-#configuration file for PXA250 Evaluation Board\r
-# -----------------------------------------------------\r
-#\r
-xscale cp15 15 0x00002001 #Enable CP0 and CP13 access\r
-#\r
-# setup GPIO\r
-#\r
-mww 0x40E00018 0x00008000 #CPSR0\r
-sleep 20\r
-mww 0x40E0001C 0x00000002 #GPSR1\r
-sleep 20\r
-mww 0x40E00020 0x00000008 #GPSR2\r
-sleep 20\r
-mww 0x40E0000C 0x00008000 #GPDR0\r
-sleep 20\r
-mww 0x40E00054 0x80000000 #GAFR0_L\r
-sleep 20\r
-mww 0x40E00058 0x00188010 #GAFR0_H\r
-sleep 20\r
-mww 0x40E0005C 0x60908018 #GAFR1_L\r
-sleep 20\r
-mww 0x40E0000C 0x0280E000 #GPDR0\r
-sleep 20\r
-mww 0x40E00010 0x821C88B2 #GPDR1\r
-sleep 20\r
-mww 0x40E00014 0x000F03DB #GPDR2\r
-sleep 20\r
-mww 0x40E00000 0x000F03DB #GPLR0\r
-sleep 20\r
-\r
-\r
-mww 0x40F00004 0x00000020 #PSSR\r
-sleep 20\r
-\r
-#\r
-# setup memory controller\r
-#\r
-mww 0x48000008 0x01111998 #MSC0\r
-sleep 20\r
-mww 0x48000010 0x00047ff0 #MSC2\r
-sleep 20\r
-mww 0x48000014 0x00000000 #MECR\r
-sleep 20\r
-mww 0x48000028 0x00010504 #MCMEM0\r
-sleep 20\r
-mww 0x4800002C 0x00010504 #MCMEM1\r
-sleep 20\r
-mww 0x48000030 0x00010504 #MCATT0\r
-sleep 20\r
-mww 0x48000034 0x00010504 #MCATT1\r
-sleep 20\r
-mww 0x48000038 0x00004715 #MCIO0\r
-sleep 20\r
-mww 0x4800003C 0x00004715 #MCIO1\r
-sleep 20\r
-#\r
-mww 0x48000004 0x03CA4018 #MDREF\r
-sleep 20\r
-mww 0x48000004 0x004B4018 #MDREF\r
-sleep 20\r
-mww 0x48000004 0x000B4018 #MDREF\r
-sleep 20\r
-mww 0x48000004 0x000BC018 #MDREF\r
-sleep 20\r
-mww 0x48000000 0x00001AC8 #MDCNFG\r
-sleep 20\r
-\r
-sleep 20\r
-\r
-mww 0x48000000 0x00001AC9 #MDCNFG\r
-sleep 20\r
-mww 0x48000040 0x00000000 #MDMRS\r
-sleep 20\r
-\r
+#configuration file for PXA250 Evaluation Board
+# -----------------------------------------------------
+#
+xscale cp15 15 0x00002001 #Enable CP0 and CP13 access
+#
+# setup GPIO
+#
+mww 0x40E00018 0x00008000 #CPSR0
+sleep 20
+mww 0x40E0001C 0x00000002 #GPSR1
+sleep 20
+mww 0x40E00020 0x00000008 #GPSR2
+sleep 20
+mww 0x40E0000C 0x00008000 #GPDR0
+sleep 20
+mww 0x40E00054 0x80000000 #GAFR0_L
+sleep 20
+mww 0x40E00058 0x00188010 #GAFR0_H
+sleep 20
+mww 0x40E0005C 0x60908018 #GAFR1_L
+sleep 20
+mww 0x40E0000C 0x0280E000 #GPDR0
+sleep 20
+mww 0x40E00010 0x821C88B2 #GPDR1
+sleep 20
+mww 0x40E00014 0x000F03DB #GPDR2
+sleep 20
+mww 0x40E00000 0x000F03DB #GPLR0
+sleep 20
+
+
+mww 0x40F00004 0x00000020 #PSSR
+sleep 20
+
+#
+# setup memory controller
+#
+mww 0x48000008 0x01111998 #MSC0
+sleep 20
+mww 0x48000010 0x00047ff0 #MSC2
+sleep 20
+mww 0x48000014 0x00000000 #MECR
