASK_DATA_0_LSW LOW BANK [15:0]
+ */
+ /*
+ * MASK_DATA_0_MSW LOW BANK [25:16]
+ */
+ /*
+ * MASK_DATA_1_LSW LOW BANK [41:26]
+ */
+ /*
+ * Register : MASK_DATA_1_LSW @ 0XFF0A0008
+
+ * Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW]
+ * PSU_GPIO_MASK_DATA_1_LSW_MASK_1_LSW 0xffdf
+
+ * Operation is the same as MASK_DATA_0_LSW[DATA_0_LSW]
+ * PSU_GPIO_MASK_DATA_1_LSW_DATA_1_LSW 0x20
+
+ * Maskable Output Data (GPIO Bank1, MIO, Lower 16bits)
+ * (OFFSET, MASK, VALUE) (0XFF0A0008, 0xFFFFFFFFU ,0xFFDF0020U)
+ */
+ PSU_Mask_Write(GPIO_MASK_DATA_1_LSW_OFFSET,
+ 0xFFFFFFFFU, 0xFFDF0020U);
+/*##################################################################### */
+
+ /*
+ * MASK_DATA_1_MSW HIGH BANK [51:42]
+ */
+ /*
+ * MASK_DATA_1_LSW HIGH BANK [67:52]
+ */
+ /*
+ * MASK_DATA_1_LSW HIGH BANK [77:68]
+ */
+ /*
+ * CHECK PLL LOCK FOR LANE0
+ */
+ /*
+ * Register : L0_PLL_STATUS_READ_1 @ 0XFD4023E4
+
+ * Status Read value of PLL Lock
+ * PSU_SERDES_L0_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
+ * (OFFSET, MASK, VALUE) (0XFD4023E4, 0x00000010U ,0x00000010U)
+ */
+ mask_poll(SERDES_L0_PLL_STATUS_READ_1_OFFSET, 0x00000010U);
+
+/*##################################################################### */
+
+ /*
+ * CHECK PLL LOCK FOR LANE1
+ */
+ /*
+ * Register : L1_PLL_STATUS_READ_1 @ 0XFD4063E4
+
+ * Status Read value of PLL Lock
+ * PSU_SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
+ * (OFFSET, MASK, VALUE) (0XFD4063E4, 0x00000010U ,0x00000010U)
+ */
+ mask_poll(SERDES_L1_PLL_STATUS_READ_1_OFFSET, 0x00000010U);
+
+/*##################################################################### */
+
+ /*
+ * CHECK PLL LOCK FOR LANE2
+ */
+ /*
+ * Register : L2_PLL_STATUS_READ_1 @ 0XFD40A3E4
+
+ * Status Read value of PLL Lock
+ * PSU_SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
+ * (OFFSET, MASK, VALUE) (0XFD40A3E4, 0x00000010U ,0x00000010U)
+ */
+ mask_poll(SERDES_L2_PLL_STATUS_READ_1_OFFSET, 0x00000010U);
+
+/*##################################################################### */
+
+ /*
+ * CHECK PLL LOCK FOR LANE3
+ */
+ /*
+ * Register : L3_PLL_STATUS_READ_1 @ 0XFD40E3E4
+
+ * Status Read value of PLL Lock
+ * PSU_SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
+ * (OFFSET, MASK, VALUE) (0XFD40E3E4, 0x00000010U ,0x00000010U)
+ */
+ mask_poll(SERDES_L3_PLL_STATUS_READ_1_OFFSET, 0x00000010U);
+
+/*##################################################################### */
+
+ /*
+ * SATA AHCI VENDOR SETTING
+ */
+ /*
+ * Register : PP2C @ 0XFD0C00AC
+
+ * CIBGMN: COMINIT Burst Gap Minimum.
+ * PSU_SATA_AHCI_VENDOR_PP2C_CIBGMN 0x18
+
+ * CIBGMX: COMINIT Burst Gap Maximum.
+ * PSU_SATA_AHCI_VENDOR_PP2C_CIBGMX 0x40
+
+ * CIBGN: COMINIT Burst Gap Nominal.
+ * PSU_SATA_AHCI_VENDOR_PP2C_CIBGN 0x18
+
+ * CINMP: COMINIT Negate Minimum Period.
+ * PSU_SATA_AHCI_VENDOR_PP2C_CINMP 0x28
+
+ * PP2C - Port Phy2Cfg Register. This register controls the configuration o
+ * f the Phy Control OOB timing for the COMINIT parameters for either Port
+ * 0 or Port 1. The Port configured is controlled by the value programmed i
+ * nto the Port Config Register.
+ * (OFFSET, MASK, VALUE) (0XFD0C00AC, 0xFFFFFFFFU ,0x28184018U)
+ */
+ PSU_Mask_Write(SATA_AHCI_VENDOR_PP2C_OFFSET,
+ 0xFFFFFFFFU, 0x28184018U);
+/*##################################################################### */
+
+ /*
+ * Register : PP3C @ 0XFD0C00B0
+
+ * CWBGMN: COMWAKE Burst Gap Minimum.
+ * PSU_SATA_AHCI_VENDOR_PP3C_CWBGMN 0x06
+
+ * CWBGMX: COMWAKE Burst Gap Maximum.
+ * PSU_SATA_AHCI_VENDOR_PP3C_CWBGMX 0x14
+
+ * CWBGN: COMWAKE Burst Gap Nominal.
+ * PSU_SATA_AHCI_VENDOR_PP3C_CWBGN 0x08
+
+ * CWNMP: COMWAKE Negate Minimum Period.
+ * PSU_SATA_AHCI_VENDOR_PP3C_CWNMP 0x0E
+
+ * PP3C - Port Phy3CfgRegister. This register controls the configuration of
+ * the Phy Control OOB timing for the COMWAKE parameters for either Port 0
+ * or Port 1. The Port configured is controlled by the value programmed in
+ * to the Port Config Register.
+ * (OFFSET, MASK, VALUE) (0XFD0C00B0, 0xFFFFFFFFU ,0x0E081406U)
+ */
+ PSU_Mask_Write(SATA_AHCI_VENDOR_PP3C_OFFSET,
+ 0xFFFFFFFFU, 0x0E081406U);
+/*##################################################################### */
+
+ /*
+ * Register : PP4C @ 0XFD0C00B4
+
+ * BMX: COM Burst Maximum.
+ * PSU_SATA_AHCI_VENDOR_PP4C_BMX 0x13
+
+ * BNM: COM Burst Nominal.
+ * PSU_SATA_AHCI_VENDOR_PP4C_BNM 0x08
+
+ * SFD: Signal Failure Detection, if the signal detection de-asserts for a
+ * time greater than this then the OOB detector will determine this is a li
+ * ne idle and cause the PhyInit state machine to exit the Phy Ready State.
+ * A value of zero disables the Signal Failure Detector. The value is base
+ * d on the OOB Detector Clock typically (PMCLK Clock Period) * SFD giving
+ * a nominal time of 500ns based on a 150MHz PMCLK.
+ * PSU_SATA_AHCI_VENDOR_PP4C_SFD 0x4A
+
+ * PTST: Partial to Slumber timer value, specific delay the controller shou
+ * ld apply while in partial before entering slumber. The value is bases on
+ * the system clock divided by 128, total delay = (Sys Clock Period) * PTS
+ * T * 128
+ * PSU_SATA_AHCI_VENDOR_PP4C_PTST 0x06
+
+ * PP4C - Port Phy4Cfg Register. This register controls the configuration o
+ * f the Phy Control Burst timing for the COM parameters for either Port 0
+ * or Port 1. The Port configured is controlled by the value programmed int
+ * o the Port Config Register.
+ * (OFFSET, MASK, VALUE) (0XFD0C00B4, 0xFFFFFFFFU ,0x064A0813U)
+ */
+ PSU_Mask_Write(SATA_AHCI_VENDOR_PP4C_OFFSET,
+ 0xFFFFFFFFU, 0x064A0813U);
+/*##################################################################### */
+
+ /*
+ * Register : PP5C @ 0XFD0C00B8
+
+ * RIT: Retry Interval Timer. The calculated value divided by two, the lowe
+ * r digit of precision is not needed.
+ * PSU_SATA_AHCI_VENDOR_PP5C_RIT 0xC96A4
+
+ * RCT: Rate Change Timer, a value based on the 54.2us for which a SATA dev
+ * ice will transmit at a fixed rate ALIGNp after OOB has completed, for a
+ * fast SERDES it is suggested that this value be 54.2us / 4
+ * PSU_SATA_AHCI_VENDOR_PP5C_RCT 0x3FF
+
+ * PP5C - Port Phy5Cfg Register. This register controls the configuration o
+ * f the Phy Control Retry Interval timing for either Port 0 or Port 1. The
+ * Port configured is controlled by the value programmed into the Port Con
+ * fig Register.
+ * (OFFSET, MASK, VALUE) (0XFD0C00B8, 0xFFFFFFFFU ,0x3FFC96A4U)
+ */
+ PSU_Mask_Write(SATA_AHCI_VENDOR_PP5C_OFFSET,
+ 0xFFFFFFFFU, 0x3FFC96A4U);
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_resetin_init_data(void)
+{
+ /*
+ * PUTTING SERDES PERIPHERAL IN RESET
+ */
+ /*
+ * PUTTING USB0 IN RESET
+ */
+ /*
+ * Register : RST_LPD_TOP @ 0XFF5E023C
+
+ * USB 0 reset for control registers
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0X1
+
+ * USB 0 sleep circuit reset
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0X1
+
+ * USB 0 reset
+ * PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0X1
+
+ * Software control register for the LPD block.
