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|
/* SPDX-License-Identifier: BSD-3-Clause */
#include "dramc_common.h"
#include "dramc_dv_init.h"
#include "dramc_int_global.h"
#include "x_hal_io.h"
#include "sv_c_data_traffic.h"
#include "dramc_pi_api.h"
#if (FOR_DV_SIMULATION_USED == 0)
#include "dramc_top.h"
#endif
#include <emi.h>
DRAMC_CTX_T dram_ctx_chb;
#if (FOR_DV_SIMULATION_USED == 1)
U8 gu1BroadcastIsLP4 = TRUE;
#endif
bool gAndroid_DVFS_en = TRUE;
bool gUpdateHighestFreq = FALSE;
#define DV_SIMULATION_BYTEMODE 0
#define DV_SIMULATION_LP5_TRAINING_MODE1 1
#define DV_SIMULATION_LP5_CBT_PHASH_R 1
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
SAVE_TIME_FOR_CALIBRATION_T SavetimeData;
#endif
U8 gHQA_Test_Freq_Vcore_Level = 0;
u8 ett_fix_freq = 0xff;
DRAM_DFS_FREQUENCY_TABLE_T gFreqTbl[DRAM_DFS_SRAM_MAX] = {
{LP4_DDR3200 /*0*/, DIV8_MODE, SRAM_SHU1, DUTY_LAST_K, VREF_CALI_ON, CLOSE_LOOP_MODE},
{LP4_DDR4266 /*1*/, DIV8_MODE, SRAM_SHU0, DUTY_NEED_K, VREF_CALI_ON, CLOSE_LOOP_MODE},
#if ENABLE_DDR400_OPEN_LOOP_MODE_OPTION
{LP4_DDR400 /*2*/, DIV4_MODE, SRAM_SHU7, DUTY_DEFAULT, VREF_CALI_OFF, OPEN_LOOP_MODE},
#endif
{LP4_DDR800 /*2*/, DIV4_MODE, SRAM_SHU6, DUTY_DEFAULT, VREF_CALI_OFF, SEMI_OPEN_LOOP_MODE},
{LP4_DDR1866 /*3*/, DIV8_MODE, SRAM_SHU3, DUTY_LAST_K, VREF_CALI_OFF, CLOSE_LOOP_MODE},
{LP4_DDR1200 /*4*/, DIV8_MODE, SRAM_SHU5, DUTY_LAST_K, VREF_CALI_OFF, CLOSE_LOOP_MODE},
{LP4_DDR2400 /*5*/, DIV8_MODE, SRAM_SHU2, DUTY_NEED_K, VREF_CALI_ON, CLOSE_LOOP_MODE},
{LP4_DDR1600 /*6*/, DIV8_MODE, SRAM_SHU4, DUTY_DEFAULT, VREF_CALI_ON, CLOSE_LOOP_MODE},
};
DRAMC_CTX_T DramCtx_LPDDR4 =
{
CHANNEL_SINGLE,
CHANNEL_A,
RANK_DUAL,
RANK_0,
#ifdef MTK_FIXDDR1600_SUPPORT
LP4_DDR1600,
#else
#if __FLASH_TOOL_DA__
LP4_DDR1600,
#else
#if (DV_SIMULATION_LP4 == 1)
LP4_DDR1600,
#else
LP5_DDR3200,
#endif
#endif
#endif
#if DV_SIMULATION_LP4
TYPE_LPDDR4X,
#else
TYPE_LPDDR5,
#endif
FSP_0 ,
FSP_0 ,
ODT_OFF,
{CBT_NORMAL_MODE, CBT_NORMAL_MODE},
#if ENABLE_READ_DBI
{DBI_OFF,DBI_ON},
#else
{DBI_OFF,DBI_OFF},
#endif
#if ENABLE_WRITE_DBI
{DBI_OFF,DBI_ON},
#else
{DBI_OFF,DBI_OFF},
#endif
DATA_WIDTH_16BIT,
DEFAULT_TEST2_1_CAL,
DEFAULT_TEST2_2_CAL,
#if ENABLE_K_WITH_WORST_SI_UI_SHIFT
TEST_WORST_SI_PATTERN,
#else
TEST_XTALK_PATTERN,
#endif
#if (DV_SIMULATION_LP4 == 1)
800,
800,
#else
1600,
1600,
#endif
0x88,
REVISION_ID_MAGIC,
0xff,
{0,0},
270,
#if PRINT_CALIBRATION_SUMMARY
{{0,0,}},
{{0,0,}},
1,
0,
#endif
{0},
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
FALSE,
0,
0,
0,
&SavetimeData,
#endif
&gFreqTbl[DRAM_DFS_SRAM_MAX-1],
DRAM_DFS_REG_SHU0,
TRAINING_MODE2,
CBT_PHASE_RISING,
0,
PHYPLL_MODE,
DBI_OFF,
FSP_MAX,
PINMUX_EMCP,
{DISABLE,DISABLE},
0,
};
#if defined(DDR_INIT_TIME_PROFILING) || (__ETT__ && SUPPORT_SAVE_TIME_FOR_CALIBRATION)
DRAMC_CTX_T gTimeProfilingDramCtx;
U8 gtime_profiling_flag = 0;
#endif
void vSetVcoreByFreq(DRAMC_CTX_T *p)
{
#if (FOR_DV_SIMULATION_USED==0 && SW_CHANGE_FOR_SIMULATION==0)
#if __FLASH_TOOL_DA__
dramc_set_vcore_voltage(750000);
#else
unsigned int vio18, vcore, vdram, vddq, vmddr;
//int ret;
vio18 = vcore = vdram = vddq = vmddr = 0;
(void)vio18;
#if __ETT__
hqa_set_voltage_by_freq(p, &vio18, &vcore, &vdram, &vddq, &vmddr);
#elif defined(VCORE_BIN)
switch (vGet_Current_SRAMIdx(p)) {