+sleep 20
+mww 0x48000028 0x00010504 #MCMEM0
+sleep 20
+mww 0x4800002C 0x00010504 #MCMEM1
+sleep 20
+mww 0x48000030 0x00010504 #MCATT0
+sleep 20
+mww 0x48000034 0x00010504 #MCATT1
+sleep 20
+mww 0x48000038 0x00004715 #MCIO0
+sleep 20
+mww 0x4800003C 0x00004715 #MCIO1
+sleep 20
+#
+mww 0x48000004 0x03CA4018 #MDREF
+sleep 20
+mww 0x48000004 0x004B4018 #MDREF
+sleep 20
+mww 0x48000004 0x000B4018 #MDREF
+sleep 20
+mww 0x48000004 0x000BC018 #MDREF
+sleep 20
+mww 0x48000000 0x00001AC8 #MDCNFG
+sleep 20
+
+sleep 20
+
+mww 0x48000000 0x00001AC9 #MDCNFG
+sleep 20
+mww 0x48000040 0x00000000 #MDMRS
+sleep 20
+
-mww 0xFFFFFD44, 0x00008000 #Disable watchdog\r
-mww 0xFFFFFC20, 0x00000601 #Enable Main oscillator\r
-sleep 20\r
-mww 0xFFFFFC30, 0x00000001 #Switch master clock to CPU clock, write 1 to PMC_MCKR\r
-sleep 20\r
-\r
-\r
-# -- Remap Flash Bank 0 at address 0x0 and Bank 1 at address 0x80000,\r
-# when the bank 0 is the boot bank, then enable the Bank 1. */\r
-\r
-mww 0x54000000, 0x4 #BOOT BANK Size = (2^4) * 32 = 512KB\r
-mww 0x54000004, 0x2 #NON BOOT BANK Size = (2^2) * 8 = 32KB\r
-mww 0x5400000C, 0x0 #BOOT BANK Address = 0x0\r
-mww 0x54000010, 0x20000 #NON BOOT BANK Address = 0x80000\r
-mww 0x54000018, 0x18 #Enable CS on both banks\r
-\r
-# -- Enable 96K RAM */\r
-mww 0x5C002034, 0x0191 # PFQBC enabled / DTCM & AHB wait-states disabled\r
-arm966e cp15 15, 0x60000 #Set bits 17-18 (DTCM/ITCM order bits) of the Core Configuration Control Register\r
-\r
-str9x flash_config 0 4 2 0 0x80000\r
-flash protect 0 0 7 off\r
+mww 0xFFFFFD44, 0x00008000 #Disable watchdog
+mww 0xFFFFFC20, 0x00000601 #Enable Main oscillator
+sleep 20
+mww 0xFFFFFC30, 0x00000001 #Switch master clock to CPU clock, write 1 to PMC_MCKR
+sleep 20
+
+
+# -- Remap Flash Bank 0 at address 0x0 and Bank 1 at address 0x80000,
+# when the bank 0 is the boot bank, then enable the Bank 1. */
+
+mww 0x54000000, 0x4 #BOOT BANK Size = (2^4) * 32 = 512KB
+mww 0x54000004, 0x2 #NON BOOT BANK Size = (2^2) * 8 = 32KB
+mww 0x5400000C, 0x0 #BOOT BANK Address = 0x0
+mww 0x54000010, 0x20000 #NON BOOT BANK Address = 0x80000
+mww 0x54000018, 0x18 #Enable CS on both banks
+
+# -- Enable 96K RAM */
+mww 0x5C002034, 0x0191 # PFQBC enabled / DTCM & AHB wait-states disabled
+arm966e cp15 15, 0x60000 #Set bits 17-18 (DTCM/ITCM order bits) of the Core Configuration Control Register
+
+str9x flash_config 0 4 2 0 0x80000
+flash protect 0 0 7 off
-mww 0x90600104 0x33313333\r
-mww 0xA0700000 0x00000001 # Enable the memory controller.\r