+ * (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000540U ,0x00000540U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_TOP_OFFSET, 0x00000540U, 0x00000540U);
+/*##################################################################### */
+
+ /*
+ * PUTTING GEM0 IN RESET
+ */
+ /*
+ * Register : RST_LPD_IOU0 @ 0XFF5E0230
+
+ * GEM 3 reset
+ * PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0X1
+
+ * Software controlled reset for the GEMs
+ * (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000008U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_IOU0_OFFSET,
+ 0x00000008U, 0x00000008U);
+/*##################################################################### */
+
+ /*
+ * PUTTING SATA IN RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * Sata block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0X1
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00000002U ,0x00000002U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x00000002U, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * PUTTING PCIE IN RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * PCIE config reset
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET 0X1
+
+ * PCIE control block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET 0X1
+
+ * PCIE bridge block level reset (AXI interface)
+ * PSU_CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET 0X1
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x000E0000U ,0x000E0000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x000E0000U, 0x000E0000U);
+/*##################################################################### */
+
+ /*
+ * PUTTING DP IN RESET
+ */
+ /*
+ * Register : DP_TX_PHY_POWER_DOWN @ 0XFD4A0238
+
+ * Two bits per lane. When set to 11, moves the GT to power down mode. When
+ * set to 00, GT will be in active state. bits [1:0] - lane0 Bits [3:2] -
+ * lane 1
+ * PSU_DP_DP_TX_PHY_POWER_DOWN_POWER_DWN 0XA
+
+ * Control PHY Power down
+ * (OFFSET, MASK, VALUE) (0XFD4A0238, 0x0000000FU ,0x0000000AU)
+ */
+ PSU_Mask_Write(DP_DP_TX_PHY_POWER_DOWN_OFFSET,
+ 0x0000000FU, 0x0000000AU);
+/*##################################################################### */
+
+ /*
+ * Register : DP_PHY_RESET @ 0XFD4A0200
+
+ * Set to '1' to hold the GT in reset. Clear to release.
+ * PSU_DP_DP_PHY_RESET_GT_RESET 0X1
+
+ * Reset the transmitter PHY.
+ * (OFFSET, MASK, VALUE) (0XFD4A0200, 0x00000002U ,0x00000002U)
+ */
+ PSU_Mask_Write(DP_DP_PHY_RESET_OFFSET, 0x00000002U, 0x00000002U);
+/*##################################################################### */
+
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
+
+ * Display Port block level reset (includes DPDMA)
+ * PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0X1
+
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00010000U ,0x00010000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x00010000U, 0x00010000U);
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_ps_pl_isolation_removal_data(void)
+{
+ /*
+ * PS-PL POWER UP REQUEST
+ */
+ /*
+ * Register : REQ_PWRUP_INT_EN @ 0XFFD80118
+
+ * Power-up Request Interrupt Enable for PL
+ * PSU_PMU_GLOBAL_REQ_PWRUP_INT_EN_PL 1
+
+ * Power-up Request Interrupt Enable Register. Writing a 1 to this location
+ * will unmask the interrupt.
+ * (OFFSET, MASK, VALUE) (0XFFD80118, 0x00800000U ,0x00800000U)
+ */
+ PSU_Mask_Write(PMU_GLOBAL_REQ_PWRUP_INT_EN_OFFSET,
+ 0x00800000U, 0x00800000U);
+/*##################################################################### */
+
+ /*
+ * Register : REQ_PWRUP_TRIG @ 0XFFD80120
+
+ * Power-up Request Trigger for PL
+ * PSU_PMU_GLOBAL_REQ_PWRUP_TRIG_PL 1
+
+ * Power-up Request Trigger Register. A write of one to this location will
+ * generate a power-up request to the PMU.
+ * (OFFSET, MASK, VALUE) (0XFFD80120, 0x00800000U ,0x00800000U)
+ */
+ PSU_Mask_Write(PMU_GLOBAL_REQ_PWRUP_TRIG_OFFSET,
+ 0x00800000U, 0x00800000U);
+/*##################################################################### */
+
+ /*
+ * POLL ON PL POWER STATUS
+ */
+ /*
+ * Register : REQ_PWRUP_STATUS @ 0XFFD80110
+
+ * Power-up Request Status for PL
+ * PSU_PMU_GLOBAL_REQ_PWRUP_STATUS_PL 1
+ * (OFFSET, MASK, VALUE) (0XFFD80110, 0x00800000U ,0x00000000U)
+ */
+ mask_pollOnValue(PMU_GLOBAL_REQ_PWRUP_STATUS_OFFSET,
+ 0x00800000U, 0x00000000U);
+
+/*##################################################################### */
+
+
+ return 1;
+}
+unsigned long psu_afi_config(void)
+{
+ /*
+ * AFI RESET
+ */
+ /*
+ * Register : RST_FPD_TOP @ 0XFD1A0100
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_44_ATTR_MSIX_CAP_PBA_OFFSET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_44_OFFSET ,0x0000FFFFU ,0x00000000U);
- /*############################################################################################################################ */
+ * AF_FM0 block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_AFI_FM0_RESET 0
- /*Register : ATTR_45 @ 0XFD4800B4</p>
+ * AF_FM1 block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_AFI_FM1_RESET 0
- MSI-X Pending Bit Array Offset This value is transferred to the MSI-X PBA Offset field. Set to 0 if MSI-X is not enabled.; EP
- 0x1000; RP=0x0000
- PSU_PCIE_ATTRIB_ATTR_45_ATTR_MSIX_CAP_PBA_OFFSET 0
+ * AF_FM2 block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_AFI_FM2_RESET 0
- ATTR_45
- (OFFSET, MASK, VALUE) (0XFD4800B4, 0x0000FFF8U ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_45_ATTR_MSIX_CAP_PBA_OFFSET_MASK | 0 );
+ * AF_FM3 block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_AFI_FM3_RESET 0
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_45_ATTR_MSIX_CAP_PBA_OFFSET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_45_OFFSET ,0x0000FFF8U ,0x00000000U);
- /*############################################################################################################################ */
+ * AF_FM4 block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_AFI_FM4_RESET 0
- /*Register : CB @ 0XFD48031C</p>
+ * AF_FM5 block level reset
+ * PSU_CRF_APB_RST_FPD_TOP_AFI_FM5_RESET 0
- DT837748 Enable
- PSU_PCIE_ATTRIB_CB_CB1 0x0
+ * FPD Block level software controlled reset
+ * (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00001F80U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRF_APB_RST_FPD_TOP_OFFSET, 0x00001F80U, 0x00000000U);
+/*##################################################################### */
- ECO Register 1
- (OFFSET, MASK, VALUE) (0XFD48031C, 0x00000002U ,0x00000000U)
- RegMask = (PCIE_ATTRIB_CB_CB1_MASK | 0 );
+ /*
+ * Register : RST_LPD_TOP @ 0XFF5E023C
- RegVal = ((0x00000000U << PCIE_ATTRIB_CB_CB1_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_CB_OFFSET ,0x00000002U ,0x00000000U);
- /*############################################################################################################################ */
+ * AFI FM 6
+ * PSU_CRL_APB_RST_LPD_TOP_AFI_FM6_RESET 0
- /*Register : ATTR_35 @ 0XFD48008C</p>
+ * Software control register for the LPD block.
+ * (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00080000U ,0x00000000U)
+ */
+ PSU_Mask_Write(CRL_APB_RST_LPD_TOP_OFFSET, 0x00080000U, 0x00000000U);
+/*##################################################################### */
- Active State PM Support. Indicates the level of active state power management supported by the selected PCI Express Link, enc
- ded as follows: 0 Reserved, 1 L0s entry supported, 2 Reserved, 3 L0s and L1 entry supported.; EP=0x0001; RP=0x0001
- PSU_PCIE_ATTRIB_ATTR_35_ATTR_LINK_CAP_ASPM_SUPPORT 0x0
+ /*
+ * AFIFM INTERFACE WIDTH
+ */
+ /*
+ * Register : afi_fs @ 0XFD615000
- ATTR_35
- (OFFSET, MASK, VALUE) (0XFD48008C, 0x00003000U ,0x00000000U)
- RegMask = (PCIE_ATTRIB_ATTR_35_ATTR_LINK_CAP_ASPM_SUPPORT_MASK | 0 );
+ * Select the 32/64/128-bit data width selection for the Slave 0 00: 32-bit
+ * AXI data width (default) 01: 64-bit AXI data width 10: 128-bit AXI data
+ * width 11: reserved
+ * PSU_FPD_SLCR_AFI_FS_DW_SS0_SEL 0x2
- RegVal = ((0x00000000U << PCIE_ATTRIB_ATTR_35_ATTR_LINK_CAP_ASPM_SUPPORT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PCIE_ATTRIB_ATTR_35_OFFSET ,0x00003000U ,0x00000000U);
- /*############################################################################################################################ */
+ * Select the 32/64/128-bit data width selection for the Slave 1 00: 32-bit
+ * AXI data width (default) 01: 64-bit AXI data width 10: 128-bit AXI data
+ * width 11: reserved
+ * PSU_FPD_SLCR_AFI_FS_DW_SS1_SEL 0x2
- // : PUTTING PCIE CONTROL IN RESET
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
+ * afi fs SLCR control register. This register is static and should not be
+ * modified during operation.