case SRAM_SHU0:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU0);
if (!vcore)
#endif
vcore = get_vcore_uv_table(0);
break;
case SRAM_SHU1:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU1);
if (!vcore)
#endif
vcore = (get_vcore_uv_table(0) + get_vcore_uv_table(1)) >> 1;
break;
case SRAM_SHU2:
case SRAM_SHU3:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU2);
if (!vcore)
#endif
vcore = (get_vcore_uv_table(0) + get_vcore_uv_table(2)) >> 1;
break;
case SRAM_SHU4:
case SRAM_SHU5:
case SRAM_SHU6:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU4);
if (!vcore)
#endif
vcore = (get_vcore_uv_table(0) + get_vcore_uv_table(3)) >> 1;
break;
}
#else
switch (vGet_Current_SRAMIdx(p)) {
case SRAM_SHU0:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU0);
#else
vcore = SEL_PREFIX_VCORE(LP4, KSHU0);
#endif
break;
case SRAM_SHU1:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU1);
#else
vcore = SEL_PREFIX_VCORE(LP4, KSHU1);
#endif
break;
case SRAM_SHU2:
case SRAM_SHU3:
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU2);
#else
vcore = SEL_PREFIX_VCORE(LP4, KSHU2);
#endif
break;
case SRAM_SHU4:
case SRAM_SHU5:
case SRAM_SHU6:
#if ENABLE_DDR400_OPEN_LOOP_MODE_OPTION
case SRAM_SHU7:
#endif
#ifdef VOLTAGE_SEL
vcore = vcore_voltage_select(KSHU4);
#else
vcore = SEL_PREFIX_VCORE(LP4, KSHU4);
#endif
break;
default:
return;
}
#endif
if (CONFIG(MEDIATEK_DRAM_DVFS))
if (vcore)
dramc_set_vcore_voltage(vcore);
#if defined(DRAM_HQA)
if (vio18)
dramc_set_vio18_voltage(vio18);
if (vdram)
dramc_set_vmdd_voltage(p->dram_type, vdram);
if (vddq)
dramc_set_vmddq_voltage(p->dram_type, vddq);
if (vmddr)
dramc_set_vmddr_voltage(vmddr);
#endif
#ifdef FOR_HQA_REPORT_USED
switch (vGet_Current_SRAMIdx(p)) {
case SRAM_SHU0:
case SRAM_SHU1:
case SRAM_SHU2:
case SRAM_SHU3:
case SRAM_SHU4:
case SRAM_SHU5:
case SRAM_SHU6:
#if ENABLE_DDR400_OPEN_LOOP_MODE_OPTION
case SRAM_SHU7:
#endif
gHQA_Test_Freq_Vcore_Level = 0;
break;
default:
print("[HQA] undefined shuffle level for Vcore (SHU%d)\r\n", vGet_Current_SRAMIdx(p));
#if __ETT__
while(1);
#endif
break;
}
#endif
#ifndef DDR_INIT_TIME_PROFILING
print("Read voltage for %d, %d\n", p->frequency, vGet_Current_SRAMIdx(p));
print("Vcore = %d\n", dramc_get_vcore_voltage());
#ifdef FOR_HQA_REPORT_USED
print("Vdram = %d\n", dramc_get_vmdd_voltage(p->dram_type));
print("Vddq = %d\n", dramc_get_vmddq_voltage(p->dram_type));
print("Vmddr = %d\n", dramc_get_vmddr_voltage());
#endif
#endif
#endif
#endif
}
U32 vGetVoltage(DRAMC_CTX_T *p, U32 get_voltage_type)
{
#if (defined(DRAM_HQA) || defined(__ETT__)) && (FOR_DV_SIMULATION_USED == 0)
if (get_voltage_type==0)
return dramc_get_vcore_voltage();
if (get_voltage_type==1)
return dramc_get_vmdd_voltage(p->dram_type);
if (get_voltage_type==2)
return dramc_get_vmddq_voltage(p->dram_type);
if (get_voltage_type==3)
return dramc_get_vio18_voltage();
if (get_voltage_type==4)
return dramc_get_vmddr_voltage();
#endif
return 0;
}
#if RUNTIME_SHMOO_RELEATED_FUNCTION && SUPPORT_SAVE_TIME_FOR_CALIBRATION
#define RUNTIME_SHMOO_ON_GOING 0x00
#define RUNTIME_SHMOO_END 0xff
void RunTime_Shmoo_update_parameters(DRAMC_CTX_T *p)
{
U8 backup_channel, backup_rank;
U16 tx_pi_delay, tx_dqm_pi_delay;
S16 rx_first_delay=0x1fff, rx_first_delay_bit=0xff, rx_last_delay=-0x1fff, rx_last_delay_bit=0xff;
