/**
*****************************************************************************
* @file cmem7_ddr.c
*
* @brief CMEM7 DDR source file
*
*
* @version V1.0
* @date 3. September 2013
*
* @note
*
*****************************************************************************
* @attention
*
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE
* TIME. AS A RESULT, CAPITAL-MICRO SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING
* FROM THE CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE
* CODING INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*
* © COPYRIGHT 2013 Capital-micro
*****************************************************************************
*/
#include "cmem7_ddr.h"
#define MAX(a, b) ((a >= b) ? (a) : (b))
#define CAL_DDR3_CL(cl) ((cl>11)?(((cl-12)<Chip_type<_16Mbx16)?(chip_info->Chip_type):(chip_info->Chip_type-_16Mbx16);
capacity=(chip_info->Chip_type<_16Mbx16)?(CHIP_MIN_CAPACITY*(1<Chip_num+1)):(CHIP_MIN_CAPACITY*(1<Bus_width+1)/(BUS_WIDTH_16+1));
return capacity;
}
uint32_t Calc_DDR_RFC(const MEM_CHIP_INFO *chip_info)
{
uint32_t capacity=0;
uint32_t tRFC=0;
assert_param(chip_info);
capacity=Get_DDR_Capacity(chip_info);
if (chip_info->mem_type==MEM_DDR2) {
switch(capacity){
case CHIP_CAPACITY_32MB:tRFC=75;break;
case CHIP_CAPACITY_64MB:tRFC=105;break;
case CHIP_CAPACITY_128MB:tRFC=128;break;
case CHIP_CAPACITY_256MB:tRFC=195;break;
case CHIP_CAPACITY_512MB:tRFC=328;break;
}
}
else{
switch(capacity){
case CHIP_CAPACITY_64MB:tRFC=90;break;
case CHIP_CAPACITY_128MB:tRFC=110;break;
case CHIP_CAPACITY_256MB:tRFC=160;break;
case CHIP_CAPACITY_512MB:tRFC=300;break;
case CHIP_CAPACITY_1024MB:tRFC=350;break;
}
}
return tRFC;
}
static void DDR_Cmd(const uint32_t cmd ,const uint32_t param)
{
DDRC->CMD =((cmd)|(param));
}
static void DDR_Latency(const uint32_t cycle )
{
DDR_Cmd(SW_CMD_NOP,cycle);
}
static void DDR2_conf(const MEM_CHIP_INFO *chip_info ,const void *ddr)
{
uint32_t period=0;
const DDR2MEM *ptr = (const DDR2MEM *)ddr;
uint32_t tRFC=0;
assert_param(ddr);
tRFC=Calc_DDR_RFC(chip_info);
period = (1000 / (SYSTEM_CLOCK_FREQ / 1000000));
CFG_CTRL->DONE_b.CMD = 0x1;
DDRC->MODE_b.LANE = 1;
DDRC->MODE_b.B16 = 1;
DDRC->REF_b.TIME =( DDR_TREF/period);
DDRC->RP_b.RPA = 1;
DDRC->RFC_b.DI = (tRFC/period);
DDRC->PHUNG_b.MODE = 1;
DDRC->RD_SEL_b.PHY_SEL = 5;
DDRC->DQSEN0_b.DL = 2;
DDRC->DQSEN1_b.DL = 2;
DDRC->DQSEN2_b.DL = 2;
