[fw/openocd] / tcl / board / glyn_tonga2.cfg

#
# Glyn Tonga2 SO-DIMM CPU module (Toshiba TMPA900CMXBG, ARM9)
#
# http://toshiba-mikrocontroller.de/sites/TMPA900CPUBOARDStarter.htm
#
# Hardware on the S0-DIMM module:
#   - Toshiba TMPA900CMXBG (ARM9, ARM926EJ-S, max. 200MHz)
#   - DDR SDRAM: Hynix H5MS5162DFR-J3M (64Mbyte, x16, 1.8V, 166/83MHz at CL3/2)
#   - NAND flash: Samsung K9F2G08U0B-PIB0 (256M x 8 Bit, 3.3V)
#   - Ethernet: SMSC LAN9221I-ABZJ (10/100Mbit, Non-PCI, 16 bit interface)
#

source [find target/tmpa900.cfg]

########################
# Target configuration #
########################

# Initial JTAG speed should not exceed 1/6 of the initial CPU clock
# frequency (24MHz). Be conservative and use 1/8 of the frequency.
# (24MHz / 8 = 3MHz)
adapter speed 3000

$_TARGETNAME configure -event reset-start {
        # Upon reset, set the JTAG frequency to 3MHz again, see above.
        echo "Setting JTAG speed to 3MHz until clocks are initialized."
        adapter speed 3000

        # Halt the CPU.
        halt

        # Disable faster memory access for now.
        arm7_9 fast_memory_access disable
}

$_TARGETNAME configure -event reset-init {
        # Setup clocks, and initialize SRAM and DDR SDRAM.
        tonga2_init

        # At this point the CPU is running at 192MHz, increase JTAG speed.
        # Tests showed that 15MHz works OK, higher speeds can cause problems,
        # though. Not sure if this is a CPU issue or JTAG adapter issue.
        echo "Increasing JTAG speed to 15MHz."
        adapter speed 15000

        # Enable faster memory access.
        arm7_9 fast_memory_access enable
}

proc tonga2_init { } {
        ######################
        # PLL initialization #
        ######################

        # Clock overview (see datasheet chapter 3.5.2, page 57):
        #   - fs: Low-frequency oscillator
        #   - fOSCH: High-frequency oscillator (24MHz on this board)
        #   - fPLL = fOSCH * multiplier (where multiplier can be 6 or 8)
        #   - fFCLK = fPLL / gear (where gear can be 1/2/4/8)
        #   - fHCLK is always fFCLK/2. fPCLK is also fFCLK/2.
        #
        # We select multiplier = 8 and gear = 1, so
        #   fFCLK = fOSCH * 8 / 1 = 192MHz.

        # SYSCR3 (System Control Register 3): Disable and configure PLL.
        #   - PLL operation control: off
        #   - PLL constant value setting 1: always 0, as per datasheet
        #   - PLL constant value setting 2: x8 (multiplier = 8)
        mww 0xf005000c 0x00000007

        # SYSCR4 (System Control Register 4): Configure PLL.
        #   - PLL constant value setting 3: 140MHz or more
        #   - PLL constant value setting 4: always 1, as per datasheet
        #   - PLL constant value setting 5: 140MHz or more
        mww 0xf0050010 0x00000065

        # SYSCR3 (System Control Register 3): Enable PLL.
        #   - PLL operation control: on
        #   - All other bits remain set as above.
        mww 0xf005000c 0x00000087

        # Wait for PLL to stabilize.
        sleep 10

        # SYSCR2 (System Control Register 2): Switch from fOSCH to fPLL.
        #   - Selection of the PLL output clock: fPLL
        mww 0xf0050008 0x00000002

        # SYSCR1 (System Control Register 1):
        #   - Clock gear programming: fc/1 (i.e., gear = 1, don't divide).
        mww 0xf0050004 0x00000000

        # CLKCR5 (Clock Control Register 5): Set bits 3 and 6. The datasheet
        # says the bits are reserved, but also recommends "Write as one".
        mww 0xf0050054 0x00000048


        ##############################################################
        # Dynamic Memory Controller (DMC) / DDR SDRAM initialization #
        ##############################################################

        # PMC (Power Management Controller):
        # PMCDRV (External Port "Driverbility" control register):
        # Bits DRV_MEM0/DRV_MEM1 (memory relation port drive power):
        mww 0xf0020260 0x00000003       ;# Select 1.8V +/- 0.1V

