209 lines
7.9 KiB
Plaintext
209 lines
7.9 KiB
Plaintext
; --------------------------------------------------------------------------------
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; @Title: SPI(Serial NOR) Flash Program script for IMXRT1176 on IMXRT1170-EVK
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; @Description:
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; IS25WP128A(ISSI) /
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; W25Q128(WINBOND, U23) is on FLEXSPI_A_SS0
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;
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; SRAM: 0x20001000
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; FlexSPI(controller) Base: 0x400CC000
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; FlexSPI AHB memory mapped ADDRESS: 0x30000000
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;
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; Prerequisites:
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; SW1 SW2
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; 0010 00000000 (QSPI_FLASH)
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;
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; @Keywords: ARM, Cortex-M7
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; @Author: JIM
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; @Board: IMXRT1170-EVK
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; @Chip: IMXRT1176-CM7
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; @Copyright: (C) 1989-2022 Lauterbach GmbH, licensed for use with TRACE32(R) only
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; --------------------------------------------------------------------------------
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; $Id: imxrt1170-cm7-spi.cmm 12938 2024-01-15 15:23:13Z pegold $
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PRIVATE ¶meters ¶m_prepareonly
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ENTRY %LINE ¶meters
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¶m_prepareonly=(STRing.SCAN(STRing.UPpeR("¶meters"),"PREPAREONLY",0)!=-1)
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&FLEXSPI_BASE=0x400CC000 ;FLEXSPI_A controller base address
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&FLASH_SIZE=0x1000000 ;SPI FLASH MEMORY SIZE ex. 16MB
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&FLASH_SECTOR_SIZE=0x10000 ;SPI FLASH Sector SIZE ex. uniform 64KB sector
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; ------------------------------------------------------------------------------
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; Setup CPU
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SYStem.Down
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IF SYStem.Mode()<5
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(
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RESet
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SYStem.RESet
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SYStem.CPU IMXRT1176-CM7
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SYStem.CONFIG.DEBUGPORTTYPE SWD
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SYStem.Option.DUALPORT ON
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SYStem.MemAccess DAP
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SYStem.JtagClock 10MHz
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Trace.DISable
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SYStem.Up
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)
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; ------------------------------------------------------------------------------
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; Flash Power & Clock Enable
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GOSUB clockInit
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; ------------------------------------------------------------------------------
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; Flash Pin Mux Configuration
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GOSUB IOMUXconfig
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; ------------------------------------------------------------------------------
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; Flash Controller Init
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GOSUB FLEXSPIconfig
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; ------------------------------------------------------------------------------
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; Flash Read ID Test
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GOSUB READ_ID_TEST
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; ------------------------------------------------------------------------------
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; Flash declaration
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FLASH.RESet
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FLASH.Create 1. 0x30000000++(&FLASH_SIZE-1) &FLASH_SECTOR_SIZE TARGET Byte ;FLEXSPI1
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;FLASH.Create 2. 0x60000000++(&FLASH_SIZE-1) &FLASH_SECTOR_SIZE TARGET Byte ;FLEXSPI2
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IF &FLASH_SIZE>0x1000000
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FLASH.TARGET 0x20001000 EAHB:0x20003000 0x2000 ~~/demo/arm/flash/byte/snor_imxrt1170.bin /STACKSIZE 0x400 /DualPort
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ELSE
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FLASH.TARGET 0x20001000 EAHB:0x20003000 0x2000 ~~/demo/arm/flash/byte/snor3b_imxrt1170.bin /STACKSIZE 0x400 /DualPort
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IF ¶m_prepareonly
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ENDDO
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FLASH.List
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;ReProgram Flash
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;FLASH.ReProgram ALL
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;Data.LOAD.auto *
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;Data.LOAD.Binary * 0x30000000
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;FLASH.ReProgram OFF
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ENDDO
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FLEXSPIconfig:
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(
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//unlock
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Data.Set A:&FLEXSPI_BASE+0x018 %LE %Long 0x5AF05AF0
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Data.Set A:&FLEXSPI_BASE+0x01C %LE %Long 2
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//controller init
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Data.Set A:&FLEXSPI_BASE+0x000 %LE %Long 0xFFFF8000|(0x3<<8.) ; CR[10:8] div spi_clk
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Data.Set A:&FLEXSPI_BASE+0x004 %LE %Long 0xFFFFFFFF
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Data.Set A:&FLEXSPI_BASE+0x008 %LE %Long 0x200001F7
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Data.Set A:&FLEXSPI_BASE+0x00C %LE %Long 0x58
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Data.Set A:&FLEXSPI_BASE+0x020 %LE %Long 0x80000000
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Data.Set A:&FLEXSPI_BASE+0x024 %LE %Long 0x80000000
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Data.Set A:&FLEXSPI_BASE+0x028 %LE %Long 0x80000000
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Data.Set A:&FLEXSPI_BASE+0x060 %LE %Long 0x00200000
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Data.Set A:&FLEXSPI_BASE+0x060 %LE %Long (&FLASH_SIZE>>10.) ; 0x4000 * 0x400(KB unit size) = 16MB Flash_A0 size.