DDRC->DQSEN3_b.DL = 2;
DDRC->INTCTL_b.DONE = 1;
DDRC->INTCTL_b.ERR = 0;
DDRC->RDQ_b.L3 = DDRC->RDQ_b.L2 = DDRC->RDQ_b.L1 = DDRC->RDQ_b.L0 = 0x32;
DDRC->ITMDLY_b.I0 = DDRC->ITMDLY_b.IS0 = DDRC->ITMDLY_b.I1 = DDRC->ITMDLY_b.IS1 =
DDRC->ITMDLY_b.I2 = DDRC->ITMDLY_b.IS2 = DDRC->ITMDLY_b.I3 = DDRC->ITMDLY_b.IS3 = 3;
DDR_Latency((POWER_UP_NOP/period));
DDR_Cmd(SW_CMD_NOPCKE,(PRE_ALL_NOP/period));
DDR_Cmd(SW_CMD_PREA,NULL);
DDR_Latency(ptr->tRP);/*tRP*/
DDR_Cmd(SW_CMD_EMR2,NULL);
DDR_Latency(DDR2_TMRD);
DDR_Cmd(SW_CMD_EMR3,NULL);
DDR_Latency(DDR2_TMRD);
DDR_Cmd(SW_CMD_DLL_EN,NULL);
DDR_Latency(DDR2_TMRD);
DDR_Cmd(SW_CMD_DLL_RST,NULL);
DDR_Latency(DDR2_TMRD);
DDR_Cmd(SW_CMD_PREA,NULL);
DDR_Latency(ptr->tRP);
DDR_Cmd(SW_CMD_REF,NULL);
DDR_Latency((tRFC/period));/*tRFC*/
DDR_Cmd(SW_CMD_REF,NULL);
DDR_Latency((tRFC/period));
DDR_Cmd(SW_CMD_MR,(((ptr->tWR-1)<tCL<MODE_b.LANE = 0x1;
DDRC->QUE_b.DEPTH=1;
DDRC->REF_b.TIME = (DDR_TREF / period);////// //2Gb periodic refresh interval 7.8us 7.8us/5ns
DDRC->REF_b.TRIG = 1;
DDRC->REF_b.THRD = 8;
DDRC->ZQCSR_b.EN = 1;
DDRC->ZQCSI = 128 * 1000000 / period;
DDRC->RP_b.RPA = 1;
DDRC->RFC_b.DI = (tRFC / period);
if (ptr->tCK == 2500) { // 200MHz
DDRC->RD_SEL_b.PHY_SEL = 5;
} else if (ptr->tCK == 3000) { // 333MHz
DDRC->RD_SEL_b.PHY_SEL = 6;
}
DDRC->PHUNG_b.MODE = 1;
DDRC->DQSEN0_b.DL = 2;
DDRC->DQSEN1_b.DL = 2;
DDRC->DQSEN2_b.DL = 2;
DDRC->DQSEN3_b.DL = 2;
// config MR#
DDR_Latency((POWER_UP_NOP/period));//200us nop
DDR_Cmd(SW_CMD_RSTH,NULL);// RESET H
DDR_Latency((RSTH_NOP/period));// 500us nop
DDR_Cmd(SW_CMD_NOPCKE,((tRFC+10)/period));// cke high 170/tck tck txpr max(5nck, trfc(min) + 10ns) 2Gb refresh time 160ns
DDR_Cmd(SW_CMD_EMR2,((ptr->tWCL-5)<tWR-1)<tCL))));
// MR0
// A1 , A0 2'b0 fixed 8
// A2 CL 0
// A3 nibble sequential 0 Interleave 1
// A6,A5,A4 CL 101 CL =9
// A7 normal mode 0
// A8 DLL reset 1
// A11,A10,A9 wr=(twr/ck)=(15/3)=5 =001
// A12 DLL control for precharge PD fast exit 1
// MR0 =0xb50
DDR_Latency(MAX(DDR3_TMOD_CK,(DDR3_TMOD/period)));// tmod max (12nck,15ns)
DDR_Cmd(SW_CMD_ZQCL,NULL);// ZQCL starting ZQ calibration
DDR_Latency(MAX(DDR3_TZQINIT_CK,(DDR3_TZQINIT/period))); // tdllk 512nck (should be 500nck)
DDR_Latency(DDR3_TDLLK_CK); // tZQinit max(512nck,640ns)
}
BOOL DDR_Init(const MEM_CHIP_INFO *chip_info, const void *ddr)
{
uint32_t tCL, tWR, tWCL, tWTR, tCK,mode;
assert_param(chip_info);
