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|
/* ----------------------------------------------------------------------------
* ATMEL Microcontroller Software Support
* ----------------------------------------------------------------------------
* Copyright (c) 2008, Atmel Corporation
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the disclaimer below.
*
* Atmel's name may not be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
* ----------------------------------------------------------------------------
*/
/*
Title: Memories implementation
*/
//------------------------------------------------------------------------------
// Headers
//------------------------------------------------------------------------------
#include <board.h>
#include <pio/pio.h>
#include "board_memories.h"
/*
Macros:
READ - Reads a register value. Useful to add trace information to read
accesses.
WRITE - Writes data in a register. Useful to add trace information to
write accesses.
*/
#define READ(peripheral, register) (peripheral->register)
#define WRITE(peripheral, register, value) (peripheral->register = value)
//------------------------------------------------------------------------------
// Internal definitions
//------------------------------------------------------------------------------
/*
Constants: Remap types
BOARD_ROM - ROM or EBI CS0 is mirrored in the remap zone.
BOARD_RAM - RAM is mirrored in the remap zone.
*/
#define BOARD_ROM 0
#define BOARD_RAM 1
//------------------------------------------------------------------------------
// Internal functions
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
/// Returns the current remap (see <Remap types>).
//------------------------------------------------------------------------------
/*static unsigned char BOARD_GetRemap()
{
volatile unsigned int *remap = (volatile unsigned int *) 0;
volatile unsigned int *ram = (volatile unsigned int *) AT91C_IRAM;
// Try to write in 0 and see if this affects the RAM
unsigned int temp = *ram;
*ram = temp + 1;
if (*remap == *ram) {
*ram = temp;
return BOARD_RAM;
}
else {
*ram = temp;
return BOARD_ROM;
}
}*/
//------------------------------------------------------------------------------
/// Use in SDRAM and DDRAM configguration
//------------------------------------------------------------------------------
void sleep_time(unsigned int timeval)
{
unsigned int i;
for( i=0; i<timeval; i++);
}
//------------------------------------------------------------------------------
// Exported functions
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
/// Changes the mapping of the chip so that the remap area mirrors the
/// internal ROM or the EBI CS0.
//------------------------------------------------------------------------------
void BOARD_RemapRom()
{
WRITE(AT91C_BASE_MATRIX, MATRIX_MRCR, 0);
}
//------------------------------------------------------------------------------
/// Changes the mapping of the chip so that the remap area mirrors the
/// internal RAM.
//------------------------------------------------------------------------------
void BOARD_RemapRam()
{
WRITE(AT91C_BASE_MATRIX, MATRIX_MRCR, (AT91C_MATRIX_RCA926I | AT91C_MATRIX_RCA926D));
}
//------------------------------------------------------------------------------
/// Initialize Vdd EBI external memory
//------------------------------------------------------------------------------
void BOARD_ConfigureVddMemSel(unsigned char VddMemSel)
{
AT91C_BASE_CCFG->CCFG_EBICSA &= ~AT91C_EBI_OSMODE;
if(VddMemSel == VDDMEMSEL_3V3)
{
AT91C_BASE_CCFG->CCFG_EBICSA |= AT91C_EBI_OSALLN1;
AT91C_BASE_CCFG->CCFG_EBICSA &= ~AT91C_EBI_OSALLN0;
}
else
{
AT91C_BASE_CCFG->CCFG_EBICSA &= ~AT91C_EBI_OSALLN1;
AT91C_BASE_CCFG->CCFG_EBICSA &= ~AT91C_EBI_OSALLN0;
}
}
//------------------------------------------------------------------------------
/// Initialize and configure the SDRAM
//------------------------------------------------------------------------------
void BOARD_ConfigureSdram(unsigned char busWidth)
{
// Micron MT48LC16M16A2
unsigned int i;
static const Pin pinsSdram[] = {PINS_SDRAM};