+ * (OFFSET, MASK, VALUE) (0XFD615000, 0x00000F00U ,0x00000A00U)
+ */
+ PSU_Mask_Write(FPD_SLCR_AFI_FS_OFFSET, 0x00000F00U, 0x00000A00U);
+/*##################################################################### */
- PCIE control block level reset
- PSU_CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET 0X0
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00020000U ,0x00000000U)
- RegMask = (CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET_MASK | 0 );
+ return 1;
+}
+unsigned long psu_ps_pl_reset_config_data(void)
+{
+ /*
+ * PS PL RESET SEQUENCE
+ */
+ /*
+ * FABRIC RESET USING EMIO
+ */
+ /*
+ * Register : MASK_DATA_5_MSW @ 0XFF0A002C
+
+ * Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW]
+ * PSU_GPIO_MASK_DATA_5_MSW_MASK_5_MSW 0x8000
+
+ * Maskable Output Data (GPIO Bank5, EMIO, Upper 16bits)
+ * (OFFSET, MASK, VALUE) (0XFF0A002C, 0xFFFF0000U ,0x80000000U)
+ */
+ PSU_Mask_Write(GPIO_MASK_DATA_5_MSW_OFFSET,
+ 0xFFFF0000U, 0x80000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DIRM_5 @ 0XFF0A0344
+
+ * Operation is the same as DIRM_0[DIRECTION_0]
+ * PSU_GPIO_DIRM_5_DIRECTION_5 0x80000000
+
+ * Direction mode (GPIO Bank5, EMIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0344, 0xFFFFFFFFU ,0x80000000U)
+ */
+ PSU_Mask_Write(GPIO_DIRM_5_OFFSET, 0xFFFFFFFFU, 0x80000000U);
+/*##################################################################### */
+
+ /*
+ * Register : OEN_5 @ 0XFF0A0348
+
+ * Operation is the same as OEN_0[OP_ENABLE_0]
+ * PSU_GPIO_OEN_5_OP_ENABLE_5 0x80000000
+
+ * Output enable (GPIO Bank5, EMIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0348, 0xFFFFFFFFU ,0x80000000U)
+ */
+ PSU_Mask_Write(GPIO_OEN_5_OFFSET, 0xFFFFFFFFU, 0x80000000U);
+/*##################################################################### */
+
+ /*
+ * Register : DATA_5 @ 0XFF0A0054
+
+ * Output Data
+ * PSU_GPIO_DATA_5_DATA_5 0x80000000
+
+ * Output Data (GPIO Bank5, EMIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x80000000U)
+ */
+ PSU_Mask_Write(GPIO_DATA_5_OFFSET, 0xFFFFFFFFU, 0x80000000U);
+/*##################################################################### */
- RegVal = ((0x00000000U << CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00020000U ,0x00000000U);
- /*############################################################################################################################ */
+ mask_delay(1);
- // : CHECK PLL LOCK FOR LANE0
- /*Register : L0_PLL_STATUS_READ_1 @ 0XFD4023E4</p>
+/*##################################################################### */
- Status Read value of PLL Lock
- PSU_SERDES_L0_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
- (OFFSET, MASK, VALUE) (0XFD4023E4, 0x00000010U ,0x00000010U) */
- mask_poll(SERDES_L0_PLL_STATUS_READ_1_OFFSET,0x00000010U);
+ /*
+ * FABRIC RESET USING DATA_5 TOGGLE
+ */
+ /*
+ * Register : DATA_5 @ 0XFF0A0054
- /*############################################################################################################################ */
+ * Output Data
+ * PSU_GPIO_DATA_5_DATA_5 0X00000000
- // : CHECK PLL LOCK FOR LANE1
- /*Register : L1_PLL_STATUS_READ_1 @ 0XFD4063E4</p>
+ * Output Data (GPIO Bank5, EMIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x00000000U)
+ */
+ PSU_Mask_Write(GPIO_DATA_5_OFFSET, 0xFFFFFFFFU, 0x00000000U);
+/*##################################################################### */
- Status Read value of PLL Lock
- PSU_SERDES_L1_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
- (OFFSET, MASK, VALUE) (0XFD4063E4, 0x00000010U ,0x00000010U) */
- mask_poll(SERDES_L1_PLL_STATUS_READ_1_OFFSET,0x00000010U);
+ mask_delay(1);
- /*############################################################################################################################ */
+/*##################################################################### */
- // : CHECK PLL LOCK FOR LANE2
- /*Register : L2_PLL_STATUS_READ_1 @ 0XFD40A3E4</p>
+ /*
+ * FABRIC RESET USING DATA_5 TOGGLE
+ */
+ /*
+ * Register : DATA_5 @ 0XFF0A0054
- Status Read value of PLL Lock
- PSU_SERDES_L2_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
- (OFFSET, MASK, VALUE) (0XFD40A3E4, 0x00000010U ,0x00000010U) */
- mask_poll(SERDES_L2_PLL_STATUS_READ_1_OFFSET,0x00000010U);
+ * Output Data
+ * PSU_GPIO_DATA_5_DATA_5 0x80000000
- /*############################################################################################################################ */
+ * Output Data (GPIO Bank5, EMIO)
+ * (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x80000000U)
+ */
+ PSU_Mask_Write(GPIO_DATA_5_OFFSET, 0xFFFFFFFFU, 0x80000000U);
+/*##################################################################### */
- // : CHECK PLL LOCK FOR LANE3
- /*Register : L3_PLL_STATUS_READ_1 @ 0XFD40E3E4</p>
- Status Read value of PLL Lock
- PSU_SERDES_L3_PLL_STATUS_READ_1_PLL_LOCK_STATUS_READ 1
- (OFFSET, MASK, VALUE) (0XFD40E3E4, 0x00000010U ,0x00000010U) */
- mask_poll(SERDES_L3_PLL_STATUS_READ_1_OFFSET,0x00000010U);
+ return 1;
+}
- /*############################################################################################################################ */
+unsigned long psu_ddr_phybringup_data(void)
+{
- // : SATA AHCI VENDOR SETTING
- /*Register : PP2C @ 0XFD0C00AC</p>
- CIBGMN: COMINIT Burst Gap Minimum.
- PSU_SATA_AHCI_VENDOR_PP2C_CIBGMN 0x18
+ unsigned int regval = 0;
- CIBGMX: COMINIT Burst Gap Maximum.
- PSU_SATA_AHCI_VENDOR_PP2C_CIBGMX 0x40
+ unsigned int pll_retry = 10;
- CIBGN: COMINIT Burst Gap Nominal.
- PSU_SATA_AHCI_VENDOR_PP2C_CIBGN 0x18
+ unsigned int pll_locked = 0;
- CINMP: COMINIT Negate Minimum Period.
- PSU_SATA_AHCI_VENDOR_PP2C_CINMP 0x28
- PP2C - Port Phy2Cfg Register. This register controls the configuration of the Phy Control OOB timing for the COMINIT paramete
- s for either Port 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register.
- (OFFSET, MASK, VALUE) (0XFD0C00AC, 0xFFFFFFFFU ,0x28184018U)
- RegMask = (SATA_AHCI_VENDOR_PP2C_CIBGMN_MASK | SATA_AHCI_VENDOR_PP2C_CIBGMX_MASK | SATA_AHCI_VENDOR_PP2C_CIBGN_MASK | SATA_AHCI_VENDOR_PP2C_CINMP_MASK | 0 );
+ while ((pll_retry > 0) && (!pll_locked)) {
- RegVal = ((0x00000018U << SATA_AHCI_VENDOR_PP2C_CIBGMN_SHIFT
- | 0x00000040U << SATA_AHCI_VENDOR_PP2C_CIBGMX_SHIFT
- | 0x00000018U << SATA_AHCI_VENDOR_PP2C_CIBGN_SHIFT
- | 0x00000028U << SATA_AHCI_VENDOR_PP2C_CINMP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SATA_AHCI_VENDOR_PP2C_OFFSET ,0xFFFFFFFFU ,0x28184018U);
- /*############################################################################################################################ */
+ Xil_Out32(0xFD080004, 0x00040010);/*PIR*/
+ Xil_Out32(0xFD080004, 0x00040011);/*PIR*/
- /*Register : PP3C @ 0XFD0C00B0</p>
+ while ((Xil_In32(0xFD080030) & 0x1) != 1) {
+ /*****TODO*****/
- CWBGMN: COMWAKE Burst Gap Minimum.
- PSU_SATA_AHCI_VENDOR_PP3C_CWBGMN 0x06
+ /*TIMEOUT poll mechanism need to be inserted in this block*/
- CWBGMX: COMWAKE Burst Gap Maximum.
- PSU_SATA_AHCI_VENDOR_PP3C_CWBGMX 0x14
+ }
- CWBGN: COMWAKE Burst Gap Nominal.
- PSU_SATA_AHCI_VENDOR_PP3C_CWBGN 0x08
- CWNMP: COMWAKE Negate Minimum Period.
- PSU_SATA_AHCI_VENDOR_PP3C_CWNMP 0x0E
+ pll_locked = (Xil_In32(0xFD080030) & 0x80000000)
+ >> 31;/*PGSR0*/
+ pll_locked &= (Xil_In32(0xFD0807E0) & 0x10000)
+ >> 16;/*DX0GSR0*/
+ pll_locked &= (Xil_In32(0xFD0809E0) & 0x10000)
+ >> 16;/*DX2GSR0*/
+ pll_locked &= (Xil_In32(0xFD080BE0) & 0x10000)
+ >> 16;/*DX4GSR0*/
+ pll_locked &= (Xil_In32(0xFD080DE0) & 0x10000)
+ >> 16;/*DX6GSR0*/
+ pll_retry--;
+ }
+ Xil_Out32(0xFD0800C0, Xil_In32(0xFD0800C0) |
+ (pll_retry << 16));/*GPR0*/
+ Xil_Out32(0xFD080004U, 0x00040063U);
+ /* PHY BRINGUP SEQ */
+ while ((Xil_In32(0xFD080030U) & 0x0000000FU) != 0x0000000FU) {
+ /*****TODO*****/
- PP3C - Port Phy3CfgRegister. This register controls the configuration of the Phy Control OOB timing for the COMWAKE parameter
- for either Port 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register.
- (OFFSET, MASK, VALUE) (0XFD0C00B0, 0xFFFFFFFFU ,0x0E081406U)
- RegMask = (SATA_AHCI_VENDOR_PP3C_CWBGMN_MASK | SATA_AHCI_VENDOR_PP3C_CWBGMX_MASK | SATA_AHCI_VENDOR_PP3C_CWBGN_MASK | SATA_AHCI_VENDOR_PP3C_CWNMP_MASK | 0 );
+ /*TIMEOUT poll mechanism need to be inserted in this block*/
- RegVal = ((0x00000006U << SATA_AHCI_VENDOR_PP3C_CWBGMN_SHIFT
- | 0x00000014U << SATA_AHCI_VENDOR_PP3C_CWBGMX_SHIFT
- | 0x00000008U << SATA_AHCI_VENDOR_PP3C_CWBGN_SHIFT
- | 0x0000000EU << SATA_AHCI_VENDOR_PP3C_CWNMP_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SATA_AHCI_VENDOR_PP3C_OFFSET ,0xFFFFFFFFU ,0x0E081406U);
- /*############################################################################################################################ */
+ }
- /*Register : PP4C @ 0XFD0C00B4</p>
+ prog_reg(0xFD080004U, 0x00000001U, 0x00000000U, 0x00000001U);
+ /* poll for PHY initialization to complete */
+ while ((Xil_In32(0xFD080030U) & 0x000000FFU) != 0x0000001FU) {
+ /*****TODO*****/
- BMX: COM Burst Maximum.
