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[freertos] / FreeRTOS / Demo / CORTEX_SmartFusion2_M2S050_SoftConsole / RTOSDemo_Hardware_Platform / CMSIS / system_m2sxxx.c

/*******************************************************************************\r
 * (c) Copyright 2012-2013 Microsemi SoC Products Group. All rights reserved.\r
 * \r
 *  SmartFusion2 CMSIS system initialization.\r
 *\r
 * SVN $Revision: 5280 $\r
 * SVN $Date: 2013-03-22 20:51:50 +0000 (Fri, 22 Mar 2013) $\r
 */\r
#include "m2sxxx.h"\r
#include "../drivers_config/sys_config/sys_config.h"\r
#include "sys_init_cfg_types.h"\r
\r
/*------------------------------------------------------------------------------\r
  Silicon revisions.\r
 */\r
#define UNKNOWN_SILICON_REV     0\r
#define M2S050_REV_A_SILICON    1\r
#define M2S050_REV_B_SILICON    2\r
\r
/*------------------------------------------------------------------------------\r
 * \r
 */\r
void mscc_post_hw_cfg_init(void);\r
\r
/*------------------------------------------------------------------------------\r
 * System registers of interest.\r
 */\r
/*\r
 * MSSDDR_FACC1_CR register masks:\r
 */\r
#define DDR_CLK_EN_SHIFT    8u\r
#define FACC_GLMUX_SEL_MASK         0x00001000u\r
#define CONTROLLER_PLL_INIT_MASK    0x04000000u\r
#define RCOSC_DIV2_MASK             0x00000004u\r
\r
/*\r
 * MSSDDR_PLL_STATUS register masks:\r
 */\r
#define FAB_PLL_LOCK_MASK   0x00000001u\r
#define MPLL_LOCK_MASK      0x00000002u\r
\r
/*\r
 * MSSDDR_PLL_STATUS_HIGH_CR register masks:\r
 */\r
#define FACC_PLL_BYPASS_MASK    0x00000001u\r
\r
/*------------------------------------------------------------------------------\r
 * Standard CMSIS global variables.\r
 */\r
uint32_t SystemCoreClock = MSS_SYS_M3_CLK_FREQ;         /*!< System Clock Frequency (Core Clock) */\r
\r
/*------------------------------------------------------------------------------\r
 * SmartFusion2 specific clocks.\r
 */\r
uint32_t g_FrequencyPCLK0 = MSS_SYS_APB_0_CLK_FREQ;     /*!< Clock frequency of APB bus 0. */  \r
uint32_t g_FrequencyPCLK1 = MSS_SYS_APB_1_CLK_FREQ;     /*!< Clock frequency of APB bus 1. */\r
uint32_t g_FrequencyPCLK2 = MSS_SYS_APB_2_CLK_FREQ;     /*!< Clock frequency of APB bus 2. */\r
uint32_t g_FrequencyFIC0 = MSS_SYS_FIC_0_CLK_FREQ;      /*!< Clock frequecny of FPGA fabric interface controller 1. */\r
uint32_t g_FrequencyFIC1 = MSS_SYS_FIC_1_CLK_FREQ;      /*!< Clock frequecny of FPGA fabric inteface controller 2. */\r
uint32_t g_FrequencyFIC64 = MSS_SYS_FIC64_CLK_FREQ;     /*!< Clock frequecny of 64-bit FPGA fabric interface controller. */\r
\r
/*------------------------------------------------------------------------------\r
 * System configuration tables generated by Libero.\r
 */\r
#if MSS_SYS_MDDR_CONFIG_BY_CORTEX\r
extern MDDR_TypeDef * const g_m2s_mddr_addr;\r
extern const ddr_subsys_cfg_t g_m2s_mddr_subsys_config;\r
#endif\r
\r
#if MSS_SYS_FDDR_CONFIG_BY_CORTEX\r
extern FDDR_TypeDef * const g_m2s_fddr_addr;\r
extern const ddr_subsys_cfg_t g_m2s_fddr_subsys_config;\r
#endif\r
\r
#define MSS_SYS_SERDES_CONFIG_BY_CORTEX     (MSS_SYS_SERDES_0_CONFIG_BY_CORTEX || MSS_SYS_SERDES_1_CONFIG_BY_CORTEX || MSS_SYS_SERDES_2_CONFIG_BY_CORTEX || MSS_SYS_SERDES_3_CONFIG_BY_CORTEX)\r
\r
#if MSS_SYS_SERDES_0_CONFIG_BY_CORTEX\r