-mww 0xA0700024 0x00000006 # Set the refresh counter 6\r
-mww 0xA0700028 0x00000001 # \r
-mww 0xA0700030 0x00000001 # Set the precharge period\r
-mww 0xA0700034 0x00000004 # Active to precharge command period is 16 clock cycles\r
-mww 0xA070003C 0x00000001 # tAPR\r
-mww 0xA0700040 0x00000005 # tDAL\r
-mww 0xA0700044 0x00000001 # tWR\r
-mww 0xA0700048 0x00000006 # tRC 32 clock cycles \r
-mww 0xA070004C 0x00000006 # tRFC 32 clock cycles\r
-mww 0xA0700054 0x00000001 # tRRD\r
-mww 0xA0700058 0x00000001 # tMRD\r
-mww 0xA0700100 0x00004280 # Dynamic Config 0 (cs4) \r
-mww 0xA0700120 0x00004280 # Dynamic Config 1 (cs5)\r
-mww 0xA0700140 0x00004280 # Dynamic Config 2 (cs6)\r
-mww 0xA0700160 0x00004280 # Dynamic Config 3 (cs7)\r
-#\r
-mww 0xA0700104 0x00000203 # CAS latency is 2 at 100 MHz\r
-mww 0xA0700124 0x00000203 # CAS latency is 2 at 100 MHz\r
-mww 0xA0700144 0x00000203 # CAS latency is 2 at 100 MHz\r
-mww 0xA0700164 0x00000203 # CAS latency is 2 at 100 MHz\r
-#\r
-mww 0xA0700020 0x00000103 # issue SDRAM PALL command\r
-#\r
-mww 0xA0700024 0x00000001 # Set the refresh counter to be as small as possible\r
-#\r
-# Add some dummy writes to give the SDRAM time to settle, it needs two\r
-# AHB clock cycles, here we poke in the debugger flag, this lets\r
-# the software know that we are in the debugger\r
-mww 0xA0900000 0x00000002\r
-mww 0xA0900000 0x00000002\r
-mww 0xA0900000 0x00000002\r
-mww 0xA0900000 0x00000002\r
-mww 0xA0900000 0x00000002\r
-#\r
-mdw 0xA0900000 \r
-mdw 0xA0900000 \r
-mdw 0xA0900000 \r
-mdw 0xA0900000 \r
-mdw 0xA0900000 \r
-#\r
-mww 0xA0700024 0x00000030 # Set the refresh counter to 30\r
-mww 0xA0700020 0x00000083 # Issue SDRAM MODE command\r
-#\r
-# Next we perform a read of RAM.\r
-# mw = move word.\r
-mdw 0x00022000\r
-# mw 0x00022000:P, r3 # 22000 for cas2 latency, 32000 for cas 3\r
-#\r
-mww 0xA0700020 0x00000003 # issue SDRAM NORMAL command\r
-mww 0xA0700100 0x00084280 # Enable buffer access\r
-mww 0xA0700120 0x00084280 # Enable buffer access\r
-mww 0xA0700140 0x00084280 # Enable buffer access\r
-mww 0xA0700160 0x00084280 # Enable buffer access\r
-\r
-#Set byte lane state (static mem 1)"\r
-mww 0xA0700220, 0x00000082\r
-#Flash Start\r
-mww 0xA09001F8, 0x50000000\r
-#Flash Mask Reg\r
-mww 0xA09001FC, 0xFF000001\r
-mww 0xA0700028, 0x00000001\r
-\r
-# RAMAddr = 0x00020000\r
-# RAMSize = 0x00004000\r
-\r
-# Set the processor mode\r
-reg cpsr 0xd3\r
-\r
+mww 0x90600104 0x33313333
+mww 0xA0700000 0x00000001 # Enable the memory controller.