- PSU_SATA_AHCI_VENDOR_PP4C_BMX 0x13
+ /*TIMEOUT poll mechanism need to be inserted in this block*/
- BNM: COM Burst Nominal.
- PSU_SATA_AHCI_VENDOR_PP4C_BNM 0x08
+ }
- SFD: Signal Failure Detection, if the signal detection de-asserts for a time greater than this then the OOB detector will det
- rmine this is a line idle and cause the PhyInit state machine to exit the Phy Ready State. A value of zero disables the Signa
- Failure Detector. The value is based on the OOB Detector Clock typically (PMCLK Clock Period) * SFD giving a nominal time of
- 500ns based on a 150MHz PMCLK.
- PSU_SATA_AHCI_VENDOR_PP4C_SFD 0x4A
- PTST: Partial to Slumber timer value, specific delay the controller should apply while in partial before entering slumber. Th
- value is bases on the system clock divided by 128, total delay = (Sys Clock Period) * PTST * 128
- PSU_SATA_AHCI_VENDOR_PP4C_PTST 0x06
+ Xil_Out32(0xFD0701B0U, 0x00000001U);
+ Xil_Out32(0xFD070320U, 0x00000001U);
+ while ((Xil_In32(0xFD070004U) & 0x0000000FU) != 0x00000001U) {
+ /*****TODO*****/
- PP4C - Port Phy4Cfg Register. This register controls the configuration of the Phy Control Burst timing for the COM parameters
- for either Port 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register.
- (OFFSET, MASK, VALUE) (0XFD0C00B4, 0xFFFFFFFFU ,0x064A0813U)
- RegMask = (SATA_AHCI_VENDOR_PP4C_BMX_MASK | SATA_AHCI_VENDOR_PP4C_BNM_MASK | SATA_AHCI_VENDOR_PP4C_SFD_MASK | SATA_AHCI_VENDOR_PP4C_PTST_MASK | 0 );
+ /*TIMEOUT poll mechanism need to be inserted in this block*/
- RegVal = ((0x00000013U << SATA_AHCI_VENDOR_PP4C_BMX_SHIFT
- | 0x00000008U << SATA_AHCI_VENDOR_PP4C_BNM_SHIFT
- | 0x0000004AU << SATA_AHCI_VENDOR_PP4C_SFD_SHIFT
- | 0x00000006U << SATA_AHCI_VENDOR_PP4C_PTST_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SATA_AHCI_VENDOR_PP4C_OFFSET ,0xFFFFFFFFU ,0x064A0813U);
- /*############################################################################################################################ */
+ }
- /*Register : PP5C @ 0XFD0C00B8</p>
+ prog_reg(0xFD080014U, 0x00000040U, 0x00000006U, 0x00000001U);
+ Xil_Out32(0xFD080004, 0x0004FE01); /*PUB_PIR*/
+ regval = Xil_In32(0xFD080030); /*PUB_PGSR0*/
+ while (regval != 0x80000FFF)
+ regval = Xil_In32(0xFD080030); /*PUB_PGSR0*/
- RIT: Retry Interval Timer. The calculated value divided by two, the lower digit of precision is not needed.
- PSU_SATA_AHCI_VENDOR_PP5C_RIT 0xC96A4
+/* Run Vref training in static read mode*/
+ Xil_Out32(0xFD080200U, 0x100091C7U);
+ Xil_Out32(0xFD080018U, 0x00F01EEFU);
+ prog_reg(0xFD08001CU, 0x00000018U, 0x00000003U, 0x00000003U);
+ prog_reg(0xFD08142CU, 0x00000030U, 0x00000004U, 0x00000003U);
+ prog_reg(0xFD08146CU, 0x00000030U, 0x00000004U, 0x00000003U);
+ prog_reg(0xFD0814ACU, 0x00000030U, 0x00000004U, 0x00000003U);
+ prog_reg(0xFD0814ECU, 0x00000030U, 0x00000004U, 0x00000003U);
+ prog_reg(0xFD08152CU, 0x00000030U, 0x00000004U, 0x00000003U);
+
+
+ Xil_Out32(0xFD080004, 0x00060001); /*PUB_PIR*/
+ regval = Xil_In32(0xFD080030); /*PUB_PGSR0*/
+ while ((regval & 0x80004001) != 0x80004001) {
+ /*PUB_PGSR0*/
+ regval = Xil_In32(0xFD080030);
+ }
- RCT: Rate Change Timer, a value based on the 54.2us for which a SATA device will transmit at a fixed rate ALIGNp after OOB ha
- completed, for a fast SERDES it is suggested that this value be 54.2us / 4
- PSU_SATA_AHCI_VENDOR_PP5C_RCT 0x3FF
+ prog_reg(0xFD08001CU, 0x00000018U, 0x00000003U, 0x00000000U);
+ prog_reg(0xFD08142CU, 0x00000030U, 0x00000004U, 0x00000000U);
+ prog_reg(0xFD08146CU, 0x00000030U, 0x00000004U, 0x00000000U);
+ prog_reg(0xFD0814ACU, 0x00000030U, 0x00000004U, 0x00000000U);
+ prog_reg(0xFD0814ECU, 0x00000030U, 0x00000004U, 0x00000000U);
+ prog_reg(0xFD08152CU, 0x00000030U, 0x00000004U, 0x00000000U);
+/*Vref training is complete, disabling static read mode*/
+ Xil_Out32(0xFD080200U, 0x800091C7U);
+ Xil_Out32(0xFD080018U, 0x00F122E7U);
- PP5C - Port Phy5Cfg Register. This register controls the configuration of the Phy Control Retry Interval timing for either Po
- t 0 or Port 1. The Port configured is controlled by the value programmed into the Port Config Register.
- (OFFSET, MASK, VALUE) (0XFD0C00B8, 0xFFFFFFFFU ,0x3FFC96A4U)
- RegMask = (SATA_AHCI_VENDOR_PP5C_RIT_MASK | SATA_AHCI_VENDOR_PP5C_RCT_MASK | 0 );
- RegVal = ((0x000C96A4U << SATA_AHCI_VENDOR_PP5C_RIT_SHIFT
- | 0x000003FFU << SATA_AHCI_VENDOR_PP5C_RCT_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (SATA_AHCI_VENDOR_PP5C_OFFSET ,0xFFFFFFFFU ,0x3FFC96A4U);
- /*############################################################################################################################ */
+ Xil_Out32(0xFD080004, 0x0000C001); /*PUB_PIR*/
+ regval = Xil_In32(0xFD080030); /*PUB_PGSR0*/
+ while ((regval & 0x80000C01) != 0x80000C01) {
+ /*PUB_PGSR0*/
+ regval = Xil_In32(0xFD080030);
+ }
+ Xil_Out32(0xFD070180U, 0x01000040U);
+ Xil_Out32(0xFD070060U, 0x00000000U);
+ prog_reg(0xFD080014U, 0x00000040U, 0x00000006U, 0x00000000U);
- return 1;
+return 1;
}
-unsigned long psu_resetin_init_data() {
- // : PUTTING SERDES PERIPHERAL IN RESET
- // : PUTTING USB0 IN RESET
- /*Register : RST_LPD_TOP @ 0XFF5E023C</p>
-
- USB 0 reset for control registers
- PSU_CRL_APB_RST_LPD_TOP_USB0_APB_RESET 0X1
-
- USB 0 sleep circuit reset
- PSU_CRL_APB_RST_LPD_TOP_USB0_HIBERRESET 0X1
-
- USB 0 reset
- PSU_CRL_APB_RST_LPD_TOP_USB0_CORERESET 0X1
-
- Software control register for the LPD block.