U8 u1BitIdx;
U32 u4value;
PASS_WIN_DATA_T FinalWinPerBit[DQ_DATA_WIDTH];
U8 ui_large_value, ui_small_value, pi_value;
U8 ui_dqm_large_value, ui_dqm_small_value, pi_dqm_value;
#if 0
U8 ui_oen_large_value, ui_oen_small_value, pi_oen_value;
U8 ui_dqm_oen_large_value, ui_dqm_oen_small_value, pi_dqm_oen_value;
#endif
U8 scan_invert_flag=0;
backup_channel = p->channel;
backup_rank = p->rank;
p->channel = RUNTIME_SHMOO_TEST_CHANNEL;
p->rank = RUNTIME_SHMOO_TEST_RANK;
#if RUNTIME_SHMOO_TX
if (RUNTIME_SHMOO_TEST_BYTE == 0)
{
tx_pi_delay = u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ0), SHURK_SELPH_DQ0_TXDLY_DQ0) * 256 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ2), SHURK_SELPH_DQ2_DLY_DQ0) * 32 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B0_DQ0), SHU_R0_B0_DQ0_SW_ARPI_DQ_B0);
tx_dqm_pi_delay = u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ1), SHURK_SELPH_DQ1_TXDLY_DQM0) * 256 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ3), SHURK_SELPH_DQ3_DLY_DQM0) * 32 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B0_DQ0), SHU_R0_B0_DQ0_SW_ARPI_DQM_B0);
}
else
{
tx_pi_delay = u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ0), SHURK_SELPH_DQ0_TXDLY_DQ1) * 256 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ2), SHURK_SELPH_DQ2_DLY_DQ1) * 32 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B1_DQ0), SHU_R0_B1_DQ0_SW_ARPI_DQ_B1);
tx_dqm_pi_delay = u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ1), SHURK_SELPH_DQ1_TXDLY_DQM1) * 256 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ3), SHURK_SELPH_DQ3_DLY_DQM1) * 32 +
u4IO32ReadFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B1_DQ0), SHU_R0_B1_DQ0_SW_ARPI_DQM_B1);
}
#endif
#if RUNTIME_SHMOO_RX
// vAutoRefreshSwitch(p, ENABLE);
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
FinalWinPerBit[u1BitIdx].first_pass=p->pSavetimeData->u1RxWinPerbitDQ_firsbypass_Save[p->channel][p->rank][u1BitIdx+RUNTIME_SHMOO_TEST_BYTE*8];
FinalWinPerBit[u1BitIdx].last_pass=p->pSavetimeData->u1RxWinPerbitDQ_lastbypass_Save[p->channel][p->rank][u1BitIdx+RUNTIME_SHMOO_TEST_BYTE*8];
}
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
if (FinalWinPerBit[u1BitIdx].first_pass < rx_first_delay)
{
rx_first_delay = FinalWinPerBit[u1BitIdx].first_pass;
rx_first_delay_bit = u1BitIdx;
}
if (FinalWinPerBit[u1BitIdx].last_pass > rx_last_delay)
{
rx_last_delay = FinalWinPerBit[u1BitIdx].last_pass;
rx_last_delay_bit = u1BitIdx;
}
}
#endif
#if __ETT__
mcSHOW_ERR_MSG(("fra dramc_get_rshmoo_pass_cnt = %x\n",dramc_get_rshmoo_pass_cnt()));
mcSHOW_ERR_MSG(("fra femmc_Ready = %d ==\n",p->femmc_Ready));
#else
print("fra dramc_get_rshmoo_pass_cnt = %x\n",dramc_get_rshmoo_pass_cnt());
print("fra femmc_Ready = %d ==\n",p->femmc_Ready);
#endif
if (p->femmc_Ready==0 ||
((p->pSavetimeData->Runtime_Shmoo_para.TX_Channel!=RUNTIME_SHMOO_TEST_CHANNEL) || (p->pSavetimeData->Runtime_Shmoo_para.TX_Rank!=RUNTIME_SHMOO_TEST_RANK) || (p->pSavetimeData->Runtime_Shmoo_para.TX_Byte!=RUNTIME_SHMOO_TEST_BYTE)))
{
#if RUNTIME_SHMOO_TX
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_ON_GOING;
p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction=0;
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay = tx_pi_delay-32+RUNTIME_SHMOO_TEST_PI_DELAY_START;
