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nuttx-bb/nuttx/configs/ea3131/src/up_mem.c

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/****************************************************************************
* configs/ea3131/src/up_mem.c
* arch/arm/src/board/up_mem.c
*
* Copyright (C) 2009-2010 Gregory Nutt. All rights reserved.
* Author: Gregory Nutt <spudmonkey@racsa.co.cr>
*
* References:
* - NXP UM10314 LPC3130/31 User manual Rev. 1.01 — 9 September 2009
* - NXP lpc313x.cdl.drivers.zip example driver code
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name NuttX nor the names of its contributors may be
* used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS 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.
*
****************************************************************************/
/****************************************************************************
* Included Files
****************************************************************************/
#include <nuttx/config.h>
#include <stdint.h>
#include <stdbool.h>
#include <debug.h>
#include <nuttx/arch.h>
#include <arch/board/board.h>
#include "chip.h"
#include "up_arch.h"
#include "lpc31_syscreg.h"
#include "lpc31_cgudrvr.h"
#include "lpc31_mpmc.h"
#include "ea3131_internal.h"
#ifdef CONFIG_LPC31XX_EXTSDRAM
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
/* The MPMC delay based on trace lengths between SDRAM and the chip and on
* the delay strategy used for SDRAM.
*/
#define EA3131_MPMC_DELAY 0x824
/*Delay constants in nanosecondss for MT48LC32M16LF SDRAM on board */
#define EA3131_SDRAM_TRP (20)
#define EA3131_SDRAM_TRFC (66)
#define EA3131_SDRAM_TRAS (44)
#define EA3131_SDRAM_TREX (75)
#define EA3131_SDRAM_TARP 4
#define EA3131_SDRAM_TWR (75)
#define EA3131_SDRAM_TRC (66)
#define EA3131_SDRAM_TRRD (15)
#define EA3131_SDRAM_TMRD (20)
#define EA3131_SDRAM_TXSR (75)
#define EA3131_SDRAM_TDAL (50)
#define EA3131_SDRAM_REFRESH (100)
#define EA3131_SDRAM_OPERREFRESH (7812)
/* Macro used to convert the above values (in nanoseconds) into units of
* the HCLK.
*/
#define NS2HCLKS(ns,hclk2,mask) \
((uint32_t)(((uint64_t)ns *(uint64_t)hclk2) / 1000000000ull) & mask)
/****************************************************************************
* Private Data
****************************************************************************/
/****************************************************************************
* Private Functions
****************************************************************************/
/****************************************************************************
* Name: lpc31_sdraminitialize
*
* Description:
* Configure SDRAM on the EA3131 board
*
* Micron Initialization Sequence from their data sheet for the Micron
* MT48LC32M16A2 32M x 16 SDRAM chip:
*
* "SDRAMs must be powered up and initialized in a predefined manner.
* Operational procedures other than those specified may result in
* undefined operation. Once power is applied to VDD and VDDQ
* (simultaneously) and the clock is stable (stable clock is defined as
* a signal cycling within timing constraints specified for the clock
* pin), the SDRAM requires a 100µs delay prior to issuing any command
* other than a COMMAND INHIBIT or NOP.
*
* "Starting at some point during this 100µs period and continuing at least
* through the end of this period, COMMAND INHIBIT or NOP commands should
* be applied. Once the 100µs delay has been satisfied with at least one
* COMMAND INHIBIT or NOP command having been applied, a PRECHARGE command
* should be applied. All banks must then be precharged, thereby placing
* the device in the all banks idle state.
*
* "Once in the idle state, two AUTO REFRESH cycles must be performed. After
* the AUTO REFRESH cycles are complete, the SDRAM is ready for mode
* register programming.
*
* "Because the mode register will power up in an unknown state, it should
* be loaded prior to applying any operational command."
*
* The JEDEC recommendation for initializing SDRAM is:
*
* APPLY POWER (Vdd/Vddq equally, and CLK is stable)
* Wait 200uS
* PRECHARGE all
* 8 AUTO REFRESH COMMANDS
* LOAD MODE REGISTER
* SDRAM is ready for operation
*
* The Micron SDRAM parts will work fine with the JEDEC sequence, but also
* allow for a quicker init sequence of:
*
* APPLY POWER (Vdd/Vddq equally, and CLK is stable)
* Wait at least 100uS (during which time start applying and
* continue applying NOP or COMMAND INHIBIT)
* PRECHARGE all
* 2 AUTO REFRESH COMMANDS (min requirement, more than 2 is also ok)
* LOAD MODE REGISTER
* SDRAM is ready for operation
*
****************************************************************************/
static void lpc31_sdraminitialize(void)
{
uint32_t tmp;
uint32_t regval;
/* These run-time calculations can be reduced dramatically if hclk is
* replaced with an apriori value.