volatile unsigned int *pSdram = (unsigned int *) AT91C_EBI_SDRAM;
unsigned short sdrc_dbw = 0;
switch (busWidth) {
case 16:
sdrc_dbw = AT91C_B16MODE_16_BITS;
break;
case 32:
default:
sdrc_dbw = AT91C_B16MODE_32_BITS;
break;
}
// Enable corresponding PIOs
PIO_Configure(pinsSdram, 1);
//-- 1st Step : Program the memory device type into Memory Device Register
WRITE(AT91C_BASE_SDDRC, SDDRC_MDR , AT91C_MD_SDR_SDRAM
| sdrc_dbw); // SDRAM type 3.3V + 32bit MODE
//-- 2nd Step : Program the SDR-SDRAM device into the Configuration Register
//-- (number of columns, rows, cas latency)
//-- and into the Timing Register (asynchronous timing)
WRITE(AT91C_BASE_SDDRC, SDDRC_CR , AT91C_NC_DDR10_SDR9
| AT91C_NR_13
| AT91C_CAS_3); // row = 13, column = 9 SDRAM CAS = 3
WRITE(AT91C_BASE_SDDRC, SDDRC_T0PR, AT91C_TRAS_4
| AT91C_TRCD_2
| AT91C_TWR_2
| AT91C_TRC_4
| AT91C_TRP_3
| AT91C_TRRD_3
| AT91C_TWTR_1
| AT91C_TMRD_6);
//-- 3rd Step : this step is performed only with mobile SDRAM
sleep_time(50000); // --------- WAIT ---------
//-- 4th Step : a NOP command is performed => allow to enable clk
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_NOP_CMD); // NOP command
pSdram[0] = 0x00000000; // Dummy read to access SDRAM : validate preceeding command
//-- 5th Step : an All Bank Precharge command is issued to the SDR-SDRAM
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_PRCGALL_CMD); // Precharge All Banks command
pSdram[0] = 0x00000000; // Dummy read to access SDRAM : validate preceeding command
//-- 6th Step : eight auto refresh cycles are provided
for(i=0;i<8;i++) {
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_RFSH_CMD); // AutoRefresh command
pSdram[0] = 0x00000000; // Dummy read to access SDRAM : validate preceeding command
}
//-- 7th Step : a Mode Register Set is issued to program the parameters of the SDR-SDRAM device
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_LMR_CMD); // Set MR JEDEC compliant : Load mode Register command
pSdram[8] = 0x00000000; // Perform LMR burst=1, lat=2
//-- 8th Step : this step is performed only with mobile SDRAM
//-- 9th Step : Set Normal mode
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_NORMAL_CMD); // Set Normal mode : Any access to the DDRSDRAMC is decoded normally
pSdram[0] = 0x00000000; // Dummy read to access SDRAM : validate preceeding command
//-- 10th Step : Set Refresh timer
WRITE(AT91C_BASE_SDDRC, SDDRC_RTR, 781); // Set Refresh Timer (ex: ((64 x 10^-3)/8192) x 100 x 10^6 ) => 781 for 100 MHz
}
//------------------------------------------------------------------------------
/// Initialize and configure the DDRAM
//------------------------------------------------------------------------------
void BOARD_ConfigureDdram(
unsigned char ddrModel,
unsigned char busWidth
)
{
// Micron MT46H16M16LF
unsigned int i;
volatile unsigned int *pDdram = (unsigned int *) AT91C_EBI_DDRAM;
unsigned short ddrc_dbw = 0;
switch (busWidth) {
case 16:
ddrc_dbw = AT91C_B16MODE_16_BITS;
break;
case 32:
default:
ddrc_dbw = AT91C_B16MODE_32_BITS;
break;
}
// Enable DDR controller Clock
AT91C_BASE_PMC->PMC_SCER = AT91C_PMC_DDR;
// Step 1: program the memory device type into Memory Device Register
// Memory Device Register
WRITE(AT91C_BASE_SDDRC, SDDRC_MDR, AT91C_MD_LP_DDR_SDRAM
| ddrc_dbw );
// Step 2: program the features of the Mobile DDR into the Configuration Register
// number of columns, rows, banks and cas latency
// Configuration Register (Normal driver strength(0) | Disable DLL reset(0) | SDRAM CAS = 3 | row = 13 | column = 9)
WRITE(AT91C_BASE_SDDRC, SDDRC_CR, AT91C_DLL_RESET_DISABLED
| AT91C_CAS_3
| AT91C_NR_13
| AT91C_NC_DDR9_SDR8 );
// Timing 0 Parameter Register
WRITE(AT91C_BASE_SDDRC, SDDRC_T0PR, AT91C_TMRD_2
| AT91C_TWTR_1
| AT91C_TRRD_2
| AT91C_TRP_3
| AT91C_TRC_8
| AT91C_TWR_2
| AT91C_TRCD_3
| AT91C_TRAS_5);
// Timing 1 Parameter Register
WRITE(AT91C_BASE_SDDRC, SDDRC_T1PR, AT91C_TXP_4
| AT91C_TXSRD_12
| AT91C_TXSNR_12
| AT91C_TRFC_9 );
// Step 3: program temperature compensated self refresh (tcr),
// Partial array self refresh (pasr)
// and Drive strength (ds) into the Low-power Register.
