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/* ----------------------------------------------------------------------------
* SAM Software Package License
* ----------------------------------------------------------------------------
* Copyright (c) 2014, 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,
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
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* ----------------------------------------------------------------------------
*/
/** \addtogroup sdram_module
* The SDRAMC driver provides the Interface to configure the SDRAM Controller
* (SDRAMC).
* \section Usage
* <ul>
* <li> Configure SDRAM using SDRAMC_Configure().</li>
* </ul>
* For more accurate information, please look at the SDRAMC section of the
* Datasheet.
* Related files :\n
* \ref sdramc.c\n
* \ref sdramc.h.\n
*/
/**
* \file
*
* \section Purpose
*
* Interface for configuring and using SDRAM Controller (SDRAMC).
*
*/
/**
* \file
*
* Implementation of memories configuration on board.
*
*/
/*----------------------------------------------------------------------------
* Headers
*----------------------------------------------------------------------------*/
#include "chip.h"
/*----------------------------------------------------------------------------
* Local functions
*----------------------------------------------------------------------------*/
/**
* \brief Calculate the sdram controller config register value.
* \param pMemory Pointer to the sdram structure.
* \return Configure register value.
*/
static uint32_t SDRAMC_compute_CR_value( SSdramc_Memory* pMemory )
{
uint32_t dw=0 ;
dw |= pMemory->cfg.dwColumnBits ;
dw |= pMemory->cfg.dwRowBits ;
dw |= pMemory->cfg.dwBanks ; //NB, number of banks
dw |= pMemory->cfg.dwCAS ; //CAS, CAS latency
dw |= pMemory->cfg.dwDataBusWidth ; //DBW, data bus width
dw |= SDRAMC_CR_TWR( pMemory->cfg.dwWriteRecoveryDelay ) ;
//TWR, Write Recovery Delay
dw |= SDRAMC_CR_TRC_TRFC( pMemory->cfg.dwRowCycleDelay_RowRefreshCycle ) ;
//TRC_TRFC,Row Cycle Delay and Row Refresh Cycle
dw |= SDRAMC_CR_TRP( pMemory->cfg.dwRowPrechargeDelay ) ;
//TRP, Row Precharge Delay
dw |= SDRAMC_CR_TRCD( pMemory->cfg.dwRowColumnDelay ) ;
//TRCD, Row to Column Delay
dw |= SDRAMC_CR_TRAS( pMemory->cfg.dwActivePrechargeDelay ) ;
//TRAS, Active to Precharge Delay
dw |= SDRAMC_CR_TXSR( pMemory->cfg.dwExitSelfRefreshActiveDelay ) ;
//TXSR, Exit Self Refresh to Active Delay
return dw ;
}
/*----------------------------------------------------------------------------
* Exported functions
*----------------------------------------------------------------------------*/
/**
* \brief Configure and initialize the SDRAM controller.
* \param pMemory Pointer to the sdram structure.
* \param dwClockFrequency SDRAM clock frequency.
*/
extern void SDRAMC_Configure( SSdramc_Memory* pMemory, uint32_t dwClockFrequency )
{
volatile uint32_t dw ;
/* SDRAM hardware init */
/* Enable peripheral clock */
PMC_EnablePeripheral( ID_SMC ) ;
/* SDRAM device configure */
/* Step 1. */
/* Program the features of SDRAM device into the Configuration Register.*/
SDRAMC->SDRAMC_CR = SDRAMC_compute_CR_value( pMemory ) ;
/* Step 2. */
/* For low-power SDRAM, temperature-compensated self refresh (TCSR),
drive strength (DS) and partial array self refresh (PASR) must be set
in the Low-power Register.*/
SDRAMC->SDRAMC_LPR = 0;
/* Step 3. */
/* Program the memory device type into the Memory Device Register */
SDRAMC->SDRAMC_MDR = SDRAMC_MDR_MD_SDRAM;
/* Step 4 */
/* A minimum pause of 200 ¦Ìs is provided to precede any signal toggle.
(6 core cycles per iteration) */
for ( dw = 0; dw < ((dwClockFrequency/1000000)*200/6) ; dw++ ) ;
/* Step 5. */
/* A NOP command is issued to the SDR-SDRAM. Program NOP command into
Mode Register, the application must set Mode to 1 in the Mode Register.
Perform a write access to any SDR-SDRAM address to acknowledge this command.
Now the clock which drives SDR-SDRAM device is enabled.*/
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_NOP;
*(uint16_t *)(EBI_SDRAMC_ADDR) = 0;
/* Step 6. */
/* An all banks precharge command is issued to the SDR-SDRAM. Program all
banks precharge command into Mode Register, the application must set Mode to
2 in the Mode Register . Perform a write access to any SDRSDRAM address to
acknowledge this command. */
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_ALLBANKS_PRECHARGE;
*(uint16_t *)(EBI_SDRAMC_ADDR) = 0x0;
/* add some delays after precharge */
for ( dw = 0; dw < ((dwClockFrequency/1000000)*200/6) ; dw++ );
/* Step 7. */
/* Eight auto-refresh (CBR) cycles are provided. Program the auto refresh
command (CBR) into Mode Register, the application must set Mode to 4 in
the Mode Register. Once in the idle state, eight AUTO REFRESH cycles must
be performed. */
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0 ) = 0x1;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0) = 0x2;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0 ) = 0x3;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0) = 0x4;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0 ) = 0x5;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0) = 0x6;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0 ) = 0x7;
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_AUTO_REFRESH;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0) = 0x8;
/* Step 8. */
/* A Mode Register set (MRS) cycle is issued to program the parameters of
the SDRAM devices, in particular CAS latency and burst length. */
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_LOAD_MODEREG;
*(uint16_t *)(EBI_SDRAMC_ADDR + 0x22) = 0xcafe;
/* Step 9. */
/* For low-power SDR-SDRAM initialization, an Extended Mode Register set
(EMRS) cycle is issued to program the SDR-SDRAM parameters (TCSR, PASR, DS).
The write address must be chosen so that BA[1] is set to 1 and BA[0] is set
to 0 */
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_EXT_LOAD_MODEREG;
*((uint16_t *)(EBI_SDRAMC_ADDR + (1 << pMemory->cfg.dwBK1))) = 0;
/* Step 10. */
/* The application must go into Normal Mode, setting Mode to 0 in the Mode
Register and perform a write access at any location in the SDRAM to
acknowledge this command. */
SDRAMC->SDRAMC_MR = SDRAMC_MR_MODE_NORMAL;
*(uint16_t *)(EBI_SDRAMC_ADDR ) = 0x0;
/* Step 11. */
/* Write the refresh rate into the count field in the SDRAMC Refresh
Timer register. Set Refresh timer 15.625 us*/
dw=dwClockFrequency/1000u ;
dw*=15625u ;
dw/=1000000u ;
SDRAMC->SDRAMC_TR = SDRAMC_TR_COUNT( dw ) ;
}