extern const cfg_addr_value_pair_t g_m2s_serdes_0_config[SERDES_0_CFG_NB_OF_PAIRS];\r
#endif\r
\r
#if MSS_SYS_SERDES_1_CONFIG_BY_CORTEX\r
extern const cfg_addr_value_pair_t g_m2s_serdes_1_config[SERDES_1_CFG_NB_OF_PAIRS];\r
#endif\r
\r
#if MSS_SYS_SERDES_2_CONFIG_BY_CORTEX\r
extern const cfg_addr_value_pair_t g_m2s_serdes_2_config[SERDES_2_CFG_NB_OF_PAIRS];\r
#endif\r
\r
#if MSS_SYS_SERDES_3_CONFIG_BY_CORTEX\r
extern const cfg_addr_value_pair_t g_m2s_serdes_3_config[SERDES_3_CFG_NB_OF_PAIRS];\r
#endif\r
\r
#define MSS_SYS_CORESF2RESET_USED  (MSS_SYS_MDDR_CONFIG_BY_CORTEX || MSS_SYS_FDDR_CONFIG_BY_CORTEX || MSS_SYS_SERDES_CONFIG_BY_CORTEX)\r
\r
/*------------------------------------------------------------------------------\r
 * Local functions:\r
 */\r
static uint32_t get_silicon_revision(void);\r
static void silicon_workarounds(void);\r
static void m2s050_rev_a_workarounds(void);\r
\r
#if (MSS_SYS_FACC_INIT_BY_CORTEX == 1)\r
static void complete_clock_config(void);\r
#endif\r
\r
#if MSS_SYS_SERDES_CONFIG_BY_CORTEX\r
static void configure_serdes_intf(void);\r
#endif\r
\r
#if (MSS_SYS_MDDR_CONFIG_BY_CORTEX || MSS_SYS_FDDR_CONFIG_BY_CORTEX)\r
static void config_ddr_subsys\r
(\r
    const ddr_subsys_cfg_t * p_ddr_subsys_cfg,\r
    DDRCore_TypeDef * p_ddr_subsys_regs\r
);\r
#endif\r
\r
#if MSS_SYS_SERDES_CONFIG_BY_CORTEX\r
static void config_by_addr_value\r
(\r
    const cfg_addr_value_pair_t * p_addr_value_pair,\r
    uint32_t nb_of_cfg_pairs\r
);\r
#endif\r
\r
static uint32_t get_rcosc_25_50mhz_frequency(void);\r
static void set_clock_frequency_globals(uint32_t fclk);\r
\r
/***************************************************************************//**\r
 * See system_m2sxxx.h for details.\r
 */\r
void SystemInit(void)\r
{\r
    /*\r
     * Do not make use of global variables or make any asumptions regarding\r
     * memory content if modifying this function. The memory content has not been\r
     * initialised by the time this function is called by the start-up code.\r
     */\r
#if (MSS_SYS_FACC_INIT_BY_CORTEX == 1)\r
    complete_clock_config();\r
#endif\r
\r
    silicon_workarounds();\r
    \r
    /*--------------------------------------------------------------------------\r
     * Set STKALIGN to ensure exception stacking starts on 8 bytes address\r
     * boundary. This ensures compliance with the "Procedure Call Standards for\r
     * the ARM Architecture" (AAPCS).\r
     */\r
    SCB->CCR |= SCB_CCR_STKALIGN_Msk;\r
    \r
    /*--------------------------------------------------------------------------\r
     * MDDR configuration\r
     */\r
#if MSS_SYS_MDDR_CONFIG_BY_CORTEX\r
    config_ddr_subsys(&g_m2s_mddr_subsys_config, &g_m2s_mddr_addr->core);\r
#endif\r
\r
    /*--------------------------------------------------------------------------\r
     * MDDR configuration\r
     */\r
#if MSS_SYS_FDDR_CONFIG_BY_CORTEX\r
    config_ddr_subsys(&g_m2s_fddr_subsys_config, &g_m2s_fddr_addr->core);\r
#endif\r
\r
    /*--------------------------------------------------------------------------\r
     * SERDES interfaces configuration.\r
     */\r
#if MSS_SYS_SERDES_CONFIG_BY_CORTEX\r
    configure_serdes_intf();\r
#endif\r
\r
    /*--------------------------------------------------------------------------\r
