rt-thread/bsp/renesas/ra8d1-vision-board/board/ports/drv_sdram.c

263 lines
11 KiB
C

/***********************************************************************************************************************
* Copyright [2020-2023] Renesas Electronics Corporation and/or its affiliates. All Rights Reserved.
*
* This software and documentation are supplied by Renesas Electronics America Inc. and may only be used with products
* of Renesas Electronics Corp. and its affiliates ("Renesas"). No other uses are authorized. Renesas products are
* sold pursuant to Renesas terms and conditions of sale. Purchasers are solely responsible for the selection and use
* of Renesas products and Renesas assumes no liability. No license, express or implied, to any intellectual property
* right is granted by Renesas. This software is protected under all applicable laws, including copyright laws. Renesas
* reserves the right to change or discontinue this software and/or this documentation. THE SOFTWARE AND DOCUMENTATION
* IS DELIVERED TO YOU "AS IS," AND RENESAS MAKES NO REPRESENTATIONS OR WARRANTIES, AND TO THE FULLEST EXTENT
* PERMISSIBLE UNDER APPLICABLE LAW, DISCLAIMS ALL WARRANTIES, WHETHER EXPLICITLY OR IMPLICITLY, INCLUDING WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT, WITH RESPECT TO THE SOFTWARE OR
* DOCUMENTATION. RENESAS SHALL HAVE NO LIABILITY ARISING OUT OF ANY SECURITY VULNERABILITY OR BREACH. TO THE MAXIMUM
* EXTENT PERMITTED BY LAW, IN NO EVENT WILL RENESAS BE LIABLE TO YOU IN CONNECTION WITH THE SOFTWARE OR DOCUMENTATION
* (OR ANY PERSON OR ENTITY CLAIMING RIGHTS DERIVED FROM YOU) FOR ANY LOSS, DAMAGES, OR CLAIMS WHATSOEVER, INCLUDING,
* WITHOUT LIMITATION, ANY DIRECT, CONSEQUENTIAL, SPECIAL, INDIRECT, PUNITIVE, OR INCIDENTAL DAMAGES; ANY LOST PROFITS,
* OTHER ECONOMIC DAMAGE, PROPERTY DAMAGE, OR PERSONAL INJURY; AND EVEN IF RENESAS HAS BEEN ADVISED OF THE POSSIBILITY
* OF SUCH LOSS, DAMAGES, CLAIMS OR COSTS.
**********************************************************************************************************************/
/***********************************************************************************************************************
* Includes <System Includes> , "Project Includes"
**********************************************************************************************************************/
#include "r_ioport.h"
#include "bsp_cfg.h"
#include "bsp_pin_cfg.h"
#include <rtthread.h>
#define DRV_DEBUG
#define LOG_TAG "drv_sdram"
#include <drv_log.h>
/*
* Set ACTIVE-to-PRECHARGE command (tRAS) timing
* e.g. tRAS = 42ns -> 6cycles are needed at SDCLK 120MHz
* tRAS = 37ns -> 5cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_TRAS (6U)
/*
* Set ACTIVE-to-READ or WRITE delay tRCD (tRCD) timing
* e.g. tRCD = 18ns -> 3cycles are needed at SDCLK 120MHz
* tRCD = 15ns -> 2cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_TRCD (3U)
/*
* Set PRECHARGE command period (tRP) timing
* e.g. tRP = 18ns -> 3cycles are needed at SDCLK 120MHz
* tRP = 15ns -> 2cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_TRP (3U)
/*
* Set WRITE recovery time (tWR) timing
* e.g. tWR = 1CLK + 6ns -> 2cycles are needed at SDCLK 120MHz
* tWR = 1CLK + 7ns -> 2cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_TWR (2U)
/*
* Set CAS (READ) latency (CL) timing
* e.g. CL = 18ns -> 3cycles are needed at SDCLK 120MHz
* e.g. CL = 15ns -> 2cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_CL (3U)
/*
* Set AUTO REFRESH period (tRFC) timing
* e.g. tRFC = 60nS -> 8cycles are needed at SDCLK 120MHz
* tRFC = 66nS -> 8cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_TRFC (8U)
/*
* Set Average Refresh period
* e.g. tREF = 64ms/8192rows -> 7.8125us/each row. 937cycles are needed at SDCLK 120MHz
*/
#define BSP_PRV_SDRAM_REF_CMD_INTERVAL (937U)
/*
* Set Auto-Refresh issue times in initialization sequence needed for SDRAM device