+mww 0xA0700024 0x00000006 # Set the refresh counter 6
+mww 0xA0700028 0x00000001 #
+mww 0xA0700030 0x00000001 # Set the precharge period
+mww 0xA0700034 0x00000004 # Active to precharge command period is 16 clock cycles
+mww 0xA070003C 0x00000001 # tAPR
+mww 0xA0700040 0x00000005 # tDAL
+mww 0xA0700044 0x00000001 # tWR
+mww 0xA0700048 0x00000006 # tRC 32 clock cycles
+mww 0xA070004C 0x00000006 # tRFC 32 clock cycles
+mww 0xA0700054 0x00000001 # tRRD
+mww 0xA0700058 0x00000001 # tMRD
+mww 0xA0700100 0x00004280 # Dynamic Config 0 (cs4)
+mww 0xA0700120 0x00004280 # Dynamic Config 1 (cs5)
+mww 0xA0700140 0x00004280 # Dynamic Config 2 (cs6)
+mww 0xA0700160 0x00004280 # Dynamic Config 3 (cs7)
+#
+mww 0xA0700104 0x00000203 # CAS latency is 2 at 100 MHz
+mww 0xA0700124 0x00000203 # CAS latency is 2 at 100 MHz
+mww 0xA0700144 0x00000203 # CAS latency is 2 at 100 MHz
+mww 0xA0700164 0x00000203 # CAS latency is 2 at 100 MHz
+#
+mww 0xA0700020 0x00000103 # issue SDRAM PALL command
+#
+mww 0xA0700024 0x00000001 # Set the refresh counter to be as small as possible
+#
+# Add some dummy writes to give the SDRAM time to settle, it needs two
+# AHB clock cycles, here we poke in the debugger flag, this lets
+# the software know that we are in the debugger
+mww 0xA0900000 0x00000002
+mww 0xA0900000 0x00000002
+mww 0xA0900000 0x00000002
+mww 0xA0900000 0x00000002
+mww 0xA0900000 0x00000002
+#
+mdw 0xA0900000
+mdw 0xA0900000
+mdw 0xA0900000
+mdw 0xA0900000
+mdw 0xA0900000
+#
+mww 0xA0700024 0x00000030 # Set the refresh counter to 30
+mww 0xA0700020 0x00000083 # Issue SDRAM MODE command
+#
+# Next we perform a read of RAM.
+# mw = move word.
+mdw 0x00022000
+# mw 0x00022000:P, r3 # 22000 for cas2 latency, 32000 for cas 3
+#
+mww 0xA0700020 0x00000003 # issue SDRAM NORMAL command
+mww 0xA0700100 0x00084280 # Enable buffer access
+mww 0xA0700120 0x00084280 # Enable buffer access
+mww 0xA0700140 0x00084280 # Enable buffer access
+mww 0xA0700160 0x00084280 # Enable buffer access
+
+#Set byte lane state (static mem 1)"
+mww 0xA0700220, 0x00000082
+#Flash Start
+mww 0xA09001F8, 0x50000000
+#Flash Mask Reg
+mww 0xA09001FC, 0xFF000001
+mww 0xA0700028, 0x00000001
+
+# RAMAddr = 0x00020000
+# RAMSize = 0x00004000
+
+# Set the processor mode
+reg cpsr 0xd3
+
-#Written by: Michael Schwingen <rincewind@discworld.dascon.de>\r
-#############################################################################\r
-# setup expansion bus CS, disable external wdt\r
-#############################################################################\r
-mww 0xc4000000 0xbd113842 #CS0 : Flash, write enabled @0x50000000\r
-mww 0xc4000004 0x94d10013 #CS1\r
-mww 0xc4000008 0x95960003 #CS2\r
-mww 0xc400000c 0x00000000 #CS3\r
-mww 0xc4000010 0x80900003 #CS4\r
-mww 0xc4000014 0x9d520003 #CS5\r
-mww 0xc4000018 0x81860001 #CS6\r
-mww 0xc400001c 0x80900003 #CS7\r
-\r
-#############################################################################\r
-# init SDRAM controller: 16MB, one bank, CL3\r
-#############################################################################\r
-mww 0xCC000000 0x2A # SDRAM_CFG: 64MBit, CL3\r
-mww 0xCC000004 0 # disable refresh\r
-mww 0xCC000008 3 # NOP\r
-sleep 100\r
-mww 0xCC000004 2100 # set refresh counter\r
-mww 0xCC000008 2 # Precharge All Banks\r
-sleep 100\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 4 # Auto Refresh\r
-mww 0xCC000008 1 # Mode Select CL3\r
-\r
-#mww 0xc4000020 0xffffee # CFG0: remove expansion bus boot flash\r
-#mirror at 0x00000000\r
-\r
-#big endian\r
-reg XSCALE_CTRL 0xF8\r
-\r
-#\r
-# detect flash\r
-#\r
-flash probe 0\r
+#Written by: Michael Schwingen <rincewind@discworld.dascon.de>