     * Call user defined configuration function.\r
     */\r
    mscc_post_hw_cfg_init();\r
    \r
    /*--------------------------------------------------------------------------\r
     * Synchronize with CoreSF2Reset controlling resets from the fabric.\r
     */\r
#if MSS_SYS_CORESF2RESET_USED\r
    CORE_SF2_CFG->CONFIG_DONE = 1u; /* Signal to CoreSF2Reset that peripheral \r
                                       configuration registers have been written.*/\r
    while(!CORE_SF2_CFG->INIT_DONE)\r
    {\r
        ;   /* Wait for INIT_DONE from CoreSF2Reset. */\r
    }\r
#endif\r
}\r
\r
/***************************************************************************//**\r
 * SystemCoreClockUpdate()\r
 */\r
#define RCOSC_25_50MHZ_CLK_SRC  0u\r
#define CLK_XTAL_CLK_SRC        1u\r
#define RCOSC_1_MHZ_CLK_SRC     2u\r
#define CCC2ASCI_CLK_SRC        3u\r
\r
#define FACC_STANDBY_SHIFT      6u\r
#define FACC_STANDBY_SEL_MASK   0x00000007u\r
\r
#define FREQ_32KHZ   32768u\r
#define FREQ_1MHZ    1000000u\r
#define FREQ_25MHZ   25000000u\r
#define FREQ_50MHZ   50000000u\r
\r
void SystemCoreClockUpdate(void)\r
{\r
#if 1\r
    uint32_t controller_pll_init;\r
    uint32_t clk_src;\r
\r
    controller_pll_init = SYSREG->MSSDDR_FACC1_CR & CONTROLLER_PLL_INIT_MASK;\r
    \r
    if(0u == controller_pll_init)\r
    {\r
        /* Normal operations. */\r
        uint32_t global_mux_sel;\r
        \r
        global_mux_sel = SYSREG->MSSDDR_FACC1_CR & FACC_GLMUX_SEL_MASK;\r
        if(0u == global_mux_sel)\r
        {\r
            /* MSS clocked from MSS PLL. Use Libero flow defines. */\r
            SystemCoreClock = MSS_SYS_M3_CLK_FREQ;\r
            g_FrequencyPCLK0 = MSS_SYS_APB_0_CLK_FREQ;\r
            g_FrequencyPCLK1 = MSS_SYS_APB_1_CLK_FREQ;\r
            g_FrequencyPCLK2 = MSS_SYS_APB_2_CLK_FREQ;\r
            g_FrequencyFIC0 = MSS_SYS_FIC_0_CLK_FREQ;\r
            g_FrequencyFIC1 = MSS_SYS_FIC_1_CLK_FREQ;\r
            g_FrequencyFIC64 = MSS_SYS_FIC64_CLK_FREQ;\r
        }\r
        else\r
        {\r
            /* MSS clocked from standby clock. */\r
            const uint8_t standby_clock_lut[8] = { RCOSC_25_50MHZ_CLK_SRC,\r
                                                   CLK_XTAL_CLK_SRC,\r
                                                   RCOSC_25_50MHZ_CLK_SRC,\r
                                                   CLK_XTAL_CLK_SRC,\r
                                                   RCOSC_1_MHZ_CLK_SRC,\r
                                                   RCOSC_1_MHZ_CLK_SRC,\r
                                                   CCC2ASCI_CLK_SRC,\r
                                                   CCC2ASCI_CLK_SRC };\r
            \r
            uint32_t standby_sel;\r
            uint8_t clock_source;\r
            \r
            standby_sel = (SYSREG->MSSDDR_FACC2_CR >> FACC_STANDBY_SHIFT) & FACC_STANDBY_SEL_MASK;\r
            clock_source = standby_clock_lut[standby_sel];\r
            switch(clock_source)\r
            {\r
                case RCOSC_25_50MHZ_CLK_SRC:\r
                    clk_src = get_rcosc_25_50mhz_frequency();\r
                    set_clock_frequency_globals(clk_src);\r
                break;\r
                \r
                case CLK_XTAL_CLK_SRC:\r
                    set_clock_frequency_globals(FREQ_32KHZ);\r