*/
#ifdef CONFIG_LPC31XX_SDRAMHCLK
# define HCLK CONFIG_LPC31XX_SDRAMHCLK
#else
uint32_t hclk = lpc31_clkfreq(CLKID_MPMCCFGCLK2, DOMAINID_SYS);
# define HCLK hclk
#endif
/* Check RTL for divide by 2 possible. If so change then enable the followng logic */
#if 0
uint32_t hclk2 = hclk;
if (((getreg32(LPC31_MPMC_CONFIG) & MPMC_CONFIG_CLK)) != 0)
{
hclk2 >>= 1;
}
# define HCLK2 hclk2
#else
# define HCLK2 hclk
#endif
up_udelay(100);
/* Set command delay startergy */
putreg32(MPMC_DYNREADCONFIG_CMDDEL, LPC31_MPMC_DYNREADCONFIG);
/* Configure device config register nSDCE0 for proper width SDRAM */
putreg32((MPMC_DYNCONFIG0_MDSDRAM|MPMC_DYNCONFIG_HP16_32MX16),
LPC31_MPMC_DYNCONFIG0);
putreg32((MPMC_DYNRASCAS0_RAS2CLK|MPMC_DYNRASCAS0_CAS2CLK),
LPC31_MPMC_DYNRASCAS0);
/* Min 20ns program 1 so that at least 2 HCLKs are used */
putreg32(NS2HCLKS(EA3131_SDRAM_TRP, HCLK2, MPMC_DYNTRP_MASK),
LPC31_MPMC_DYNTRP);
putreg32(NS2HCLKS(EA3131_SDRAM_TRAS, HCLK2, MPMC_DYNTRAS_MASK),
LPC31_MPMC_DYNTRAS);
putreg32(NS2HCLKS(EA3131_SDRAM_TREX, HCLK2, MPMC_DYNTSREX_MASK),
LPC31_MPMC_DYNTSREX);
putreg32(EA3131_SDRAM_TARP,
LPC31_MPMC_DYNTAPR);
putreg32(NS2HCLKS(EA3131_SDRAM_TDAL, HCLK2, MPMC_DYNTDAL_MASK),
LPC31_MPMC_DYNTDAL);
putreg32(NS2HCLKS(EA3131_SDRAM_TWR, HCLK2, MPMC_DYNTWR_MASK),
LPC31_MPMC_DYNTWR);
putreg32(NS2HCLKS(EA3131_SDRAM_TRC, HCLK2, MPMC_DYNTRC_MASK),
LPC31_MPMC_DYNTRC);
putreg32(NS2HCLKS(EA3131_SDRAM_TRFC, HCLK2, MPMC_DYNTRFC_MASK),
LPC31_MPMC_DYNTRFC);
putreg32(NS2HCLKS(EA3131_SDRAM_TXSR, HCLK2, MPMC_DYNTXSR_MASK),
LPC31_MPMC_DYNTXSR);
putreg32(NS2HCLKS(EA3131_SDRAM_TRRD, HCLK2, MPMC_DYNTRRD_MASK),
LPC31_MPMC_DYNTRRD);
putreg32(NS2HCLKS(EA3131_SDRAM_TMRD, HCLK2, MPMC_DYNTMRD_MASK),
LPC31_MPMC_DYNTMRD);
up_udelay(100);
/* Issue continuous NOP commands */
putreg32((MPMC_DYNCONTROL_CE|MPMC_DYNCONTROL_CS|MPMC_DYNCONTROL_INOP),
LPC31_MPMC_DYNCONTROL);
/* Load ~200us delay value to timer1 */
up_udelay(200);
/* Issue a "pre-charge all" command */
putreg32((MPMC_DYNCONTROL_CE|MPMC_DYNCONTROL_CS|MPMC_DYNCONTROL_IPALL),
LPC31_MPMC_DYNCONTROL);
/* Minimum refresh pulse interval (tRFC) for MT48LC32M16A2=80nsec,
* 100nsec provides more than adequate interval.
*/
putreg32(NS2HCLKS(EA3131_SDRAM_REFRESH, HCLK, MPMC_DYNREFRESH_TIMER_MASK),
LPC31_MPMC_DYNREFRESH);
/* Load ~250us delay value to timer1 */
up_udelay(250);
/* Recommended refresh interval for normal operation of the Micron
* MT48LC16LFFG = 7.8125usec (128KHz rate). ((HCLK / 128000) - 1) =
* refresh counter interval rate, (subtract one for safety margin).