p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay;
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay = tx_dqm_pi_delay-32+RUNTIME_SHMOO_TEST_PI_DELAY_START;
p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay;
if (RUNTIME_SHMOO_TEST_VREF_START<51)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range = 0;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value = RUNTIME_SHMOO_TEST_VREF_START;
}
else
{
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range = 1;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value = RUNTIME_SHMOO_TEST_VREF_START-51+21;
}
p->pSavetimeData->Runtime_Shmoo_para.TX_Channel = RUNTIME_SHMOO_TEST_CHANNEL;
p->pSavetimeData->Runtime_Shmoo_para.TX_Rank = RUNTIME_SHMOO_TEST_RANK;
p->pSavetimeData->Runtime_Shmoo_para.TX_Byte = RUNTIME_SHMOO_TEST_BYTE;
#endif
#if RUNTIME_SHMOO_RX
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_ON_GOING;
p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction=0;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range = 0;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value = 0;
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] = FinalWinPerBit[u1BitIdx].first_pass- RUNTIME_SHMOO_RX_TEST_MARGIN;
}
p->pSavetimeData->Runtime_Shmoo_para.RX_Original_delay = p->pSavetimeData->Runtime_Shmoo_para.RX_delay[0];
p->pSavetimeData->Runtime_Shmoo_para.TX_Channel = RUNTIME_SHMOO_TEST_CHANNEL;
p->pSavetimeData->Runtime_Shmoo_para.TX_Rank = RUNTIME_SHMOO_TEST_RANK;
p->pSavetimeData->Runtime_Shmoo_para.TX_Byte = RUNTIME_SHMOO_TEST_BYTE;
#endif
}
else if ((dramc_get_rshmoo_step()) && (p->pSavetimeData->Runtime_Shmoo_para.flag != RUNTIME_SHMOO_END))
{
if (RUNTIME_SHMOO_FAST_K == 0)
{
p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction=0;
}
else
{
if (dramc_get_rshmoo_pass_cnt() > (RUNTIME_SHMOO_FAST_K-1))
{
if (p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction==0)
{
p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction=1;
}
else
{
p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction=0;
}
scan_invert_flag = 1;
}
}
if (scan_invert_flag == 0)
{
if (p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction==0)
{
#if RUNTIME_SHMOO_TX
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay += RUNTIME_SHMOO_TEST_PI_DELAY_STEP;
if (p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay > p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay+RUNTIME_SHMOO_TEST_PI_DELAY_END)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
if ((p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value+p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range*30) > RUNTIME_SHMOO_TEST_VREF_END)
{
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_END;
}
else
{
if (p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range==0)
{
if (p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value > 50)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range = 1;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value -= 30;
}
}
}
}
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay += RUNTIME_SHMOO_TEST_PI_DELAY_STEP;
if (p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay > p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay+RUNTIME_SHMOO_TEST_PI_DELAY_END)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay;