                break;\r
                \r
                case RCOSC_1_MHZ_CLK_SRC:\r
                    set_clock_frequency_globals(FREQ_1MHZ);\r
                break;\r
                \r
                case CCC2ASCI_CLK_SRC:\r
                    /* Fall through. */\r
                default:\r
                    set_clock_frequency_globals(FREQ_1MHZ);\r
                break;\r
            }   \r
        }\r
    }\r
    else\r
    {\r
        /* PLL initialization mode. Running from 25/50MHZ RC oscillator. */\r
        clk_src = get_rcosc_25_50mhz_frequency();\r
        set_clock_frequency_globals(clk_src);\r
    }\r
    \r
#else\r
    /*\r
     * Reset the clock frequency global variables to the values delected in the\r
     * Libero flow.\r
     */\r
    SystemCoreClock = MSS_SYS_M3_CLK_FREQ;\r
    g_FrequencyPCLK0 = MSS_SYS_APB_0_CLK_FREQ;\r
    g_FrequencyPCLK1 = MSS_SYS_APB_1_CLK_FREQ;\r
    g_FrequencyPCLK2 = MSS_SYS_APB_2_CLK_FREQ;\r
    g_FrequencyFIC0 = MSS_SYS_FIC_0_CLK_FREQ;\r
    g_FrequencyFIC1 = MSS_SYS_FIC_1_CLK_FREQ;\r
    g_FrequencyFIC64 = MSS_SYS_FIC64_CLK_FREQ;\r
#endif\r
}\r
\r
/***************************************************************************//**\r
 * Find out frequency generated by the 25_50mhz RC osciallator.\r
 */\r
static uint32_t get_rcosc_25_50mhz_frequency(void)\r
{\r
    uint32_t rcosc_div2;\r
    uint32_t rcosc_frequency;\r
    \r
    rcosc_div2 = SYSREG->MSSDDR_PLL_STATUS & RCOSC_DIV2_MASK;\r
    if(0u == rcosc_div2)\r
    {\r
        /* 25_50mhz oscillator is configured for 25 MHz operations. */\r
        rcosc_frequency = FREQ_25MHZ;\r
    }\r
    else\r
    {\r
        /* 25_50mhz oscillator is configured for 50 MHz operations. */\r
        rcosc_frequency = FREQ_50MHZ;\r
    }\r
    \r
    return rcosc_frequency;\r
}\r
\r
/***************************************************************************//**\r
   Set the value of the clock frequency global variables based on the value of\r
   standby_clk passed as parameter.\r
   The following global variables are set by this function:\r
        - SystemCoreClock\r
        - g_FrequencyPCLK0\r
        - g_FrequencyPCLK1\r
        - g_FrequencyPCLK2\r
        - g_FrequencyFIC0\r
        - g_FrequencyFIC1\r
        - g_FrequencyFIC64\r
 */\r
static void set_clock_frequency_globals(uint32_t standby_clk)\r
{\r
    SystemCoreClock = standby_clk;\r
    g_FrequencyPCLK0 = standby_clk;\r
    g_FrequencyPCLK1 = standby_clk;\r
    g_FrequencyPCLK2 = MSS_SYS_APB_2_CLK_FREQ;\r
    g_FrequencyFIC0 = standby_clk;\r
    g_FrequencyFIC1 = standby_clk;\r
    g_FrequencyFIC64 = standby_clk;\r
}\r
\r
/***************************************************************************//**\r
 * Write 16-bit configuration values into 32-bit word aligned registers.\r
 */\r
#if (MSS_SYS_MDDR_CONFIG_BY_CORTEX || MSS_SYS_FDDR_CONFIG_BY_CORTEX)\r
static void copy_cfg16_to_regs\r
(\r
    volatile uint32_t * p_regs,\r
    const uint16_t * p_cfg,\r
    uint32_t nb_16bit_words\r
)\r
{\r
    uint32_t inc;\r
    \r
    for(inc = 0u; inc < nb_16bit_words; ++inc)\r
    {\r
        p_regs[inc] = p_cfg[inc];\r
    }\r
}\r
#endif\r
\r
/***************************************************************************//**\r