// --------- WAIT ---------
// Step 4: perform a NOP command in order to allow to enable clk
// NOP command
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_NOP_CMD);
pDdram[0] = 0x00000000; // Dummy write to access SDRAM : validate preceeding command
sleep_time(200);
// Step 5: perform an All Banks Precharge command
// Precharge All Banks command
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_PRCGALL_CMD);
pDdram[0] = 0x00000000; // Dummy write to access SDRAM : validate preceeding command
// Step 6: two auto refresh cycles are provided
for (i=0;i<2;i++)
{
// AutoRefresh command
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_RFSH_CMD);
pDdram[0] = 0x00000000; // Dummy write to access SDRAM : validate preceeding command
}
// Step 7: an extended mode register set cycle is issued
// Extended Mode Register Set command
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_EXT_LMR_CMD);
pDdram[0x400000] = 0x00000000; //@0x71000000 (BA[0]=0 BA[1]=1)
// Step 8: a mode register set cycle is issued
// Mode Register Set command
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_LMR_CMD);
pDdram[0] = 0x00000000;
// Step 9: Set Normal mode
// Set Normal mode : Any access to the DDRSDRAMC is decoded normally
WRITE(AT91C_BASE_SDDRC, SDDRC_MR, AT91C_MODE_NORMAL_CMD);
pDdram[0] = 0x00000000;
// Step 10: Perform a write access to any DDR-SDRAM address
pDdram[0] = 0x00000000;
// a third write to avoid DLL fine tuning
pDdram[0] = 0x00000000;
// Step 11: Set Refresh timer
// Set Refresh Timer : ((64 x 10^-3)/8192) x 48 x 10^6 ---> 375 for 48 MHz
//WRITE(AT91C_BASE_SDDRC, SDDRC_RTR, 375);
// Set Refresh Timer : ((64 x 10^-3)/8192) x 100 x 10^6 ---> 781 for 100 MHz
WRITE(AT91C_BASE_SDDRC, SDDRC_RTR, 781);
// --------- WAIT ---------
sleep_time(2000);
}
//------------------------------------------------------------------------------
/// Initialize and configure the BCRAM
//------------------------------------------------------------------------------
void BOARD_ConfigureBcram(unsigned char busWidth)
{
volatile unsigned int *pBcram = (unsigned int *) AT91C_EBI_BCRAM;
// Configure EBI
AT91C_BASE_CCFG->CCFG_EBICSA |= AT91C_EBI_CS1A_BCRAMC;
// Configure A23 and A24 PIO as Periph A
AT91C_BASE_PIOD->PIO_PDR = AT91C_PIO_PD12 | AT91C_PIO_PD13;
AT91C_BASE_PIOD->PIO_ASR = AT91C_PIO_PD12 | AT91C_PIO_PD13;
// Step 1: The Cellular Ram memory type must be set in the BCRAMC Memory Device Register.
// -------------------------------------------------------------------------
// Burst CellularRAM Version 1.5
// (BCRAMC_MDR = 0x00000001)
AT91C_BASE_BCRAMC->BCRAMC_MDR = AT91C_BCRAMC_MD_BCRAM_V15;
// Step 2: Temperature compensated self refresh (TCSR) and partial array
// refresh (PAR) must be set in the BCRAMC Low Power register.