* Typical SDR SDRAM device needs twice of Auto-Refresh command issue
*/
#define BSP_PRV_SDRAM_SDIR_REF_TIMES (2U)
/*
* Set RAW address offset
* Available settings are
* 8 : 8-bit
* 9 : 9-bit
* 10 : 10-bit
* 11 : 11-bit
*/
#define BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET (9U)
/*
* Select endian mode for SDRAM address space
* 0 : Endian of SDRAM address space is the same as the endian of operating mode
* 1 : Endian of SDRAM address space is not the endian of operating mode
*/
#define BSP_PRV_SDRAM_ENDIAN_MODE (0U)
/*
* Select access mode
* Typically Continuous access should be enabled to get better SDRAM bandwidth
* 0: Continuous access is disabled
* 1: Continuous access is enabled
*/
#define BSP_PRV_SDRAM_CONTINUOUS_ACCESSMODE (1U)
/*
* Select bus width
* 0: 16-bit
* 1: 32-bit
* 2: 8-bit
*/
#define BSP_PRV_SDRAM_BUS_WIDTH (0U)
#if ((BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET != 8U) && (BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET != 9U) \
&& (BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET != 10U) && (BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET > 11U))
#error "BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET must be either of 8,9,10 or 11"
#endif
#if ((BSP_PRV_SDRAM_BUS_WIDTH != 0) && (BSP_PRV_SDRAM_BUS_WIDTH != 1U) && (BSP_PRV_SDRAM_BUS_WIDTH != 2U))
#error "BSP_PRV_SDRAM_BUS_WIDTH must be either of 0(16-bit) or 1(32-bit) or 2(8-bit)"
#endif
#if ((BSP_PRV_SDRAM_ENDIAN_MODE != 0) && (BSP_PRV_SDRAM_ENDIAN_MODE != 1))
#error \
"BSP_PRV_SDRAM_ENDIAN_MODE must be either of 0(same endian as operating mode) or 2(another endian against operating mode)"
#endif
#if ((BSP_PRV_SDRAM_CONTINUOUS_ACCESSMODE != 0) && (BSP_PRV_SDRAM_CONTINUOUS_ACCESSMODE != 1))
#error \
"BSP_PRV_SDRAM_CONTINUOUS_ACCESSMODE must be either of 0(continuous access is disabled) or 1(continuous access is enabled)"
#endif
#define BSP_PRV_SDRAM_MR_WB_SINGLE_LOC_ACC (1U) /* MR.M9 : Single Location Access */
#define BSP_PRV_SDRAM_MR_OP_MODE (0U) /* MR.M8:M7 : Standard Operation */
#define BSP_PRV_SDRAM_MR_BT_SEQUENCTIAL (0U) /* MR.M3 Burst Type : Sequential */
#define BSP_PRV_SDRAM_MR_BURST_LENGTH (0U) /* MR.M2:M0 Burst Length: 0(1 burst) */
/***********************************************************************************************************************
* Typedef definitions
**********************************************************************************************************************/
/***********************************************************************************************************************
* Exported global variables (to be accessed by other files)
**********************************************************************************************************************/
/***********************************************************************************************************************
* Private global variables and functions
**********************************************************************************************************************/
void drv_sdram_init(void)
{
/** Setting for SDRAM initialization sequence */
#if (BSP_PRV_SDRAM_TRP < 3)
R_BUS->SDRAM.SDIR_b.PRC = 3U;
#else
R_BUS->SDRAM.SDIR_b.PRC = BSP_PRV_SDRAM_TRP - 3U;
#endif
while (R_BUS->SDRAM.SDSR)
{
/* According to h/w maual, need to confirm that all the status bits in SDSR are 0 before SDIR modification. */
}
R_BUS->SDRAM.SDIR_b.ARFC = BSP_PRV_SDRAM_SDIR_REF_TIMES;
while (R_BUS->SDRAM.SDSR)
{
/* According to h/w maual, need to confirm that all the status bits in SDSR are 0 before SDIR modification. */
}
#if (BSP_PRV_SDRAM_TRFC < 3)
R_BUS->SDRAM.SDIR_b.ARFI = 0U;
#else
R_BUS->SDRAM.SDIR_b.ARFI = BSP_PRV_SDRAM_TRFC - 3U;
#endif
while (R_BUS->SDRAM.SDSR)
{
/* According to h/w maual, need to confirm that all the status bits in SDSR are 0 before SDICR modification. */
}
/** Start SDRAM initialization sequence.