}
#endif
#if RUNTIME_SHMOO_RX
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] += RUNTIME_SHMOO_TEST_PI_DELAY_STEP;
}
if (p->pSavetimeData->Runtime_Shmoo_para.RX_delay[rx_last_delay_bit] > rx_last_delay+RUNTIME_SHMOO_RX_TEST_MARGIN)
{
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] = FinalWinPerBit[u1BitIdx].first_pass - RUNTIME_SHMOO_RX_TEST_MARGIN;
}
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
if ((p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value) > RUNTIME_SHMOO_RX_VREF_RANGE_END)
{
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_END;
}
}
#endif
}
else
{
#if RUNTIME_SHMOO_TX
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay -= RUNTIME_SHMOO_TEST_PI_DELAY_STEP;
if (p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay < p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay + (RUNTIME_SHMOO_TEST_PI_DELAY_END+1);
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
if ((p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value+p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range*30) > RUNTIME_SHMOO_TEST_VREF_END)
{
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_END;
}
else
{
if (p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range==0)
{
if (p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value > 50)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range = 1;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value -= 30;
}
}
}
}
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay -= RUNTIME_SHMOO_TEST_PI_DELAY_STEP;
if (p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay < p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay + (RUNTIME_SHMOO_TEST_PI_DELAY_END+1);
}
#endif
#if RUNTIME_SHMOO_RX
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] -= RUNTIME_SHMOO_TEST_PI_DELAY_STEP;
}
if (p->pSavetimeData->Runtime_Shmoo_para.RX_delay[rx_first_delay_bit] < rx_first_delay-RUNTIME_SHMOO_RX_TEST_MARGIN)
{
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] = FinalWinPerBit[u1BitIdx].last_pass + RUNTIME_SHMOO_RX_TEST_MARGIN;
}
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
if ((p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value) > RUNTIME_SHMOO_RX_VREF_RANGE_END)
{
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_END;
}
}
#endif
}
}
else
{
if (p->pSavetimeData->Runtime_Shmoo_para.Scan_Direction==0)
{
#if RUNTIME_SHMOO_TX
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
if ((p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value+p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range*30) > RUNTIME_SHMOO_TEST_VREF_END)
{
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_END;
}
else
{
if (p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range==0)
{
if (p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value > 50)
{
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range = 1;
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value -= 30;
}
}
}
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay;
#endif
#if RUNTIME_SHMOO_RX
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] = FinalWinPerBit[u1BitIdx].first_pass - RUNTIME_SHMOO_RX_TEST_MARGIN;
}
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