assert_param(ddr);
if((chip_info->Bus_widthChip_numChip_type< CHIP_TYPE_MAX))
{
if(chip_info->mem_type==MEM_DDR2)
{
mode=DDR2_MODE[chip_info->Bus_width][chip_info->Chip_num][chip_info->Chip_type];
}
else
{
mode=DDR3_MODE[chip_info->Bus_width][chip_info->Chip_num][chip_info->Chip_type];
}
if(mode==0xff)
{
return FALSE;
}
}
else
{
return FALSE;
}
PDPROT->LOCK_b.EN = 0;
do {
CFG_CTRL->PDLLSTR_b.C2R1D = 0; // rst dll_c2r1
udelay(10);
CFG_CTRL->PDLLSTR_b.C2R1D = 1; // releset rst
udelay(10);
} while ((PDLOCK->GCLK & 0x40) != 0x40);
PDPROT->LOCK_b.EN = 1;
DDRC->MODE_b.MODE = mode;
if (chip_info->mem_type==MEM_DDR2) {
const DDR2MEM *ptr = (const DDR2MEM *)ddr;
DDRC->RL_b.VAL = ptr->tCL;
DDRC->RCD_b.DI = ptr->tRCD;
DDRC->RP_b.DI = ptr->tRP;
DDRC->RC_b.DI = ptr->tRC;
DDRC->RAS_b.DI = ptr->tRAS;
tWR = ptr->tWR;
tWTR = ptr->tWTR;
DDRC->RRD_b.DI = ptr->tRRD;
DDRC->RTP_b.DI = ptr->tRTP;
DDRC->FAW_b.DI = ptr->tFAW;
DDR2_conf(chip_info,ptr);
} else {
const DDR3MEM *ptr = (const DDR3MEM *)ddr;
DDRC->RL_b.VAL = ptr->tCL;
tWCL = ptr->tWCL;
DDRC->RCD_b.DI = ptr->tRCD;
DDRC->RAS_b.DI = ptr->tRAS;
DDRC->RP_b.DI = ptr->tRP;
DDRC->RC_b.DI = ptr->tRC;
DDRC->RRD_b.DI = ptr->tRRD;
DDRC->FAW_b.DI = ptr->tFAW;
tWR = ptr->tWR;
tCK = ptr->tCK;
DDRC->RTP_b.DI = ptr->tRTP;
DDRC->ZQCL_b.DI = ptr->tZQoper;
DDRC->ZQCS_b.DI = ptr->tZQCS;
DDR3_conf(chip_info,ptr);
}
tCL = DDRC->RL_b.VAL;
DDRC->WTR_b.DI = (DDRC->MODE_b.MODE & 0x20) ?
(tWCL + tWTR + (DDRC->BURST_b.LEN ? 2 : 4)) :
((tCK * 4) > 7500) ? 18 : (tCK * 4 + 7500 - 1) / 7500; //4
DDRC->CCD_b.DI = (DDRC->MODE_b.MODE & 0x20) ? (DDRC->BURST_b.LEN ? 2 : 4) : 4;
DDRC->RTW_b.DI = (DDRC->MODE_b.MODE & 0x20) ? (DDRC->BURST_b.LEN ? 4 : 6) : (tCL + DDRC->CCD_b.DI - tWCL + (DDRC->BURST_b.LEN ? 0 : 2));
DDRC->WTP_b.DI = (DDRC->MODE_b.MODE & 0x20) ? (tCL + tWR + (DDRC->BURST_b.LEN ? 1 : 3)) : (tWCL + tWR + (DDRC->BURST_b.LEN ? 2 : 4));
DDRC->WL_b.VAL = (DDRC->MODE_b.MODE & 0x20) ? (MAX(tCL, 3) - 3) : (tWCL - 2);
DDRC->ODTH_b.DL = (DDRC->MODE_b.MODE & 0x20) ? (MAX(tCL, 4) - 4) : 0;
if (tCK == 2500) { // 200MHz
DDRC->ODTL_b.DL = (DDRC->MODE_b.MODE & 0x20) ? (DDRC->BURST_b.LEN ? (tCL - 1) : (tCL + 1)) : (DDRC->BURST_b.LEN ? 4 : 6);
} else if (tCK == 3000) { // 333MHz
DDRC->ODTL_b.DL = 0x1f;
}
// DEBUG INFO HERE
DDRC->CTRL_b.STR = 1;
while (0 == DDRC->STA_b.EMPTY);
while(0 == DDRC->INTRAW_b.DONE);
DDRC->CTRL_b.STR = DDRC->CTRL_b.TO = 0;
return TRUE;
}