* Following operation is automatically done when set SDICR.INIRQ bit.
* Perform a PRECHARGE ALL command and wait at least tRP time.
* Issue an AUTO REFRESH command and wait at least tRFC time.
* Issue an AUTO REFRESH command and wait at least tRFC time.
*/
R_BUS->SDRAM.SDICR_b.INIRQ = 1U;
while (R_BUS->SDRAM.SDSR_b.INIST)
{
/* Wait the end of initialization sequence. */
}
/** Setting for SDRAM controller */
R_BUS->SDRAM.SDCCR_b.BSIZE = BSP_PRV_SDRAM_BUS_WIDTH; /* set SDRAM bus width */
R_BUS->SDRAM.SDAMOD_b.BE = BSP_PRV_SDRAM_CONTINUOUS_ACCESSMODE; /* enable continuous access */
R_BUS->SDRAM.SDCMOD_b.EMODE = BSP_PRV_SDRAM_ENDIAN_MODE; /* set endian mode for SDRAM address space */
while (R_BUS->SDRAM.SDSR)
{
/* According to h/w maual, need to confirm that all the status bits in SDSR are 0 before SDMOD modification. */
}
/** Using LMR command, program the mode register */
R_BUS->SDRAM.SDMOD = ((((uint16_t)(BSP_PRV_SDRAM_MR_WB_SINGLE_LOC_ACC << 9) |
(uint16_t)(BSP_PRV_SDRAM_MR_OP_MODE << 7)) |
(uint16_t)(BSP_PRV_SDRAM_CL << 4)) |
(uint16_t)(BSP_PRV_SDRAM_MR_BT_SEQUENCTIAL << 3)) |
(uint16_t)(BSP_PRV_SDRAM_MR_BURST_LENGTH << 0);
/** wait at least tMRD time */
while (R_BUS->SDRAM.SDSR_b.MRSST)
{
/* Wait until Mode Register setting done. */
}
/** Set timing parameters for SDRAM */
R_BUS->SDRAM.SDTR_b.RAS = BSP_PRV_SDRAM_TRAS - 1U; /* set ACTIVE-to-PRECHARGE command cycles*/
R_BUS->SDRAM.SDTR_b.RCD = BSP_PRV_SDRAM_TRCD - 1U; /* set ACTIVE to READ/WRITE delay cycles */
R_BUS->SDRAM.SDTR_b.RP = BSP_PRV_SDRAM_TRP - 1U; /* set PRECHARGE command period cycles */
R_BUS->SDRAM.SDTR_b.WR = BSP_PRV_SDRAM_TWR - 1U; /* set write recovery cycles */
R_BUS->SDRAM.SDTR_b.CL = BSP_PRV_SDRAM_CL; /* set SDRAM column latency cycles */
/** Set row address offset for target SDRAM */
R_BUS->SDRAM.SDADR_b.MXC = BSP_PRV_SDRAM_SDADR_ROW_ADDR_OFFSET - 8U;
R_BUS->SDRAM.SDRFCR_b.REFW = (uint16_t)(BSP_PRV_SDRAM_TRFC - 1U); /* set Auto-Refresh issuing cycle */
R_BUS->SDRAM.SDRFCR_b.RFC = BSP_PRV_SDRAM_REF_CMD_INTERVAL - 1U; /* set Auto-Refresh period */
/** Start Auto-refresh */
R_BUS->SDRAM.SDRFEN_b.RFEN = 1U;
/** Enable SDRAM access */
R_BUS->SDRAM.SDCCR_b.EXENB = 1U;
}
#ifdef BSP_USING_SDRAM
#ifdef RT_USING_MEMHEAP_AS_HEAP
struct rt_memheap system_heap;
#endif
static int SDRAM_Init(void)
{
drv_sdram_init();
LOG_D("sdram init success, mapped at 0x%X, size is %d bytes, data width is %d", 0x68000000, BSP_USING_SDRAM_SIZE, 16);
#ifdef RT_USING_MEMHEAP_AS_HEAP
/* If RT_USING_MEMHEAP_AS_HEAP is enabled, SDRAM is initialized to the heap */
rt_memheap_init(&system_heap, "sdram", (void *)0x68000000, BSP_USING_SDRAM_SIZE);
#endif
return RT_EOK;
}
INIT_BOARD_EXPORT(SDRAM_Init);
#endif