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openocd/tcl/board/at91sam9g20-ek.cfg

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  1. #################################################################################################

  2. #												#

  3. # Author: Gary Carlson (gcarlson@carlson-minot.com)						#

  4. # Generated for Atmel AT91SAM9G20-EK evaluation board using Atmel SAM-ICE (J-Link) version 8.	#

  5. #												#

  6. #################################################################################################

  7. 

  8. # FIXME use some standard target config, maybe create one from this

  9. #

  10. #	source [find target/...cfg]

  11. 

  12. # Define basic characteristics for the CPU.  The AT91SAM9G20 processor is a subtle variant of

  13. # the AT91SAM9260 and shares the same tap ID as it.

  14. 

  15. set _CHIPNAME at91sam9g20

  16. set _ENDIAN little

  17. set _CPUTAPID 0x0792603f

  18. 

  19. # Set reset type.  Note that the AT91SAM9G20-EK board has the trst signal disconnected.  In theory this script

  20. # therefore should require "srst_only".  With some J-Link debuggers at least, "srst_only" causes a temporary USB

  21. # communication fault.  This appears to be more likely attributed to an internal proprietary firmware quirk inside the

  22. # dongle itself.  Using "trst_and_srst" works fine, however.  So if you can't beat them -- join them.  If you are using

  23. # something other the a J-Link dongle you may be able to change this back to "srst_only".

  24. 

  25. reset_config trst_and_srst

  26. 

  27. # Set up the CPU and generate a new jtag tap for AT91SAM9G20.

  28. 

  29. jtag newtap $_CHIPNAME cpu -irlen 4 -ircapture 0x1 -irmask 0xf -expected-id $_CPUTAPID

  30. 

  31. # Use caution changing the delays listed below.  These seem to be affected by the board and type of

  32. # debugger dongle.  A value of 200 ms seems to work reliably for the configuration listed in the file header above.

  33. 

  34. jtag_nsrst_delay 200

  35. jtag_ntrst_delay 200

  36. 

  37. # Set fallback clock to 1/6 of worst-case clock speed (which would be the 32.768 kHz slow clock).

  38. 

  39. jtag_rclk 5

  40. 

  41. set _TARGETNAME $_CHIPNAME.cpu

  42. target create $_TARGETNAME arm926ejs -endian $_ENDIAN -chain-position $_TARGETNAME

  43. 

  44. # Establish internal SRAM memory work areas that are important to pre-bootstrap loaders, etc.  The

  45. # AT91SAM9G20 has two SRAM areas, one starting at 0x00200000 and the other starting at 0x00300000.

  46. # Both areas are 16 kB long.

  47. 

  48. #$_TARGETNAME configure -work-area-phys 0x00200000 -work-area-size 0x4000 -work-area-backup 1

  49. $_TARGETNAME configure -work-area-phys 0x00300000 -work-area-size 0x4000 -work-area-backup 1

  50. 

  51. # If you don't want to execute built-in boot rom code (and there are good reasons at times not to do that) in the

  52. # AT91SAM9 family, the microcontroller is a lump on a log without initialization.  Because this family has

  53. # some powerful features, we want to have a special function that handles "reset init".  To do this we declare

  54. # an event handler where these special activities can take place.

  55. 

  56. scan_chain

  57. $_TARGETNAME configure -event reset-init {at91sam9g20_init}

  58. 

  59. # NandFlash configuration and definition

  60. # Future TBD

  61. 

  62. proc read_register {register} {

  63.         set result ""

  64.         ocd_mem2array result 32 $register 1

  65.         return $result(0)

  66. }

  67. 

  68. proc at91sam9g20_init { } {

  69. 

  70. 	# At reset AT91SAM9G20 chip runs on slow clock (32.768 kHz).  To shift over to a normal clock requires

  71. 	# a number of steps that must be carefully performed.  The process outline below follows the

  72. 	# recommended procedure outlined in the AT91SAM9G20 technical manual.

  73. 	#

  74. 	# Several key and very important things to keep in mind:

  75. 	# The SDRAM parts used currently on the Atmel evaluation board are -75 grade parts.  This

  76. 	# means the master clock (MCLK) must be at or below 133 MHz or timing errors will occur.  The processor

  77. 	# core can operate up to 400 MHz and therefore PCLK must be at or below this to function properly.

  78. 

  79. 	jtag_khz 2			# Slow-speed oscillator enabled at reset, so run jtag speed slow.

  80. 	halt				# Make sure processor is halted, or error will result in following steps.

  81. 	mww 0xfffffd08 0xa5000501	# RSTC_MR : enable user reset.

  82. 	mww 0xfffffd44 0x00008000	# WDT_MR : disable watchdog.

  83. 

  84. 	# Enable the main 18.432 MHz oscillator in CKGR_MOR register.

  85. 	# Wait for MOSCS in PMC_SR to assert indicating oscillator is again stable after change to CKGR_MOR.

  86. 

  87. 	mww 0xfffffc20 0x00004001

  88. 	while { [expr [read_register 0xfffffc68] & 0x01] != 1 } { sleep 1 }

  89. 

  90. 	# Set PLLA Register for 792.576 MHz (divider: bypass, multiplier: 43).

  91. 	# Wait for LOCKA signal in PMC_SR to assert indicating PLLA is stable.

  92. 

  93. 	mww 0xfffffc28 0x202a3f01

  94. 	while { [expr [read_register 0xfffffc68] & 0x02] != 2 } { sleep 1 }

  95. 

  96. 	# Set master system clock prescaler divide by 6 and processor clock divide by 2 in PMC_MCKR.

  97. 	# Wait for MCKRDY signal from PMC_SR to assert.