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Data.Set A:&FLEXSPI_BASE+0x064 %LE %Long (&FLASH_SIZE>>10.)
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Data.Set A:&FLEXSPI_BASE+0x068 %LE %Long (&FLASH_SIZE>>10.)
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Data.Set A:&FLEXSPI_BASE+0x06C %LE %Long (&FLASH_SIZE>>10.)
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//timing
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Data.Set A:&FLEXSPI_BASE+0x070 %LE %Long 0x00000063
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Data.Set A:&FLEXSPI_BASE+0x074 %LE %Long 0x00000063
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Data.Set A:&FLEXSPI_BASE+0x078 %LE %Long 0x00000063
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Data.Set A:&FLEXSPI_BASE+0x07C %LE %Long 0x00000063
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Data.Set A:&FLEXSPI_BASE+0x080 %LE %Long 0x00000900
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Data.Set A:&FLEXSPI_BASE+0x084 %LE %Long 0x00000900
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Data.Set A:&FLEXSPI_BASE+0x088 %LE %Long 0x00000900
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Data.Set A:&FLEXSPI_BASE+0x08C %LE %Long 0x00000900
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Data.Set A:&FLEXSPI_BASE+0x0B8 %LE %Long 0x1 ; water marker level 0 , reset assert 0x1
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Data.Set A:&FLEXSPI_BASE+0x0BC %LE %Long 0x1 ; water marker level 0 , reset assert 0x1
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Data.Set A:&FLEXSPI_BASE+0x0C0 %LE %Long 0x0100
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Data.Set A:&FLEXSPI_BASE+0x0C4 %LE %Long 0x0100
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//LUT0 for read the spi memory data to the AHB
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IF &FLASH_SIZE>0x1000000
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( //4Bytes Address Mode
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//FAST READ Quad I/O 0xEC : 1-4-4
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Data.Set A:&FLEXSPI_BASE+0x200 %LE %Long 0x0A2004EC ; (0x0A: RADDR_SDR(2)| four pad(2)) / (0x04: CMD_SDR(1)| one pad(0)) ; cmd(0xEC) -> addr(32bits)
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Data.Set A:&FLEXSPI_BASE+0x204 %LE %Long 0x26043206 ; (0x32: DUMMY_SDR(0xC)| four pad(2)) / (0x26: READ_SDR(0x9)|four pad(2)) ; dummy(6bits) -> read data (4Bytes)
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Data.Set A:&FLEXSPI_BASE+0x208 %LE %Long 0x00
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Data.Set A:&FLEXSPI_BASE+0x20C %LE %Long 0x00
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//Normal Read Mode 0x13 : 1-1-1
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; Data.Set A:&FLEXSPI_BASE+0x200 %LE %Long 0x08200413 ; (0x08: RADDR_SDR(2)| one pad(0)) / (0x04: CMD_SDR(1)| single pad(0)) ; cmd 03 -> addr(32bits)
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; Data.Set A:&FLEXSPI_BASE+0x204 %LE %Long 0x00002404 ; (0x24: READ_SDR(0x9)|one pad(0)) ;read data(4Bytes)
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; Data.Set A:&FLEXSPI_BASE+0x208 %LE %Long 0x00
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; Data.Set A:&FLEXSPI_BASE+0x20C %LE %Long 0x00
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)
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ELSE
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( //3Bytes Address Mode
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//FAST READ Quad I/O 0xEB : 1-4-4
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; Data.Set A:&FLEXSPI_BASE+0x200 %LE %Long 0x0A1804EB ; (0x0A: RADDR_SDR(2)| four pad(2)) / (0x04: CMD_SDR(1)| one pad(0)) ; cmd(0xEB) -> addr(24bits)
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; Data.Set A:&FLEXSPI_BASE+0x204 %LE %Long 0x26043206 ; (0x32: DUMMY_SDR(0xC)| four pad(2)) / (0x26: READ_SDR(0x9)|four pad(2)) ; dummy(6bits) -> read data (4Bytes)
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; Data.Set A:&FLEXSPI_BASE+0x208 %LE %Long 0x00
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; Data.Set A:&FLEXSPI_BASE+0x20C %LE %Long 0x00
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//Normal Read Mode 0x03 : 1-1-1
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Data.Set A:&FLEXSPI_BASE+0x200 %LE %Long 0x08180403 ; (0x08: RADDR_SDR(2)| one pad(0)) / (0x04: CMD_SDR(1)| single pad(0)) ; cmd 03 -> addr(24bits)