- (OFFSET, MASK, VALUE) (0XFF5E023C, 0x00000540U ,0x00000540U)
- RegMask = (CRL_APB_RST_LPD_TOP_USB0_APB_RESET_MASK | CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_MASK | CRL_APB_RST_LPD_TOP_USB0_CORERESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_RST_LPD_TOP_USB0_APB_RESET_SHIFT
- | 0x00000001U << CRL_APB_RST_LPD_TOP_USB0_HIBERRESET_SHIFT
- | 0x00000001U << CRL_APB_RST_LPD_TOP_USB0_CORERESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_TOP_OFFSET ,0x00000540U ,0x00000540U);
- /*############################################################################################################################ */
-
- // : PUTTING GEM0 IN RESET
- /*Register : RST_LPD_IOU0 @ 0XFF5E0230</p>
-
- GEM 3 reset
- PSU_CRL_APB_RST_LPD_IOU0_GEM3_RESET 0X1
-
- Software controlled reset for the GEMs
- (OFFSET, MASK, VALUE) (0XFF5E0230, 0x00000008U ,0x00000008U)
- RegMask = (CRL_APB_RST_LPD_IOU0_GEM3_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRL_APB_RST_LPD_IOU0_GEM3_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRL_APB_RST_LPD_IOU0_OFFSET ,0x00000008U ,0x00000008U);
- /*############################################################################################################################ */
-
- // : PUTTING SATA IN RESET
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
-
- Sata block level reset
- PSU_CRF_APB_RST_FPD_TOP_SATA_RESET 0X1
-
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00000002U ,0x00000002U)
- RegMask = (CRF_APB_RST_FPD_TOP_SATA_RESET_MASK | 0 );
-
- RegVal = ((0x00000001U << CRF_APB_RST_FPD_TOP_SATA_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00000002U ,0x00000002U);
- /*############################################################################################################################ */
-
- // : PUTTING PCIE IN RESET
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
- PCIE config reset
- PSU_CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET 0X1
+/**
+ * CRL_APB Base Address
+ */
+#define CRL_APB_BASEADDR 0XFF5E0000U
+#define CRL_APB_RST_LPD_IOU0 ((CRL_APB_BASEADDR) + 0X00000230U)
+#define CRL_APB_RST_LPD_IOU1 ((CRL_APB_BASEADDR) + 0X00000234U)
+#define CRL_APB_RST_LPD_IOU2 ((CRL_APB_BASEADDR) + 0X00000238U)
+#define CRL_APB_RST_LPD_TOP ((CRL_APB_BASEADDR) + 0X0000023CU)
+#define CRL_APB_IOU_SWITCH_CTRL ((CRL_APB_BASEADDR) + 0X0000009CU)
- PCIE control block level reset
- PSU_CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET 0X1
+/**
+ * CRF_APB Base Address
+ */
+#define CRF_APB_BASEADDR 0XFD1A0000U
- PCIE bridge block level reset (AXI interface)
- PSU_CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET 0X1
+#define CRF_APB_RST_FPD_TOP ((CRF_APB_BASEADDR) + 0X00000100U)
+#define CRF_APB_GPU_REF_CTRL ((CRF_APB_BASEADDR) + 0X00000084U)
+#define CRF_APB_RST_DDR_SS ((CRF_APB_BASEADDR) + 0X00000108U)
+#define PSU_MASK_POLL_TIME 1100000
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x000E0000U ,0x000E0000U)
- RegMask = (CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET_MASK | CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET_MASK | CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET_MASK | 0 );
+/**
+ * * Register: CRF_APB_DPLL_CTRL
+ */
+#define CRF_APB_DPLL_CTRL ((CRF_APB_BASEADDR) + 0X0000002C)
- RegVal = ((0x00000001U << CRF_APB_RST_FPD_TOP_PCIE_CFG_RESET_SHIFT
- | 0x00000001U << CRF_APB_RST_FPD_TOP_PCIE_CTRL_RESET_SHIFT
- | 0x00000001U << CRF_APB_RST_FPD_TOP_PCIE_BRIDGE_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x000E0000U ,0x000E0000U);
- /*############################################################################################################################ */
- // : PUTTING DP IN RESET
- /*Register : DP_TX_PHY_POWER_DOWN @ 0XFD4A0238</p>
+#define CRF_APB_DPLL_CTRL_DIV2_SHIFT 16
+#define CRF_APB_DPLL_CTRL_DIV2_WIDTH 1
- Two bits per lane. When set to 11, moves the GT to power down mode. When set to 00, GT will be in active state. bits [1:0] -
- ane0 Bits [3:2] - lane 1
- PSU_DP_DP_TX_PHY_POWER_DOWN_POWER_DWN 0XA
+#define CRF_APB_DPLL_CTRL_FBDIV_SHIFT 8
+#define CRF_APB_DPLL_CTRL_FBDIV_WIDTH 7
- Control PHY Power down
- (OFFSET, MASK, VALUE) (0XFD4A0238, 0x0000000FU ,0x0000000AU)
- RegMask = (DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_MASK | 0 );
+#define CRF_APB_DPLL_CTRL_BYPASS_SHIFT 3
+#define CRF_APB_DPLL_CTRL_BYPASS_WIDTH 1
- RegVal = ((0x0000000AU << DP_DP_TX_PHY_POWER_DOWN_POWER_DWN_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DP_DP_TX_PHY_POWER_DOWN_OFFSET ,0x0000000FU ,0x0000000AU);
- /*############################################################################################################################ */
+#define CRF_APB_DPLL_CTRL_RESET_SHIFT 0
+#define CRF_APB_DPLL_CTRL_RESET_WIDTH 1
- /*Register : DP_PHY_RESET @ 0XFD4A0200</p>
+/**
+ * * Register: CRF_APB_DPLL_CFG
+ */
+#define CRF_APB_DPLL_CFG ((CRF_APB_BASEADDR) + 0X00000030)
- Set to '1' to hold the GT in reset. Clear to release.
- PSU_DP_DP_PHY_RESET_GT_RESET 0X1
+#define CRF_APB_DPLL_CFG_LOCK_DLY_SHIFT 25
+#define CRF_APB_DPLL_CFG_LOCK_DLY_WIDTH 7
- Reset the transmitter PHY.
- (OFFSET, MASK, VALUE) (0XFD4A0200, 0x00000002U ,0x00000002U)
- RegMask = (DP_DP_PHY_RESET_GT_RESET_MASK | 0 );
+#define CRF_APB_DPLL_CFG_LOCK_CNT_SHIFT 13
+#define CRF_APB_DPLL_CFG_LOCK_CNT_WIDTH 10
- RegVal = ((0x00000001U << DP_DP_PHY_RESET_GT_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (DP_DP_PHY_RESET_OFFSET ,0x00000002U ,0x00000002U);
- /*############################################################################################################################ */
+#define CRF_APB_DPLL_CFG_LFHF_SHIFT 10
+#define CRF_APB_DPLL_CFG_LFHF_WIDTH 2
- /*Register : RST_FPD_TOP @ 0XFD1A0100</p>
+#define CRF_APB_DPLL_CFG_CP_SHIFT 5
+#define CRF_APB_DPLL_CFG_CP_WIDTH 4
- Display Port block level reset (includes DPDMA)
- PSU_CRF_APB_RST_FPD_TOP_DP_RESET 0X1
+#define CRF_APB_DPLL_CFG_RES_SHIFT 0
+#define CRF_APB_DPLL_CFG_RES_WIDTH 4
- FPD Block level software controlled reset
- (OFFSET, MASK, VALUE) (0XFD1A0100, 0x00010000U ,0x00010000U)
- RegMask = (CRF_APB_RST_FPD_TOP_DP_RESET_MASK | 0 );
+/**
+ * Register: CRF_APB_PLL_STATUS
+ */
+#define CRF_APB_PLL_STATUS ((CRF_APB_BASEADDR) + 0X00000044)
- RegVal = ((0x00000001U << CRF_APB_RST_FPD_TOP_DP_RESET_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (CRF_APB_RST_FPD_TOP_OFFSET ,0x00010000U ,0x00010000U);
- /*############################################################################################################################ */
+static int mask_pollOnValue(u32 add, u32 mask, u32 value)
+{
+ volatile u32 *addr = (volatile u32 *)(unsigned long) add;
+ int i = 0;
- return 1;
+ while ((*addr & mask) != value) {
+ if (i == PSU_MASK_POLL_TIME)
+ return 0;
+ i++;
+ }
+ return 1;
}
-unsigned long psu_ps_pl_isolation_removal_data() {
- // : PS-PL POWER UP REQUEST
- /*Register : REQ_PWRUP_INT_EN @ 0XFFD80118</p>
-
- Power-up Request Interrupt Enable for PL
- PSU_PMU_GLOBAL_REQ_PWRUP_INT_EN_PL 1
-
- Power-up Request Interrupt Enable Register. Writing a 1 to this location will unmask the interrupt.
- (OFFSET, MASK, VALUE) (0XFFD80118, 0x00800000U ,0x00800000U)
- RegMask = (PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_MASK | 0 );
-
- RegVal = ((0x00000001U << PMU_GLOBAL_REQ_PWRUP_INT_EN_PL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PMU_GLOBAL_REQ_PWRUP_INT_EN_OFFSET ,0x00800000U ,0x00800000U);
- /*############################################################################################################################ */
-
- /*Register : REQ_PWRUP_TRIG @ 0XFFD80120</p>
-
- Power-up Request Trigger for PL
- PSU_PMU_GLOBAL_REQ_PWRUP_TRIG_PL 1
-
- Power-up Request Trigger Register. A write of one to this location will generate a power-up request to the PMU.