 * Configure peripheral using register address and register value pairs.\r
 */\r
#if MSS_SYS_SERDES_CONFIG_BY_CORTEX\r
static void config_by_addr_value\r
(\r
    const cfg_addr_value_pair_t * p_addr_value_pair,\r
    uint32_t nb_of_cfg_pairs\r
)\r
{\r
    uint32_t inc;\r
    \r
    for(inc = 0u; inc < nb_of_cfg_pairs; ++inc)\r
    {\r
        *p_addr_value_pair[inc].p_reg = p_addr_value_pair[inc].value;\r
    }\r
}\r
#endif\r
\r
/***************************************************************************//**\r
 * DDR subsystem configuration.\r
 */\r
#if (MSS_SYS_MDDR_CONFIG_BY_CORTEX || MSS_SYS_FDDR_CONFIG_BY_CORTEX)\r
\r
#define NB_OF_DDRC_REGS_TO_CONFIG       57u\r
#define NB_OF_DDR_PHY_REGS_TO_CONFIG    65u\r
\r
static void config_ddr_subsys\r
(\r
    const ddr_subsys_cfg_t * p_ddr_subsys_cfg,\r
    DDRCore_TypeDef * p_ddr_subsys_regs\r
)\r
{\r
    volatile uint32_t * p_regs;\r
    const uint16_t * p_cfg;\r
    \r
    /*--------------------------------------------------------------------------\r
     * Configure DDR controller part of the MDDR subsystem.\r
     */\r
    p_cfg = &p_ddr_subsys_cfg->ddrc.DYN_SOFT_RESET_CR;\r
    p_regs = &p_ddr_subsys_regs->ddrc.DYN_SOFT_RESET_CR;\r
\r
    copy_cfg16_to_regs(p_regs, p_cfg, NB_OF_DDRC_REGS_TO_CONFIG);\r
    \r
    /*--------------------------------------------------------------------------\r
     * Configure DDR PHY.\r
     */\r
    p_cfg = &p_ddr_subsys_cfg->phy.LOOPBACK_TEST_CR;\r
    p_regs = &p_ddr_subsys_regs->phy.LOOPBACK_TEST_CR;\r
\r
    copy_cfg16_to_regs(p_regs, p_cfg, NB_OF_DDR_PHY_REGS_TO_CONFIG);\r
    \r
    /*--------------------------------------------------------------------------\r
     * Configure DDR FIC.\r
     */\r
    p_ddr_subsys_regs->fic.NB_ADDR_CR = p_ddr_subsys_cfg->fic.NB_ADDR_CR;\r
    p_ddr_subsys_regs->fic.NBRWB_SIZE_CR = p_ddr_subsys_cfg->fic.NBRWB_SIZE_CR;\r
    p_ddr_subsys_regs->fic.WB_TIMEOUT_CR = p_ddr_subsys_cfg->fic.WB_TIMEOUT_CR;\r
    p_ddr_subsys_regs->fic.HPD_SW_RW_EN_CR = p_ddr_subsys_cfg->fic.HPD_SW_RW_EN_CR;\r
    p_ddr_subsys_regs->fic.HPD_SW_RW_INVAL_CR = p_ddr_subsys_cfg->fic.HPD_SW_RW_INVAL_CR;\r
    p_ddr_subsys_regs->fic.SW_WR_ERCLR_CR = p_ddr_subsys_cfg->fic.SW_WR_ERCLR_CR;\r
    p_ddr_subsys_regs->fic.ERR_INT_ENABLE_CR = p_ddr_subsys_cfg->fic.ERR_INT_ENABLE_CR;\r
    p_ddr_subsys_regs->fic.NUM_AHB_MASTERS_CR = p_ddr_subsys_cfg->fic.NUM_AHB_MASTERS_CR;\r
    p_ddr_subsys_regs->fic.LOCK_TIMEOUTVAL_CR[0] = p_ddr_subsys_cfg->fic.LOCK_TIMEOUTVAL_1_CR;\r
    p_ddr_subsys_regs->fic.LOCK_TIMEOUTVAL_CR[1] = p_ddr_subsys_cfg->fic.LOCK_TIMEOUTVAL_2_CR;\r
    p_ddr_subsys_regs->fic.LOCK_TIMEOUT_EN_CR = p_ddr_subsys_cfg->fic.LOCK_TIMEOUT_EN_CR;\r
\r
    /*--------------------------------------------------------------------------\r
     * Enable DDR.\r
     */\r
    p_ddr_subsys_regs->ddrc.DYN_SOFT_RESET_CR = 0x01u;\r
    \r
    while(0x0000u == p_ddr_subsys_regs->ddrc.DDRC_SR)\r
    {\r
        ;\r
    }        \r
}\r
\r
#endif\r
\r
/***************************************************************************//**\r
 * Configure SERDES interfaces.\r
 */\r
#if MSS_SYS_SERDES_CONFIG_BY_CORTEX\r
\r
static void configure_serdes_intf(void)\r
{\r
#if MSS_SYS_SERDES_0_CONFIG_BY_CORTEX\r
    config_by_addr_value(g_m2s_serdes_0_config, SERDES_0_CFG_NB_OF_PAIRS);\r