// -------------------------------------------------------------------------
// Low power register => Low-power is inhibited, Internal Temperature Sensor choosen
// PAR[2:0] : Partial Array Refresh = 000 (Full Array)
// TCR_TCSR[5:4] : Temperature Compensated Refresh/Self-refresh = 00 (Internal sensor or 70°C)
// LPCB[9:8] : Low Power Command Bit = 00 (Low power Feature inhibited)
// (BCRAMC_LPR = 0x00000000)
AT91C_BASE_BCRAMC->BCRAMC_LPR = AT91C_BCRAMC_PAR_FULL |
//AT91C_BCRAMC_TCR_INTERNAL_OR_70C |
AT91C_BCRAMC_LPCB_DISABLE;
// High Speed Register
// DA(0) Decode Cycle = 0 (No decode cycle added)
// (BCRAMC_HSR = 0x00000000)
AT91C_BASE_BCRAMC->BCRAMC_HSR = AT91C_BCRAMC_DA_DISABLE;
// Step 3: Asynchronous timings (TCKA, TCRE..) must be set in the BCRAMC Timing Register.
// -------------------------------------------------------------------------
// TCW[3:0] : Chip Enable to End of Write = 3
// TCRES[5:4] : Control Register Enable Setup = 2
// TCKA[11:8] : BCWE High to BCCK Valid = 0
// (BCRAMC_TPR = 0x00000023)
AT91C_BASE_BCRAMC->BCRAMC_TPR = AT91C_BCRAMC_TCW_3 |
AT91C_BCRAMC_TCRES_2 |
AT91C_BCRAMC_TCKA_0;
// Step 4: Cellular Ram features must be set in the HBCRAMC Configuration Register:
// – number rows, latency, drive strength (DS), the data bus width and cram_enabled bit must be high.
// -------------------------------------------------------------------------
// CRAM_EN(0) : BCRAM enabled = 0
// LM[6:4] : Latency Mode = 011 = 3 cycles (reset value)
// DBW[8] : Data Bus Width = 1 (0->32bits / 1->16bits)
// BOUNDARY_WORD[13:12] : Number of Words in Row = 01 = 128 words by row
// ADDRDATA_MUX[16] : Address and Data bus Multiplexed ? = 0 => NO
// DS[21:20] : Drive Strength = 00 => FULL
// VAR_FIX_LAT[24] : Variable or Fixed latency ? = 0 => VARIABLE
// 3 latency cycles, dbw = 16 bits, 128 words per row, address & data bus
// not muxed, full drive strength, variable latency
// (BCRAMC_CR = 0x00001130)
AT91C_BASE_BCRAMC->BCRAMC_CR = AT91C_BCRAMC_CAS_3 |
AT91C_BCRAM_NWIR_128 |
AT91C_BCRAM_ADMX_NO_MUX |
AT91C_BCRAM_DS_FULL_DRIVE |
AT91C_BCRAM_VFLAT_VARIABLE;
switch (busWidth) {
case 16:
AT91C_BASE_BCRAMC->BCRAMC_CR |= AT91C_BCRAMC_DBW_16_BITS;
break;
case 32:
default:
AT91C_BASE_BCRAMC->BCRAMC_CR |= AT91C_BCRAMC_DBW_32_BITS;
break;
}
// + BCRAMC enabled
AT91C_BASE_BCRAMC->BCRAMC_CR |= AT91C_BCRAMC_EN;
// Step 5: Perform a write to the Cellular Ram device and the Bus Configuration Register (BCR) and
// Refresh Configuration Register (RCR) are programmed automatically.
// Dummy write to access BCRAM : validate preceeding command
pBcram[0] = 0x12345678;//00000000;
}
//------------------------------------------------------------------------------
/// Configures the EBI for NandFlash access. Pins must be configured after or
/// before calling this function.
//------------------------------------------------------------------------------
void BOARD_ConfigureNandFlash(unsigned char busWidth)
{
// Configure EBI
AT91C_BASE_CCFG->CCFG_EBICSA |= AT91C_EBI_CS3A_SM;
// Configure SMC
AT91C_BASE_SMC->SMC_SETUP3 = 0x00010001;
AT91C_BASE_SMC->SMC_PULSE3 = 0x03030303;
AT91C_BASE_SMC->SMC_CYCLE3 = 0x00050005;
AT91C_BASE_SMC->SMC_CTRL3 = 0x00020003;
if (busWidth == 8) {
AT91C_BASE_SMC->SMC_CTRL3 |= AT91C_SMC_DBW_WIDTH_EIGTH_BITS;
}
else if (busWidth == 16) {
AT91C_BASE_SMC->SMC_CTRL3 |= AT91C_SMC_DBW_WIDTH_SIXTEEN_BITS;
}
}
//------------------------------------------------------------------------------
/// Configures the EBI for NandFlash access at 48MHz. Pins must be configured
/// after or before calling this function.