+#############################################################################
+# setup expansion bus CS, disable external wdt
+#############################################################################
+mww 0xc4000000 0xbd113842 #CS0 : Flash, write enabled @0x50000000
+mww 0xc4000004 0x94d10013 #CS1
+mww 0xc4000008 0x95960003 #CS2
+mww 0xc400000c 0x00000000 #CS3
+mww 0xc4000010 0x80900003 #CS4
+mww 0xc4000014 0x9d520003 #CS5
+mww 0xc4000018 0x81860001 #CS6
+mww 0xc400001c 0x80900003 #CS7
+
+#############################################################################
+# init SDRAM controller: 16MB, one bank, CL3
+#############################################################################
+mww 0xCC000000 0x2A # SDRAM_CFG: 64MBit, CL3
+mww 0xCC000004 0 # disable refresh
+mww 0xCC000008 3 # NOP
+sleep 100
+mww 0xCC000004 2100 # set refresh counter
+mww 0xCC000008 2 # Precharge All Banks
+sleep 100
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 4 # Auto Refresh
+mww 0xCC000008 1 # Mode Select CL3
+
+#mww 0xc4000020 0xffffee # CFG0: remove expansion bus boot flash
+#mirror at 0x00000000
+
+#big endian
+reg XSCALE_CTRL 0xF8
+
+#
+# detect flash
+#
+flash probe 0
-jtag_nsrst_delay 500\r
-jtag_ntrst_delay 500\r
-\r
-#LM3S811 Evaluation Board has only srst\r
-reset_config trst_and_srst srst_pulls_trst\r
-\r
-#jtag scan chain\r
-#format L IRC IRCM IDCODE (Length, IR Capture, IR Capture Mask, IDCODE)\r
-jtag_device 4 0x1 0xf 0xe\r
-\r
-target cortex_m3 little run_and_halt 0\r
-\r
-# 4k working area at base of ram\r
-working_area 0 0x20000000 0x4000 nobackup\r
-\r
-#flash configuration\r
-#flash bank stellaris 0 262144 0 0 0\r
-flash bank stellaris 0 0 0 0 0\r
-#flash write_image main.bin 0 bin\r
+jtag_nsrst_delay 500
+jtag_ntrst_delay 500
+
+#LM3S811 Evaluation Board has only srst
+reset_config trst_and_srst srst_pulls_trst
+
+#jtag scan chain
+#format L IRC IRCM IDCODE (Length, IR Capture, IR Capture Mask, IDCODE)
+jtag_device 4 0x1 0xf 0xe
+
+target cortex_m3 little run_and_halt 0
+
+# 4k working area at base of ram
+working_area 0 0x20000000 0x4000 nobackup
+
+#flash configuration
+#flash bank stellaris 0 262144 0 0 0
+flash bank stellaris 0 0 0 0 0
+#flash write_image main.bin 0 bin
-Prerequisites:\r
-The users of OpenOCD as well as computer programs interacting with OpenOCD are expecting that certain commands \r
-do the same thing across all the targets.\r
-\r
-Rules to follow when writing scripts:\r
-\r
-1. The configuration script should be defined such as , for example, the following sequences are working:\r
- reset\r
- flash info <bank>\r
-and\r
- reset \r
- flash erase_address <start> <len>\r
- \r
-In most cases this can be accomplished by specifying the default startup mode as reset_init (target command \r
-in the configuration file).\r
- \r
-2. If the target is correctly configured, flash must be writable without any other helper commands. It is \r
-assumed that all write-protect mechanisms should be disabled.\r
+Prerequisites:
+The users of OpenOCD as well as computer programs interacting with OpenOCD are expecting that certain commands
+do the same thing across all the targets.
+
+Rules to follow when writing scripts:
+
+1. The configuration script should be defined such as , for example, the following sequences are working:
+ reset
+ flash info <bank>
+and
+ reset
+ flash erase_address <start> <len>
+
+In most cases this can be accomplished by specifying the default startup mode as reset_init (target command
+in the configuration file).
+
+2. If the target is correctly configured, flash must be writable without any other helper commands. It is
+assumed that all write-protect mechanisms should be disabled.