- (OFFSET, MASK, VALUE) (0XFFD80120, 0x00800000U ,0x00800000U)
- RegMask = (PMU_GLOBAL_REQ_PWRUP_TRIG_PL_MASK | 0 );
-
- RegVal = ((0x00000001U << PMU_GLOBAL_REQ_PWRUP_TRIG_PL_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (PMU_GLOBAL_REQ_PWRUP_TRIG_OFFSET ,0x00800000U ,0x00800000U);
- /*############################################################################################################################ */
-
- // : POLL ON PL POWER STATUS
- /*Register : REQ_PWRUP_STATUS @ 0XFFD80110</p>
-
- Power-up Request Status for PL
- PSU_PMU_GLOBAL_REQ_PWRUP_STATUS_PL 1
- (OFFSET, MASK, VALUE) (0XFFD80110, 0x00800000U ,0x00000000U) */
- mask_pollOnValue(PMU_GLOBAL_REQ_PWRUP_STATUS_OFFSET,0x00800000U,0x00000000U);
-
- /*############################################################################################################################ */
+static int mask_poll(u32 add, u32 mask)
+{
+ volatile u32 *addr = (volatile u32 *)(unsigned long) add;
+ int i = 0;
- return 1;
+ while (!(*addr & mask)) {
+ if (i == PSU_MASK_POLL_TIME)
+ return 0;
+ i++;
+ }
+ return 1;
}
-unsigned long psu_ps_pl_reset_config_data() {
- // : PS PL RESET SEQUENCE
- // : FABRIC RESET USING EMIO
- /*Register : MASK_DATA_5_MSW @ 0XFF0A002C</p>
-
- Operation is the same as MASK_DATA_0_LSW[MASK_0_LSW]
- PSU_GPIO_MASK_DATA_5_MSW_MASK_5_MSW 0x8000
-
- Maskable Output Data (GPIO Bank5, EMIO, Upper 16bits)
- (OFFSET, MASK, VALUE) (0XFF0A002C, 0xFFFF0000U ,0x80000000U)
- RegMask = (GPIO_MASK_DATA_5_MSW_MASK_5_MSW_MASK | 0 );
-
- RegVal = ((0x00008000U << GPIO_MASK_DATA_5_MSW_MASK_5_MSW_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (GPIO_MASK_DATA_5_MSW_OFFSET ,0xFFFF0000U ,0x80000000U);
- /*############################################################################################################################ */
-
- /*Register : DIRM_5 @ 0XFF0A0344</p>
-
- Operation is the same as DIRM_0[DIRECTION_0]
- PSU_GPIO_DIRM_5_DIRECTION_5 0x80000000
-
- Direction mode (GPIO Bank5, EMIO)
- (OFFSET, MASK, VALUE) (0XFF0A0344, 0xFFFFFFFFU ,0x80000000U)
- RegMask = (GPIO_DIRM_5_DIRECTION_5_MASK | 0 );
-
- RegVal = ((0x80000000U << GPIO_DIRM_5_DIRECTION_5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (GPIO_DIRM_5_OFFSET ,0xFFFFFFFFU ,0x80000000U);
- /*############################################################################################################################ */
-
- /*Register : OEN_5 @ 0XFF0A0348</p>
-
- Operation is the same as OEN_0[OP_ENABLE_0]
- PSU_GPIO_OEN_5_OP_ENABLE_5 0x80000000
-
- Output enable (GPIO Bank5, EMIO)
- (OFFSET, MASK, VALUE) (0XFF0A0348, 0xFFFFFFFFU ,0x80000000U)
- RegMask = (GPIO_OEN_5_OP_ENABLE_5_MASK | 0 );
-
- RegVal = ((0x80000000U << GPIO_OEN_5_OP_ENABLE_5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (GPIO_OEN_5_OFFSET ,0xFFFFFFFFU ,0x80000000U);
- /*############################################################################################################################ */
-
- /*Register : DATA_5 @ 0XFF0A0054</p>
- Output Data
- PSU_GPIO_DATA_5_DATA_5 0x80000000
-
- Output Data (GPIO Bank5, EMIO)
- (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x80000000U)
- RegMask = (GPIO_DATA_5_DATA_5_MASK | 0 );
-
- RegVal = ((0x80000000U << GPIO_DATA_5_DATA_5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (GPIO_DATA_5_OFFSET ,0xFFFFFFFFU ,0x80000000U);
- /*############################################################################################################################ */
+static void mask_delay(u32 delay)
+{
+ usleep(delay);
+}
- mask_delay(1);
+static u32 mask_read(u32 add, u32 mask)
+{
+ volatile u32 *addr = (volatile u32 *)(unsigned long) add;
+ u32 val = (*addr & mask);
+ return val;
+}
- /*############################################################################################################################ */
+static void dpll_prog(int ddr_pll_fbdiv, int d_lock_dly, int d_lock_cnt,
+ int d_lfhf, int d_cp, int d_res) {
+
+ unsigned int pll_ctrl_regval;
+ unsigned int pll_status_regval;
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CTRL);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CTRL_DIV2_MASK);
+ pll_ctrl_regval = pll_ctrl_regval | (1 << CRF_APB_DPLL_CTRL_DIV2_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CTRL, pll_ctrl_regval);
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CFG);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CFG_LOCK_DLY_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (d_lock_dly << CRF_APB_DPLL_CFG_LOCK_DLY_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CFG, pll_ctrl_regval);
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CFG);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CFG_LOCK_CNT_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (d_lock_cnt << CRF_APB_DPLL_CFG_LOCK_CNT_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CFG, pll_ctrl_regval);
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CFG);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CFG_LFHF_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (d_lfhf << CRF_APB_DPLL_CFG_LFHF_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CFG, pll_ctrl_regval);
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CFG);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CFG_CP_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (d_cp << CRF_APB_DPLL_CFG_CP_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CFG, pll_ctrl_regval);
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CFG);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CFG_RES_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (d_res << CRF_APB_DPLL_CFG_RES_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CFG, pll_ctrl_regval);
+
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CTRL);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CTRL_FBDIV_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (ddr_pll_fbdiv << CRF_APB_DPLL_CTRL_FBDIV_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CTRL, pll_ctrl_regval);
+
+ /*Setting PLL BYPASS*/
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CTRL);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CTRL_BYPASS_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (1 << CRF_APB_DPLL_CTRL_BYPASS_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CTRL, pll_ctrl_regval);
+
+ /*Setting PLL RESET*/
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CTRL);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CTRL_RESET_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (1 << CRF_APB_DPLL_CTRL_RESET_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CTRL, pll_ctrl_regval);
+
+ /*Clearing PLL RESET*/
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CTRL);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CTRL_RESET_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (0 << CRF_APB_DPLL_CTRL_RESET_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CTRL, pll_ctrl_regval);
+
+ /*Checking PLL lock*/
+ pll_status_regval = 0x00000000;
+ while ((pll_status_regval & CRF_APB_PLL_STATUS_DPLL_LOCK_MASK) !=
+ CRF_APB_PLL_STATUS_DPLL_LOCK_MASK)
+ pll_status_regval = Xil_In32(CRF_APB_PLL_STATUS);
+
+
+
+
+ /*Clearing PLL BYPASS*/
+ pll_ctrl_regval = Xil_In32(CRF_APB_DPLL_CTRL);
+ pll_ctrl_regval = pll_ctrl_regval & (~CRF_APB_DPLL_CTRL_BYPASS_MASK);
+ pll_ctrl_regval = pll_ctrl_regval |
+ (0 << CRF_APB_DPLL_CTRL_BYPASS_SHIFT);
+ Xil_Out32(CRF_APB_DPLL_CTRL, pll_ctrl_regval);
- // : FABRIC RESET USING DATA_5 TOGGLE
- /*Register : DATA_5 @ 0XFF0A0054</p>
+}
- Output Data
- PSU_GPIO_DATA_5_DATA_5 0X00000000
+/*Following SERDES programming sequences that a user need to follow to work
+ * around the known limitation with SERDES. These sequences should done
+ * before STEP 1 and STEP 2 as described in previous section. These
+ * programming steps are *required for current silicon version and are
+ * likely to undergo further changes with subsequent silicon versions.
+ */
- Output Data (GPIO Bank5, EMIO)
- (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x00000000U)
- RegMask = (GPIO_DATA_5_DATA_5_MASK | 0 );
- RegVal = ((0x00000000U << GPIO_DATA_5_DATA_5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (GPIO_DATA_5_OFFSET ,0xFFFFFFFFU ,0x00000000U);
- /*############################################################################################################################ */
+static int serdes_enb_coarse_saturation(void)
+{
+ /*Enable PLL Coarse Code saturation Logic*/
+ Xil_Out32(0xFD402094, 0x00000010);
+ Xil_Out32(0xFD406094, 0x00000010);
+ Xil_Out32(0xFD40A094, 0x00000010);
+ Xil_Out32(0xFD40E094, 0x00000010);
+ return 1;
+}
- mask_delay(1);
+int serdes_fixcal_code(void)
+{
+ int MaskStatus = 1;
- /*############################################################################################################################ */
+ unsigned int rdata = 0;
+