//------------------------------------------------------------------------------
void BOARD_ConfigureNandFlash48MHz(unsigned char busWidth)
{
// Configure EBI
AT91C_BASE_CCFG->CCFG_EBICSA |= AT91C_EBI_CS3A_SM;
// Configure SMC
AT91C_BASE_SMC->SMC_SETUP3 = 0x00010001;
AT91C_BASE_SMC->SMC_PULSE3 = 0x04030302;
AT91C_BASE_SMC->SMC_CYCLE3 = 0x00070004;
AT91C_BASE_SMC->SMC_CTRL3 = (AT91C_SMC_READMODE
| AT91C_SMC_WRITEMODE
| AT91C_SMC_NWAITM_NWAIT_DISABLE
| ((0x1 << 16) & AT91C_SMC_TDF));
if (busWidth == 8) {
AT91C_BASE_SMC->SMC_CTRL3 |= AT91C_SMC_DBW_WIDTH_EIGTH_BITS;
}
else if (busWidth == 16) {
AT91C_BASE_SMC->SMC_CTRL3 |= AT91C_SMC_DBW_WIDTH_SIXTEEN_BITS;
}
}
//------------------------------------------------------------------------------
/// Configures the EBI for NorFlash access
/// \Param busWidth Bus width
//------------------------------------------------------------------------------
void BOARD_ConfigureNorFlash(unsigned char busWidth)
{
// Configure SMC
AT91C_BASE_SMC->SMC_SETUP0 = 0x00000002;
AT91C_BASE_SMC->SMC_PULSE0 = 0x0A0A0A06;
AT91C_BASE_SMC->SMC_CYCLE0 = 0x000A000A;
AT91C_BASE_SMC->SMC_CTRL0 = (AT91C_SMC_READMODE
| AT91C_SMC_WRITEMODE
| AT91C_SMC_NWAITM_NWAIT_DISABLE
| ((0x1 << 16) & AT91C_SMC_TDF));
if (busWidth == 8) {
AT91C_BASE_SMC->SMC_CTRL0 |= AT91C_SMC_DBW_WIDTH_EIGTH_BITS;
}
else if (busWidth == 16) {
AT91C_BASE_SMC->SMC_CTRL0 |= AT91C_SMC_DBW_WIDTH_SIXTEEN_BITS;
}
else if (busWidth == 32) {
AT91C_BASE_SMC->SMC_CTRL0 |= AT91C_SMC_DBW_WIDTH_THIRTY_TWO_BITS;
}
}
//------------------------------------------------------------------------------
/// Configures the EBI for NorFlash access at 48MHz.
/// \Param busWidth Bus width
//------------------------------------------------------------------------------
void BOARD_ConfigureNorFlash48MHz(unsigned char busWidth)
{
// Configure SMC
AT91C_BASE_SMC->SMC_SETUP0 = 0x00000001;
AT91C_BASE_SMC->SMC_PULSE0 = 0x07070703;
AT91C_BASE_SMC->SMC_CYCLE0 = 0x00070007;
AT91C_BASE_SMC->SMC_CTRL0 = (AT91C_SMC_READMODE
| AT91C_SMC_WRITEMODE
| AT91C_SMC_NWAITM_NWAIT_DISABLE
| ((0x1 << 16) & AT91C_SMC_TDF));
if (busWidth == 8) {
AT91C_BASE_SMC->SMC_CTRL0 |= AT91C_SMC_DBW_WIDTH_EIGTH_BITS;
}
else if (busWidth == 16) {
AT91C_BASE_SMC->SMC_CTRL0 |= AT91C_SMC_DBW_WIDTH_SIXTEEN_BITS;
}
else if (busWidth == 32) {
AT91C_BASE_SMC->SMC_CTRL0 |= AT91C_SMC_DBW_WIDTH_THIRTY_TWO_BITS;
}
}
|