-######################################\r
-# Target: DIGI ConnectCore Wi-9C\r
-######################################\r
-\r
-reset_config trst_and_srst\r
-\r
-#jtag_device <IR length> <IR capture> <IR mask> <IDCODE instruction>\r
-jtag_device 4 0x1 0xf 0xe\r
-\r
-jtag_nsrst_delay 200\r
-jtag_ntrst_delay 0\r
-\r
-######################\r
-# Target configuration\r
-######################\r
-\r
-#target <type> <endianess> <reset mode> <JTAG pos> <variant>\r
-target arm926ejs big reset_init 0 arm926ejs\r
-\r
-target_script 0 reset event/wi-9c_reset.script\r
-run_and_halt_time 0 30\r
-\r
-#working area <target#> <address> <size> <backup|nobackup>\r
-working_area 0 0x00000000 0x1000 backup\r
-\r
-\r
-#####################\r
-# Flash configuration\r
-#####################\r
-\r
-#M29DW323DB - not working\r
-#flash bank cfi <base> <size> <chip width> <bus width> <target#>\r
-flash bank cfi 0x50000000 0x0400000 2 2 0\r
-\r
-\r
-\r
+######################################
+# Target: DIGI ConnectCore Wi-9C
+######################################
+
+reset_config trst_and_srst
+
+#jtag_device <IR length> <IR capture> <IR mask> <IDCODE instruction>
+jtag_device 4 0x1 0xf 0xe
+
+jtag_nsrst_delay 200
+jtag_ntrst_delay 0
+
+######################
+# Target configuration
+######################
+
+#target <type> <endianess> <reset mode> <JTAG pos> <variant>
+target arm926ejs big reset_init 0 arm926ejs
+
+target_script 0 reset event/wi-9c_reset.script
+run_and_halt_time 0 30
+
+#working area <target#> <address> <size> <backup|nobackup>
+working_area 0 0x00000000 0x1000 backup
+
+
+#####################
+# Flash configuration
+#####################
+
+#M29DW323DB - not working
+#flash bank cfi <base> <size> <chip width> <bus width> <target#>
+flash bank cfi 0x50000000 0x0400000 2 2 0
+
+
+
-#Written by: Michael Schwingen <rincewind@discworld.dascon.de>\r
-\r
-reset_config trst_and_srst separate\r
-\r
-jtag_nsrst_delay 100\r
-jtag_ntrst_delay 100\r
-\r
-#jtag scan chain\r
-#format L IRC IRCM IDCODE (Length, IR Capture, IR capture Mask, IDCODE)\r
-jtag_device 7 0x1 0x7f 0x7e\r
-\r
-daemon_startup reset\r
-\r
-#target <type> <endianess> <reset mode> <JTAG pos> <variant>\r
-target xscale big reset_init 0 ixp42x\r
-#target xscale big run_and_halt 0 ixp42x\r
-target_script 0 reset event/xba_revA3.script\r
-\r
-run_and_halt_time 0 100\r
-\r
-flash bank cfi 0x50000000 0x400000 2 2 0\r
-working_area 0 0x20010000 0x8000 nobackup\r
-\r
-# halt target\r
-wait_halt\r
-\r
-# set big endian mode\r
-reg XSCALE_CTRL 0xF8\r
+#Written by: Michael Schwingen <rincewind@discworld.dascon.de>
+
+reset_config trst_and_srst separate
+
+jtag_nsrst_delay 100
+jtag_ntrst_delay 100
+
+#jtag scan chain
+#format L IRC IRCM IDCODE (Length, IR Capture, IR capture Mask, IDCODE)
+jtag_device 7 0x1 0x7f 0x7e
+
+daemon_startup reset
+
+#target <type> <endianess> <reset mode> <JTAG pos> <variant>
+target xscale big reset_init 0 ixp42x
+#target xscale big run_and_halt 0 ixp42x
+target_script 0 reset event/xba_revA3.script
+
+run_and_halt_time 0 100
+
+flash bank cfi 0x50000000 0x400000 2 2 0
+working_area 0 0x20010000 0x8000 nobackup
+
+# halt target
+wait_halt
+
+# set big endian mode
+reg XSCALE_CTRL 0xF8