+ /*The valid codes are from 0x26 to 0x3C.
+ *There are 23 valid codes in total.
+ */
+ /*Each element of array stands for count of occurence of valid code.*/
+ unsigned int match_pmos_code[23];
+ /*Each element of array stands for count of occurence of valid code.*/
+ /*The valid codes are from 0xC to 0x12.
+ *There are 7 valid codes in total.
+ */
+ unsigned int match_nmos_code[23];
+ /*Each element of array stands for count of occurence of valid code.*/
+ /*The valid codes are from 0x6 to 0xC.
+ * There are 7 valid codes in total.
+ */
+ unsigned int match_ical_code[7];
+ /*Each element of array stands for count of occurence of valid code.*/
+ unsigned int match_rcal_code[7];
+
+ unsigned int p_code = 0;
+ unsigned int n_code = 0;
+ unsigned int i_code = 0;
+ unsigned int r_code = 0;
+ unsigned int repeat_count = 0;
+ unsigned int L3_TM_CALIB_DIG20 = 0;
+ unsigned int L3_TM_CALIB_DIG19 = 0;
+ unsigned int L3_TM_CALIB_DIG18 = 0;
+ unsigned int L3_TM_CALIB_DIG16 = 0;
+ unsigned int L3_TM_CALIB_DIG15 = 0;
+ unsigned int L3_TM_CALIB_DIG14 = 0;
- // : FABRIC RESET USING DATA_5 TOGGLE
- /*Register : DATA_5 @ 0XFF0A0054</p>
+ int i = 0;
- Output Data
- PSU_GPIO_DATA_5_DATA_5 0x80000000
+ rdata = Xil_In32(0XFD40289C);
+ rdata = rdata & ~0x03;
+ rdata = rdata | 0x1;
+ Xil_Out32(0XFD40289C, rdata);
+ // check supply good status before starting AFE sequencing
+ int count = 0;
+ do
+ {
+ if (count == PSU_MASK_POLL_TIME)
+ break;
+ rdata = Xil_In32(0xFD402B1C);
+ count++;
+ }while((rdata&0x0000000E) !=0x0000000E);
+
+ for (i = 0; i < 23; i++) {
+ match_pmos_code[i] = 0;
+ match_nmos_code[i] = 0;
+ }
+ for (i = 0; i < 7; i++) {
+ match_ical_code[i] = 0;
+ match_rcal_code[i] = 0;
+ }
- Output Data (GPIO Bank5, EMIO)
- (OFFSET, MASK, VALUE) (0XFF0A0054, 0xFFFFFFFFU ,0x80000000U)
- RegMask = (GPIO_DATA_5_DATA_5_MASK | 0 );
- RegVal = ((0x80000000U << GPIO_DATA_5_DATA_5_SHIFT
- | 0 ) & RegMask); */
- PSU_Mask_Write (GPIO_DATA_5_OFFSET ,0xFFFFFFFFU ,0x80000000U);
- /*############################################################################################################################ */
+ do {
+ /*Clear ICM_CFG value*/
+ Xil_Out32(0xFD410010, 0x00000000);
+ Xil_Out32(0xFD410014, 0x00000000);
+ /*Set ICM_CFG value*/
+ /*This will trigger recalibration of all stages*/
+ Xil_Out32(0xFD410010, 0x00000001);
+ Xil_Out32(0xFD410014, 0x00000000);
- return 1;
-}
+ /*is calibration done? polling on L3_CALIB_DONE_STATUS*/
+ MaskStatus = mask_poll(0xFD40EF14, 0x2);
+ if (MaskStatus == 0) {
+ /*failure here is because of calibration done timeout*/
+ xil_printf("#SERDES initialization timed out\n\r");
+ return MaskStatus;
+ }
-unsigned long psu_ddr_phybringup_data() {
-
-
- unsigned int regval = 0;
- int dpll_divisor;
- dpll_divisor = (Xil_In32(0xFD1A0080U) & 0x00003F00U) >> 0x00000008U;
- prog_reg (0xFD1A0080U, 0x00003F00U, 0x00000008U, 0x00000005U);
- prog_reg (0xFD080028U, 0x00000001U, 0x00000000U, 0x00000001U);
- Xil_Out32(0xFD080004U, 0x00040003U);
- while ((Xil_In32(0xFD080030U) & 0x00000001U) != 0x00000001U);
- prog_reg (0xFD080684U, 0x06000000U, 0x00000019U, 0x00000001U);
- prog_reg (0xFD0806A4U, 0x06000000U, 0x00000019U, 0x00000001U);
- prog_reg (0xFD0806C4U, 0x06000000U, 0x00000019U, 0x00000001U);
- prog_reg (0xFD0806E4U, 0x06000000U, 0x00000019U, 0x00000001U);
- prog_reg (0xFD1A0080, 0x3F00, 0x8, dpll_divisor);
- Xil_Out32(0xFD080004U, 0x40040071U);
- while ((Xil_In32(0xFD080030U) & 0x00000001U) != 0x00000001U);
- Xil_Out32(0xFD080004U, 0x40040001U);
- while ((Xil_In32(0xFD080030U) & 0x00000001U) != 0x00000001U);
- // PHY BRINGUP SEQ
- while ((Xil_In32(0xFD080030U) & 0x0000000FU) != 0x0000000FU);
- prog_reg (0xFD080004U, 0x00000001U, 0x00000000U, 0x00000001U);
- //poll for PHY initialization to complete
- while ((Xil_In32(0xFD080030U) & 0x000000FFU) != 0x0000001FU);
-
- Xil_Out32(0xFD0701B0U, 0x00000001U);
- Xil_Out32(0xFD070320U, 0x00000001U);
- while ((Xil_In32(0xFD070004U) & 0x0000000FU) != 0x00000001U);
- prog_reg (0xFD080014U, 0x00000040U, 0x00000006U, 0x00000001U);
- Xil_Out32(0xFD080004, 0x0004FE01); //PUB_PIR
- regval = Xil_In32(0xFD080030); //PUB_PGSR0
- while(regval != 0x80000FFF){
- regval = Xil_In32(0xFD080030); //PUB_PGSR0
- }
-
-
- // Run Vref training in static read mode
- Xil_Out32(0xFD080200U, 0x100091C7U);
- Xil_Out32(0xFD080018U, 0x00F01EF2U);
- Xil_Out32(0xFD08001CU, 0x55AA5498U);
- Xil_Out32(0xFD08142CU, 0x00041830U);
- Xil_Out32(0xFD08146CU, 0x00041830U);
- Xil_Out32(0xFD0814ACU, 0x00041830U);
- Xil_Out32(0xFD0814ECU, 0x00041830U);
- Xil_Out32(0xFD08152CU, 0x00041830U);
-
-
- Xil_Out32(0xFD080004, 0x00060001); //PUB_PIR
- regval = Xil_In32(0xFD080030); //PUB_PGSR0
- while((regval & 0x80004001) != 0x80004001){
- regval = Xil_In32(0xFD080030); //PUB_PGSR0
- }
-
- // Vref training is complete, disabling static read mode
- Xil_Out32(0xFD080200U, 0x800091C7U);
- Xil_Out32(0xFD080018U, 0x00F12302U);
- Xil_Out32(0xFD08001CU, 0x55AA5480U);
- Xil_Out32(0xFD08142CU, 0x00041800U);
- Xil_Out32(0xFD08146CU, 0x00041800U);
- Xil_Out32(0xFD0814ACU, 0x00041800U);
- Xil_Out32(0xFD0814ECU, 0x00041800U);
- Xil_Out32(0xFD08152CU, 0x00041800U);
-
-
- Xil_Out32(0xFD080004, 0x0000C001); //PUB_PIR
- regval = Xil_In32(0xFD080030); //PUB_PGSR0
- while((regval & 0x80000C01) != 0x80000C01){
- regval = Xil_In32(0xFD080030); //PUB_PGSR0
- }
+ p_code = mask_read(0xFD40EF18, 0xFFFFFFFF);/*PMOS code*/
+ n_code = mask_read(0xFD40EF1C, 0xFFFFFFFF);/*NMOS code*/
+ /*m_code = mask_read(0xFD40EF20, 0xFFFFFFFF)*/;/*MPHY code*/
+ i_code = mask_read(0xFD40EF24, 0xFFFFFFFF);/*ICAL code*/
+ r_code = mask_read(0xFD40EF28, 0xFFFFFFFF);/*RX code*/
+ /*u_code = mask_read(0xFD40EF2C, 0xFFFFFFFF)*/;/*USB2 code*/
- Xil_Out32(0xFD070180U, 0x01000040U);
- Xil_Out32(0xFD070060U, 0x00000000U);
- prog_reg (0xFD080014U, 0x00000040U, 0x00000006U, 0x00000000U);
+ /*PMOS code in acceptable range*/
+ if ((p_code >= 0x26) && (p_code <= 0x3C))
+ match_pmos_code[p_code - 0x26] += 1;
-return 1;
-}
+ /*NMOS code in acceptable range*/
+ if ((n_code >= 0x26) && (n_code <= 0x3C))
+ match_nmos_code[n_code - 0x26] += 1;
-/**
- * CRL_APB Base Address
- */
-#define CRL_APB_BASEADDR 0XFF5E0000U
-#define CRL_APB_RST_LPD_IOU0 ( ( CRL_APB_BASEADDR ) + 0X00000230U )
-#define CRL_APB_RST_LPD_IOU1 ( ( CRL_APB_BASEADDR ) + 0X00000234U )
-#define CRL_APB_RST_LPD_IOU2 ( ( CRL_APB_BASEADDR ) + 0X00000238U )
-#define CRL_APB_RST_LPD_TOP ( ( CRL_APB_BASEADDR ) + 0X0000023CU )
-#define CRL_APB_IOU_SWITCH_CTRL ( ( CRL_APB_BASEADDR ) + 0X0000009CU )
+ /*PMOS code in acceptable range*/
+ if ((i_code >= 0xC) && (i_code <= 0x12))
+ match_ical_code[i_code - 0xC] += 1;
-/**
- * CRF_APB Base Address
- */
-#define CRF_APB_BASEADDR 0XFD1A0000U
+ /*NMOS code in acceptable range*/
+ if ((r_code >= 0x6) && (r_code <= 0xC))
+ match_rcal_code[r_code - 0x6] += 1;
-#define CRF_APB_RST_FPD_TOP ( ( CRF_APB_BASEADDR ) + 0X00000100U )
-#define CRF_APB_GPU_REF_CTRL ( ( CRF_APB_BASEADDR ) + 0X00000084U )
-#define CRF_APB_RST_DDR_SS ( ( CRF_APB_BASEADDR ) + 0X00000108U )
-#define PSU_MASK_POLL_TIME 1100000
+ } while (repeat_count++ < 10);
-int mask_pollOnValue(u32 add , u32 mask, u32 value ) {
- volatile u32 *addr = (volatile u32*)(unsigned long) add;
- int i = 0;
- while ((*addr & mask)!= value) {
- if (i == PSU_MASK_POLL_TIME) {
- return 0;
+ /*find the valid code which resulted in maximum times in 10 iterations*/
+ for (i = 0; i < 23; i++) {
+ if (match_pmos_code[i] >= match_pmos_code[0]) {
+ match_pmos_code[0] = match_pmos_code[i];
+ p_code = 0x26 + i;
+ }
+ if (match_nmos_code[i] >= match_nmos_code[0]) {
+ match_nmos_code[0] = match_nmos_code[i];
+ n_code = 0x26 + i;
}
- i++;
}
- return 1;
- //xil_printf("MaskPoll : 0x%x --> 0x%x \n \r" , add, *addr);
-}
-int mask_poll(u32 add , u32 mask) {
- volatile u32 *addr = (volatile u32*)(unsigned long) add;
- int i = 0;
- while (!(*addr & mask)) {
- if (i == PSU_MASK_POLL_TIME) {
- return 0;
+ for (i = 0; i < 7; i++) {
+ if (match_ical_code[i] >= match_ical_code[0]) {
+ match_ical_code[0] = match_ical_code[i];
+ i_code = 0xC + i;
+ }
+ if (match_rcal_code[i] >= match_rcal_code[0]) {
+ match_rcal_code[0] = match_rcal_code[i];
+ r_code = 0x6 + i;
}
- i++;
}
- return 1;
- //xil_printf("MaskPoll : 0x%x --> 0x%x \n \r" , add, *addr);
-}
-
-void mask_delay(u32 delay) {
- usleep (delay);
-}
-
-u32 mask_read(u32 add , u32 mask ) {
- volatile u32 *addr = (volatile u32*)(unsigned long) add;
- u32 val = (*addr & mask);
- //xil_printf("MaskRead : 0x%x --> 0x%x \n \r" , add, val);
- return val;
-}
-
-
-//Following SERDES programming sequences that a user need to follow to work around the known limitation with SERDES.
-//These sequences should done before STEP 1 and STEP 2 as described in previous section. These programming steps are
-//required for current silicon version and are likely to undergo further changes with subsequent silicon versions.