  98. 

  99. 	mww 0xfffffc30 0x00000101

  100. 	while { [expr [read_register 0xfffffc68] & 0x08] != 8 } { sleep 1 }

  101. 

  102. 	# Now change PMC_MCKR register to select PLLA.

  103. 	# Wait for MCKRDY signal from PMC_SR to assert.

  104. 

  105. 	mww 0xfffffc30 0x00001302

  106. 	while { [expr [read_register 0xfffffc68] & 0x08] != 8 } { sleep 1 }

  107. 

  108. 	# Processor and master clocks are now operating and stable at maximum frequency possible:

  109. 	#	-> MCLK = 132.096 MHz

  110. 	#	-> PCLK = 396.288 MHz

  111. 

  112. 	# Switch over to adaptive clocking.

  113. 

  114. 	jtag_khz 0

  115. 

  116. 	# Enable faster DCC downloads.

  117. 

  118. 	arm7_9 dcc_downloads enable

  119. 

  120. 	# To be able to use external SDRAM, several peripheral configuration registers must

  121. 	# be modified.  The first change is made to PIO_ASR to select peripheral functions

  122. 	# for D15 through D31.  The second change is made to the PIO_PDR register to disable

  123. 	# this for D15 through D31.

  124. 

  125. 	mww 0xfffff870 0xffff0000

  126. 	mww 0xfffff804 0xffff0000

  127. 

  128. 	# The EBI chip select register EBI_CS must be specifically configured to enable the internal SDRAM controller

  129. 	# using CS1.  Additionally we want CS3 assigned to NandFlash.  Also VDDIO is connected physically on

  130. 	# the board to the 3.3 VDC power supply so set the appropriate register bit to notify the micrcontroller.

  131. 

  132. 	mww 0xffffef1c 0x000100a

  133. 

  134. 	# The AT91SAM9G20-EK evaluation board has built-in NandFlash.  The exact physical timing characteristics

  135. 	# for the memory type used on the current board (MT29F2G08AACWP) can be established by setting

  136. 	# four registers in order:  SMC_SETUP3, SMC_PULSE3, SMC_CYCLE3, and SMC_MODE3.

  137. 

  138. 	mww 0xffffec30 0x00020002

  139. 	mww 0xffffec34 0x04040404

  140. 	mww 0xffffec38 0x00070007

  141. 	mww 0xffffec3c 0x00030003

  142. 

  143. 	# Identify NandFlash bank 0.  Disabled at the moment because a memory driver is not yet complete.

  144. 

  145. #	nand probe 0

  146. 

  147. 	# Now setup SDRAM.  This is tricky and configuration is very important for reliability!  The current calculations

  148. 	# are based on 2 x Micron MT48LC16M16A2-75 memory (4 M x 16 bit x 4 banks).  If you use this file as a reference

  149. 	# for a new board that uses different SDRAM devices or clock rates, you need to recalculate the value inserted

  150. 	# into the SDRAM_CR register.  Using the memory datasheet for the -75 grade part and assuming a master clock

  151. 	# of 132.096 MHz then the SDCLK period is equal to 7.6 ns.  This means the device requires:

  152. 	#

  153. 	#	CAS latency = 3 cycles

  154. 	#	TXSR = 10 cycles

  155. 	#	TRAS = 6 cycles

  156. 	#	TRCD = 3 cycles

  157. 	#	TRP = 3 cycles

  158. 	#	TRC = 9 cycles

  159. 	#	TWR = 2 cycles

  160. 	#	9 column, 13 row, 4 banks

  161. 	#	refresh equal to or less then 7.8 us for commerical/industrial rated devices

  162. 	#

  163. 	#	Thus SDRAM_CR = 0xa6339279

  164. 

  165. 	mww 0xffffea08 0xa6339279

  166. 

  167. 	# Next issue a 'NOP' command through the SDRAMC_MR register followed by writing a zero value into

  168. 	# the starting memory location for the SDRAM.

  169. 

  170. 	mww 0xffffea00 0x00000001

  171. 	mww 0x20000000 0

  172. 

  173. 	# Issue an 'All Banks Precharge' command through the SDRAMC_MR register followed by writing a zero

  174. 	# value into the starting memory location for the SDRAM.

  175. 

  176. 	mww 0xffffea00 0x00000002

  177. 	mww 0x20000000 0

  178. 

  179. 	# Now issue an 'Auto-Refresh' command through the SDRAMC_MR register.  Follow this operation by writing

  180. 	# zero values eight times into the starting memory location for the SDRAM.

  181. 

  182. 	mww 0xffffea00 0x4

  183. 	mww 0x20000000 0

  184. 	mww 0x20000000 0

  185. 	mww 0x20000000 0

  186. 	mww 0x20000000 0

  187. 	mww 0x20000000 0

  188. 	mww 0x20000000 0

  189. 	mww 0x20000000 0

  190. 	mww 0x20000000 0

  191. 

  192. 	# Almost done, so next issue a 'Load Mode Register' command followed by a zero value write to the

  193. 	# the starting memory location for the SDRAM.

  194. 

  195. 	mww 0xffffea00 0x3

  196. 	mww 0x20000000 0

  197. 

  198. 	# Signal normal mode using the SDRAMC_MR register and follow with a zero value write the the starting

  199. 	# memory location for the SDRAM.

  200. 

  201. 	mww 0xffffea00 0x0

  202. 	mww 0x20000000 0

  203. 

  204. 	# Finally set the refresh rate to about every 7 us (7.5 ns x 924 cycles).

  205. 

  206. 	mww 0xffffea04 0x0000039c

  207. }