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Data.Set A:&FLEXSPI_BASE+0x204 %LE %Long 0x00002404 ; (0x24: READ_SDR(0x9)|one pad(0)) ;read data(4Bytes)
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Data.Set A:&FLEXSPI_BASE+0x208 %LE %Long 0x00
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Data.Set A:&FLEXSPI_BASE+0x20C %LE %Long 0x00
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)
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//AHB update automatically even though the window size is < 1KB
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Data.Set A:&FLEXSPI_BASE+0x00C %LE %Long Data.Long(A:&FLEXSPI_BASE+0x00C)&~0x20
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RETURN
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)
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IOMUXconfig:
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(
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//pin mux
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Data.Set SD:0x400E8554 %LE %Long 0x1 ;FLEXSPI1_I_IO_FA_SELECT_INPUT_0 DAISY
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Data.Set SD:0x400E8558 %LE %Long 0x1 ;FLEXSPI1_I_IO_FA_SELECT_INPUT_1 DAISY
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Data.Set SD:0x400E855C %LE %Long 0x1 ;FLEXSPI1_I_IO_FA_SELECT_INPUT_2 DAISY
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Data.Set SD:0x400E8560 %LE %Long 0x1 ;FLEXSPI1_I_IO_FA_SELECT_INPUT_3 DAISY
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Data.Set SD:0x400E81CC %LE %Long 0x1 ;GPIO_SD_B2_06, FLEXSPI1_A_SS0
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Data.Set SD:0x400E81D0 %LE %Long 0x11 ;GPIO_SD_B2_07, FLEXSPI1_A_SCLK
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Data.Set SD:0x400E81D4 %LE %Long 0x1 ;GPIO_SD_B2_08, FLEXSPI1_A_DATA00
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Data.Set SD:0x400E81D8 %LE %Long 0x1 ;GPIO_SD_B2_09, FLEXSPI1_A_DATA01
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Data.Set SD:0x400E81DC %LE %Long 0x1 ;GPIO_SD_B2_10, FLEXSPI1_A_DATA02
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Data.Set SD:0x400E81E0 %LE %Long 0x1 ;GPIO_SD_B2_11, FLEXSPI1_A_DATA03
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RETURN
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)
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clockInit:
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(
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// Enable all clocks
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RETURN
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)
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READ_ID_TEST:
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(
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PRINT "READ_ID_TEST..."
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Data.Set ASD:&FLEXSPI_BASE+0x80 %LE %Long 0x80000900 ;FLASHCR2
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Data.Set ASD:&FLEXSPI_BASE+0x14 %LE %Long -1 ;INTR clear
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Data.Set A:&FLEXSPI_BASE+0xB8 %Long 0x1 ;IPRXFCR
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Data.Set A:&FLEXSPI_BASE+0xBC %Long 0x1 ;IPTXFCR
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Data.Set A:&FLEXSPI_BASE+0x250 %LE %Long 0x2404049F ;readid with 4 bytes READ data
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Data.Set A:&FLEXSPI_BASE+0x254 %LE %Long 0x0 ;
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Data.Set A:&FLEXSPI_BASE+0x258 %LE %Long 0x0 ;
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Data.Set A:&FLEXSPI_BASE+0x25c %LE %Long 0x0 ;
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Data.Set A:&FLEXSPI_BASE+0x0A4 %LE %Long (5.<<16.)|0x4
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Data.Set A:&FLEXSPI_BASE+0x0B0 %LE %Long 1 ;start
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PRINT "1st 0x" Data.Long(A:&FLEXSPI_BASE+0x100)&0xFF " (Manufacturer)"
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PRINT "2nd 0x" (Data.Long(A:&FLEXSPI_BASE+0x100)>>8.)&0xFF " (Device ID)"
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PRINT "3rd 0x" (Data.Long(A:&FLEXSPI_BASE+0x100)>>16.)&0xFF
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PRINT "4th 0x" Data.Long(A:&FLEXSPI_BASE+0x100)>>24.
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RETURN
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)
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