-
-
-
-int serdes_fixcal_code() {
- int MaskStatus = 1;
-
- // L3_TM_CALIB_DIG19
- Xil_Out32(0xFD40EC4C,0x00000020);
- //ICM_CFG0
- Xil_Out32(0xFD410010,0x00000001);
-
- //is calibration done, polling on L3_CALIB_DONE_STATUS
- MaskStatus = mask_poll(0xFD40EF14, 0x2);
-
- if (MaskStatus == 0)
- {
- xil_printf("SERDES initialization timed out\n\r");
- }
-
- unsigned int tmp_0_1;
- tmp_0_1 = mask_read(0xFD400B0C, 0x3F);
-
- unsigned int tmp_0_2 = tmp_0_1 & (0x7);
- unsigned int tmp_0_3 = tmp_0_1 & (0x38);
- //Configure ICM for de-asserting CMN_Resetn
- Xil_Out32(0xFD410010,0x00000000);
- Xil_Out32(0xFD410014,0x00000000);
-
- unsigned int tmp_0_2_mod = (tmp_0_2 <<1) | (0x1);
- tmp_0_2_mod = (tmp_0_2_mod <<4);
-
- tmp_0_3 = tmp_0_3 >>3;
- Xil_Out32(0xFD40EC4C,tmp_0_3);
-
- //L3_TM_CALIB_DIG18
- Xil_Out32(0xFD40EC48,tmp_0_2_mod);
- return MaskStatus;
-
-
-}
+ /*L3_TM_CALIB_DIG20[3] PSW MSB Override*/
+ /*L3_TM_CALIB_DIG20[2:0] PSW Code [4:2]*/
+ L3_TM_CALIB_DIG20 = mask_read(0xFD40EC50, 0xFFFFFFF0);/*read DIG20*/
+ L3_TM_CALIB_DIG20 = L3_TM_CALIB_DIG20 | 0x8 | ((p_code >> 2) & 0x7);
+
+
+ /*L3_TM_CALIB_DIG19[7:6] PSW Code [1:0]*/
+ /*L3_TM_CALIB_DIG19[5] PSW Override*/
+ /*L3_TM_CALIB_DIG19[2] NSW MSB Override*/
+ /*L3_TM_CALIB_DIG19[1:0] NSW Code [4:3]*/
+ L3_TM_CALIB_DIG19 = mask_read(0xFD40EC4C, 0xFFFFFF18);/*read DIG19*/
+ L3_TM_CALIB_DIG19 = L3_TM_CALIB_DIG19 | ((p_code & 0x3) << 6)
+ | 0x20 | 0x4 | ((n_code >> 3) & 0x3);
+
+ /*L3_TM_CALIB_DIG18[7:5] NSW Code [2:0]*/
+ /*L3_TM_CALIB_DIG18[4] NSW Override*/
+ L3_TM_CALIB_DIG18 = mask_read(0xFD40EC48, 0xFFFFFF0F);/*read DIG18*/
+ L3_TM_CALIB_DIG18 = L3_TM_CALIB_DIG18 | ((n_code & 0x7) << 5) | 0x10;
+
+
+ /*L3_TM_CALIB_DIG16[2:0] RX Code [3:1]*/
+ L3_TM_CALIB_DIG16 = mask_read(0xFD40EC40, 0xFFFFFFF8);/*read DIG16*/
+ L3_TM_CALIB_DIG16 = L3_TM_CALIB_DIG16 | ((r_code >> 1) & 0x7);
+
+ /*L3_TM_CALIB_DIG15[7] RX Code [0]*/
+ /*L3_TM_CALIB_DIG15[6] RX CODE Override*/
+ /*L3_TM_CALIB_DIG15[3] ICAL MSB Override*/
+ /*L3_TM_CALIB_DIG15[2:0] ICAL Code [3:1]*/
+ L3_TM_CALIB_DIG15 = mask_read(0xFD40EC3C, 0xFFFFFF30);/*read DIG15*/
+ L3_TM_CALIB_DIG15 = L3_TM_CALIB_DIG15 | ((r_code & 0x1) << 7)
+ | 0x40 | 0x8 | ((i_code >> 1) & 0x7);
+
+ /*L3_TM_CALIB_DIG14[7] ICAL Code [0]*/
+ /*L3_TM_CALIB_DIG14[6] ICAL Override*/
+ L3_TM_CALIB_DIG14 = mask_read(0xFD40EC38, 0xFFFFFF3F);/*read DIG14*/
+ L3_TM_CALIB_DIG14 = L3_TM_CALIB_DIG14 | ((i_code & 0x1) << 7) | 0x40;
+
+ /*Forces the calibration values*/
+ Xil_Out32(0xFD40EC50, L3_TM_CALIB_DIG20);
+ Xil_Out32(0xFD40EC4C, L3_TM_CALIB_DIG19);
+ Xil_Out32(0xFD40EC48, L3_TM_CALIB_DIG18);
+ Xil_Out32(0xFD40EC40, L3_TM_CALIB_DIG16);
+ Xil_Out32(0xFD40EC3C, L3_TM_CALIB_DIG15);
+ Xil_Out32(0xFD40EC38, L3_TM_CALIB_DIG14);
+ return MaskStatus;
-int serdes_enb_coarse_saturation() {
- //Enable PLL Coarse Code saturation Logic
- Xil_Out32(0xFD402094,0x00000010);
- Xil_Out32(0xFD406094,0x00000010);
- Xil_Out32(0xFD40A094,0x00000010);
- Xil_Out32(0xFD40E094,0x00000010);
- return 1;
}
-
-int init_serdes() {
+static int init_serdes(void)
+{
int status = 1;
+
status &= psu_resetin_init_data();
status &= serdes_fixcal_code();
status &= serdes_enb_coarse_saturation();
- status &= psu_serdes_init_data();
+ status &= psu_serdes_init_data();
status &= psu_resetout_init_data();
return status;
}
-
-
-
-
-void init_peripheral()
+static void init_peripheral(void)
{
- unsigned int RegValue;
-
- /* Turn on IOU Clock */
- //Xil_Out32( CRL_APB_IOU_SWITCH_CTRL, 0x01001500);
-
- /* Release all resets in the IOU */
- Xil_Out32( CRL_APB_RST_LPD_IOU0, 0x00000000);
- Xil_Out32( CRL_APB_RST_LPD_IOU1, 0x00000000);
- Xil_Out32( CRL_APB_RST_LPD_IOU2, 0x00000000);
-
- /* Activate GPU clocks */
- //Xil_Out32(CRF_APB_GPU_REF_CTRL, 0x07001500);
-
- /* Take LPD out of reset except R5 */
- RegValue = Xil_In32(CRL_APB_RST_LPD_TOP);
- RegValue &= 0x7;
- Xil_Out32( CRL_APB_RST_LPD_TOP, RegValue);
-
- /* Take most of FPD out of reset */
- Xil_Out32( CRF_APB_RST_FPD_TOP, 0x00000000);
-
- /* Making DPDMA as secure */
- unsigned int tmp_regval;
- tmp_regval = Xil_In32(0xFD690040);
- tmp_regval &= ~0x00000001;
- Xil_Out32(0xFD690040, tmp_regval);
-
- /* Making PCIe as secure */
- tmp_regval = Xil_In32(0xFD690030);
- tmp_regval &= ~0x00000001;
- Xil_Out32(0xFD690030, tmp_regval);
+/*SMMU_REG Interrrupt Enable: Followig register need to be written all the time to properly catch SMMU messages.*/
+ PSU_Mask_Write(0xFD5F0018, 0x8000001FU, 0x8000001FU);
}
-int psu_init_xppu_aper_ram() {
- unsigned long APER_OFFSET = 0xFF981000;
- int i = 0;
- for (; i <= 400; i++) {
- PSU_Mask_Write (APER_OFFSET ,0xF80FFFFFU ,0x08080000U);
- APER_OFFSET = APER_OFFSET + 0x4;
- }
+static int psu_init_xppu_aper_ram(void)
+{
return 0;
}
-int psu_lpd_protection() {
- psu_init_xppu_aper_ram();
- psu_lpd_xppu_data();
- return 0;
+int psu_lpd_protection(void)
+{
+ psu_init_xppu_aper_ram();
+ return 0;
}
-int psu_ddr_protection() {
- psu_ddr_xmpu0_data();
- psu_ddr_xmpu1_data();
- psu_ddr_xmpu2_data();
- psu_ddr_xmpu3_data();
- psu_ddr_xmpu4_data();
- psu_ddr_xmpu5_data();
- return 0;
+int psu_ddr_protection(void)
+{
+ psu_ddr_xmpu0_data();
+ psu_ddr_xmpu1_data();
+ psu_ddr_xmpu2_data();
+ psu_ddr_xmpu3_data();
+ psu_ddr_xmpu4_data();
+ psu_ddr_xmpu5_data();
+ return 0;
}
-int psu_ocm_protection() {
- psu_ocm_xmpu_data();
- return 0;
+int psu_ocm_protection(void)
+{
+ psu_ocm_xmpu_data();
+ return 0;
}
-int psu_fpd_protection() {
- psu_fpd_xmpu_data();
- return 0;
+int psu_fpd_protection(void)
+{
+ psu_fpd_xmpu_data();
+ return 0;
}
-int psu_protection_lock() {
- psu_protection_lock_data();
- return 0;
+int psu_protection_lock(void)
+{
+ psu_protection_lock_data();
+ return 0;
}
-int psu_protection() {
- psu_ddr_protection();
- psu_ocm_protection();
- psu_fpd_protection();
- psu_lpd_protection();
- return 0;
+int psu_protection(void)
+{
+ psu_apply_master_tz();
+ psu_ddr_protection();
+ psu_ocm_protection();
+ psu_fpd_protection();
+ psu_lpd_protection();
+ return 0;
}
-
-
int
-psu_init()
+psu_init(void)
{
- int status = 1;
- status &= psu_mio_init_data ();
- status &= psu_pll_init_data ();
- status &= psu_clock_init_data ();
-
- status &= psu_ddr_init_data ();
- status &= psu_ddr_phybringup_data ();
- status &= psu_peripherals_init_data ();
+ int status = 1;
+ status &= psu_mio_init_data();
+ status &= psu_pll_init_data();
+ status &= psu_clock_init_data();
+ status &= psu_ddr_init_data();
+ status &= psu_ddr_phybringup_data();
+ status &= psu_peripherals_init_data();
status &= init_serdes();
- init_peripheral ();
+ init_peripheral();
- status &= psu_peripherals_powerdwn_data ();
-
- if (status == 0) {
+ status &= psu_peripherals_powerdwn_data();
+ status &= psu_afi_config();
+ psu_ddr_qos_init_data();
+
+ if (status == 0)
return 1;
- }
return 0;
}