        # Setup DDR SDRAM timing parameters for our specific chip.
        mww 0xf4310014 0x00000004       ;# cas_latency = 2
        mww 0xf4310018 0x00000001       ;# t_dqss = 1
        mww 0xf431001c 0x00000002       ;# t_mrd = 2
        mww 0xf4310020 0x0000000a       ;# t_ras = 10
        mww 0xf4310024 0x0000000a       ;# t_rc = 10
        mww 0xf4310028 0x00000013       ;# t_rcd = 3, schedule_rcd = 2
        mww 0xf431002c 0x0000010a       ;# t_rfc = 10, schedule_rfc = 8
        mww 0xf4310030 0x00000013       ;# t_rp = 3, schedule_rp = 2
        mww 0xf4310034 0x00000002       ;# t_rrd = 2
        mww 0xf4310038 0x00000002       ;# t_wr = 2
        mww 0xf431003c 0x00000001       ;# t_wtr = 1
        mww 0xf4310040 0x0000000a       ;# t_xp = 10
        mww 0xf4310044 0x0000000c       ;# t_xsr = 12
        mww 0xf4310048 0x00000014       ;# t_esr = 20

        # dmc_memory_cfg_5 (DMC Memory Configuration register):
        # Set memory configuration:
        # column_bits = 10, row_bits = 13, ap-bit = 10, power_down_prd = 0,
        # auto_power_down = disable, stop_mem_clock = disable, memory_burst = 4
        mww 0xf431000c 0x00010012

        # dmc_user_config_5 (DMC user_config register):
        # Data bus width of DDR SDRAM: 16 bit
        mww 0xf4310304 0x00000058

        # dmc_refresh_prd_5 (DMC Refresh Period register):
        # Auto refresh: every 2656 (0xa60) DMCSCLK periods.
        mww 0xf4310010 0x00000a60

        # dmc_chip_0_cfg_5 (DMC chip_0_cfg registers):
        #   - SDRAM address structure: bank, row, column
        #   - address_match = 01000000 (start address [31:24])
        #   - address_mask  = 11111100 (start address [31:24] mask value)
        mww 0xf4310200 0x000140fc

        # Initialize the DDR SDRAM chip.
        # dmc_direct_cmd_5 (DMC Direct Command register).
        # See datasheet chapter 3.10.5.1, page 268.
        mww 0xf4310008 0x000c0000       ;# RAM init: NOP
        mww 0xf4310008 0x00000000       ;# RAM init: Precharge all
        mww 0xf4310008 0x00040000       ;# RAM init: Autorefresh
        mww 0xf4310008 0x00040000       ;# RAM init: Autorefresh
        mww 0xf4310008 0x00080032       ;# RAM init: addr_13_to_0 = 0x32
        mww 0xf4310008 0x000c0000       ;# RAM init: NOP
        mww 0xf4310008 0x000a0000       ;# RAM init: bank_addr = bank 2

        # dmc_id_<0-5>_cfg_5 (DMC id_<0-5>_cfg registers):
        # Set min./max. QoS values.
        #   - 0x5: Enable QoS, max. QoS = 1
        #   - 0xb: Enable QoS, min. QoS = 2
        mww 0xf4310100 0x00000005       ;# AHB0: CPU Data
        mww 0xf4310104 0x00000005       ;# AHB1: CPU Inst
        mww 0xf4310108 0x0000000b       ;# AHB2: LCDC
        mww 0xf431010c 0x00000005       ;# AHB3: LCDDA, USB
        mww 0xf4310110 0x00000005       ;# AHB4: DMA1
        mww 0xf4310114 0x00000005       ;# AHB5: DMA2

        # dmc_memc_cmd_5 (DMC Memory Controller Command register):
        # Change DMC state to ready.
        mww 0xf4310004 0x00000000       ;# memc_cmd = "Go"

        # EBI: SMC Timeout register
        mww 0xf00a0050 0x00000001       ;# smc_timeout = 1


        ########################################################
        # Static Memory Controller (SMC) / SRAM initialization #
        ########################################################

        # smc_set_cycles_5 (SMC Set Cycles register):
        # tRC = 10, tWC = 10, tCEOE = 7, tWP = 5, tPC=2, tTR=2
        mww 0xf4311014 0x0004afaa

        # smc_set_opmode_5 (SMC Set Opmode register):
        # Memory data bus width = 16 bits, async read mode, read burst
        # length = 1 beat, async write mode, write burst length = 1 beat,
        # byte enable (SMCBE0-1) timing = SMCCSn timing, memory burst boundary
        # split setting = burst can cross any address boundary
        mww 0xf4311018 0x00000001

        # smc_direct_cmd_5 (SMC Direct Command register):
        # cmd_type = UpdateRegs, chip_select = CS1
        mww 0xf4311010 0x00c00000

        echo "Clocks, SRAM, and DDR SDRAM are now initialized."
}

#######################
# Flash configuration #
#######################

# TODO: Implement NAND support.