#endif\r
\r
#if MSS_SYS_SERDES_1_CONFIG_BY_CORTEX\r
    config_by_addr_value(g_m2s_serdes_1_config, SERDES_1_CFG_NB_OF_PAIRS);\r
#endif\r
\r
#if MSS_SYS_SERDES_2_CONFIG_BY_CORTEX\r
    config_by_addr_value(g_m2s_serdes_2_config, SERDES_2_CFG_NB_OF_PAIRS);\r
#endif\r
\r
#if MSS_SYS_SERDES_3_CONFIG_BY_CORTEX\r
    config_by_addr_value(g_m2s_serdes_3_config, SERDES_3_CFG_NB_OF_PAIRS);\r
#endif\r
}\r
\r
#endif\r
\r
/*------------------------------------------------------------------------------\r
  Retrieve silicon revision from system registers.\r
 */\r
static uint32_t get_silicon_revision(void)\r
{\r
    uint32_t silicon_revision;\r
    uint32_t device_version;\r
    \r
    device_version = SYSREG->DEVICE_VERSION;\r
    switch(device_version)\r
    {\r
        case 0x0000F802:\r
            silicon_revision = M2S050_REV_A_SILICON;\r
            break;\r
            \r
        case 0x0001F802:\r
            silicon_revision = M2S050_REV_B_SILICON;\r
            break;\r
            \r
        default:\r
            silicon_revision = UNKNOWN_SILICON_REV;\r
            break;\r
    }\r
    \r
    return silicon_revision;\r
}\r
\r
/*------------------------------------------------------------------------------\r
  Workarounds for various silicon versions.\r
 */\r
static void silicon_workarounds(void)\r
{\r
    uint32_t silicon_revision;\r
    \r
    silicon_revision = get_silicon_revision();\r
    \r
    switch(silicon_revision)\r
    {\r
        case M2S050_REV_A_SILICON:\r
            m2s050_rev_a_workarounds();\r
            break;\r
            \r
        case M2S050_REV_B_SILICON:\r
            /* Fall through. */\r
        case UNKNOWN_SILICON_REV:\r
            /* Fall through. */\r
        default:\r
            break;\r
    }\r
}\r
\r
/*------------------------------------------------------------------------------\r
  Silicon workarounds for M2S050 rev A.\r
 */\r
static void m2s050_rev_a_workarounds(void)\r
{\r
    /*--------------------------------------------------------------------------\r
     * Work around a couple of silicon issues:\r
     */\r
    /* DDR_CLK_EN <- 1 */\r
    SYSREG->MSSDDR_FACC1_CR |= (uint32_t)1 << DDR_CLK_EN_SHIFT;\r
    \r
    /* CONTROLLER_PLL_INIT <- 0 */\r
    SYSREG->MSSDDR_FACC1_CR = SYSREG->MSSDDR_FACC1_CR & ~CONTROLLER_PLL_INIT_MASK;\r
}\r
\r
/*------------------------------------------------------------------------------\r
  Complete clock configuration if requested by Libero.\r
 */\r
#if (MSS_SYS_FACC_INIT_BY_CORTEX == 1)\r
static void complete_clock_config(void)\r
{\r
    uint32_t pll_locked;\r
    \r
    /* Wait for fabric PLL to lock. */\r
    do {\r
        pll_locked = SYSREG->MSSDDR_PLL_STATUS & FAB_PLL_LOCK_MASK;\r
    } while(!pll_locked);\r
    \r
    /* Negate MPLL bypass. */\r
    SYSREG->MSSDDR_PLL_STATUS_HIGH_CR &= ~FACC_PLL_BYPASS_MASK;\r
    \r
    /* Wait for MPLL to lock. */\r
    do {\r
        pll_locked = SYSREG->MSSDDR_PLL_STATUS & MPLL_LOCK_MASK;\r
    } while(!pll_locked);\r
    \r
    /* Switch FACC from standby to run mode. */\r
    SYSREG->MSSDDR_FACC1_CR &= ~FACC_GLMUX_SEL_MASK;\r
\r
    /* Negate FPGA_SOFTRESET to de-assert MSS_RESET_N_M2F in the fabric */\r
    SYSREG->SOFT_RST_CR &= ~SYSREG_FPGA_SOFTRESET_MASK;\r
}\r
#endif\r
\r