*/
putreg32(NS2HCLKS(EA3131_SDRAM_OPERREFRESH, HCLK, MPMC_DYNREFRESH_TIMER_MASK),
LPC31_MPMC_DYNREFRESH);
/* Select mode register update mode */
putreg32((MPMC_DYNCONTROL_CE|MPMC_DYNCONTROL_CS|MPMC_DYNCONTROL_IMODE),
LPC31_MPMC_DYNCONTROL);
/* Program the SDRAM internal mode registers on bank nSDCE0 and reconfigure
* the SDRAM chips. Bus speeds up to 90MHz requires use of a CAS latency = 2.
* To get correct value on address bus CAS cycle, requires a shift by 13 for
* 16bit mode
*/
tmp = getreg32(LPC31_EXTSDRAM0_VSECTION | (0x23 << 13));
putreg32((MPMC_DYNCONFIG0_MDSDRAM|MPMC_DYNCONFIG_HP16_32MX16),
LPC31_MPMC_DYNCONFIG0);
putreg32((MPMC_DYNRASCAS0_RAS2CLK|MPMC_DYNRASCAS0_CAS2CLK),
LPC31_MPMC_DYNRASCAS0);
/* Select normal operating mode */
putreg32((MPMC_DYNCONTROL_CE|MPMC_DYNCONTROL_CS|MPMC_DYNCONTROL_INORMAL),
LPC31_MPMC_DYNCONTROL);
/* Enable buffers */
regval = getreg32(LPC31_MPMC_DYNCONFIG0);
regval |= MPMC_DYNCONFIG0_B;
putreg32(regval, LPC31_MPMC_DYNCONFIG0);
putreg32((MPMC_DYNCONTROL_INORMAL|MPMC_DYNCONTROL_CS),
LPC31_MPMC_DYNCONTROL);
}
/****************************************************************************
* Public Functions
****************************************************************************/
/****************************************************************************
* Name: lpc31_meminitialize
*
* Description:
* Initialize external memory resources (sram, sdram, nand, nor, etc.)
*
****************************************************************************/
void lpc31_meminitialize(void)
{
/* Configure the LCD pins in external bus interface (EBI/MPMC) memory mode.
*
* LCD_CSB -> MPMC_NSTCS_0
* LCD_DB_1 -> MPMC_NSTCS_1
* LCD_DB_0 -> MPMC_CLKOUT
* LCD_E_RD -> MPMC_CKE
* LCD_RS -> MPMC_NDYCS
* LCD_RW_WR -> MPMC_DQM_1
* LCD_DB_2 -> EBI_A_2
* LCD_DB_3 -> EBI_A_3 l
* LCD_DB_4 -> EBI_A_4 l
* LCD_DB_5 -> EBI_A_5 l
* LCD_DB_6 -> EBI_A_6
* LCD_DB_7 -> EBI_A_7
* LCD_DB_8 -> EBI_A_8
* LCD_DB_9 -> EBI_A_9
* LCD_DB_10 -> EBI_A_10
* LCD_DB_11 -> EBI_A_11
* LCD_DB_12 -> EBI_A_12
* LCD_DB_13 -> EBI_A_13
* LCD_DB_14 -> EBI_A_14
* LCD_DB_15 -> EBI_A_15
*/
putreg32(SYSCREG_MUX_LCDEBISEL_EBIMPMC, LPC31_SYSCREG_MUX_LCDEBISEL);
/* Enable EBI clock */
lpc31_enableclock(CLKID_EBICLK);
/* Enable MPMC controller clocks */
lpc31_enableclock(CLKID_MPMCCFGCLK);
lpc31_enableclock(CLKID_MPMCCFGCLK2);
lpc31_enableclock(CLKID_MPMCCFGCLK3);
/* Enable the external memory controller */
putreg32(MPMC_CONTROL_E, LPC31_MPMC_CONTROL);
/* Force HCLK to MPMC_CLK to 1:1 ratio, little-endian mode */
putreg32(0, LPC31_MPMC_CONFIG);
/* Set MPMC delay based on trace lengths between SDRAM and the chip
* and on the delay strategy used for SDRAM.
*/
putreg32(EA3131_MPMC_DELAY, LPC31_SYSCREG_MPMC_DELAYMODES);
/* Configure Micron MT48LC32M16A2 SDRAM on the EA3131 board */
lpc31_sdraminitialize();
}
#endif /* CONFIG_LPC31XX_EXTSDRAM */
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