if ((p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value) > RUNTIME_SHMOO_RX_VREF_RANGE_END)
{
p->pSavetimeData->Runtime_Shmoo_para.flag= RUNTIME_SHMOO_END;
}
#endif
}
else
{
#if RUNTIME_SHMOO_TX
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay + (RUNTIME_SHMOO_TEST_PI_DELAY_END+1);
//p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value += RUNTIME_SHMOO_TEST_VREF_STEP;
p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay = p->pSavetimeData->Runtime_Shmoo_para.TX_Original_DQM_PI_delay + (RUNTIME_SHMOO_TEST_PI_DELAY_END+1);
#endif
#if RUNTIME_SHMOO_RX
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx++)
{
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx] = FinalWinPerBit[u1BitIdx].last_pass + RUNTIME_SHMOO_RX_TEST_MARGIN;
}
#endif
}
}
}
#if __ETT__
mcSHOW_ERR_MSG(("Fra RunTime Shmoo CH%d, Rank%d, Byte%d\n",RUNTIME_SHMOO_TEST_CHANNEL, RUNTIME_SHMOO_TEST_RANK, RUNTIME_SHMOO_TEST_BYTE ));
#else
print("Fra RunTime Shmoo CH%d, Rank%d, Byte%d\n",RUNTIME_SHMOO_TEST_CHANNEL, RUNTIME_SHMOO_TEST_RANK, RUNTIME_SHMOO_TEST_BYTE );
#endif
{
#if RUNTIME_SHMOO_TX
#if __ETT__
mcSHOW_ERR_MSG(("Fra RunTime Shmoo original K TX Vref = (%d, %d)\n", (u1MR14Value[RUNTIME_SHMOO_TEST_CHANNEL][RUNTIME_SHMOO_TEST_RANK][p->dram_fsp]>>6) & 1, u1MR14Value[RUNTIME_SHMOO_TEST_CHANNEL][RUNTIME_SHMOO_TEST_RANK][p->dram_fsp] & 0x3f));
mcSHOW_ERR_MSG(("Fra RunTime Shmoo original K TX Byte%d PI Delay = %d\n", RUNTIME_SHMOO_TEST_BYTE, p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay+32-RUNTIME_SHMOO_TEST_PI_DELAY_START));
mcSHOW_ERR_MSG(("Fra RunTime Shmoo TX Vref = (%d, %d)\n", p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value));
mcSHOW_ERR_MSG(("Fra RunTime Shmoo TX Byte%d PI Delay = %d\n", RUNTIME_SHMOO_TEST_BYTE, p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay-p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay));
#else
print("Fra RunTime Shmoo original K TX Vref = (%d, %d)\n", (u1MR14Value[RUNTIME_SHMOO_TEST_CHANNEL][RUNTIME_SHMOO_TEST_RANK][p->dram_fsp]>>6) & 1, u1MR14Value[RUNTIME_SHMOO_TEST_CHANNEL][RUNTIME_SHMOO_TEST_RANK][p->dram_fsp] & 0x3f);
print("Fra RunTime Shmoo original K TX Byte%d PI Delay = %d\n", RUNTIME_SHMOO_TEST_BYTE, p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay+32-RUNTIME_SHMOO_TEST_PI_DELAY_START);
print("Fra RunTime Shmoo TX Vref = (%d, %d)\n", p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value);
print("Fra RunTime Shmoo TX Byte%d PI Delay = %d\n", RUNTIME_SHMOO_TEST_BYTE, p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay-p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay);
#endif
#endif
#if RUNTIME_SHMOO_RX
mcSHOW_ERR_MSG(("Fra RunTime Shmoo K RX Vref = %d\n", p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value));
mcSHOW_ERR_MSG(("Fra RunTime Shmoo RX Byte%d Delay = %d\n", RUNTIME_SHMOO_TEST_BYTE, p->pSavetimeData->Runtime_Shmoo_para.RX_delay[0]));
#endif
#if RUNTIME_SHMOO_TX
TxWinTransferDelayToUIPI(p, TX_DQ_DQS_MOVE_DQ_DQM, p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay, 1, &ui_large_value, &ui_small_value, &pi_value);
TxWinTransferDelayToUIPI(p, TX_DQ_DQS_MOVE_DQ_DQM, p->pSavetimeData->Runtime_Shmoo_para.TX_DQM_PI_delay, 1, &ui_dqm_large_value, &ui_dqm_small_value, &pi_dqm_value);
if (RUNTIME_SHMOO_TEST_BYTE == 0)
{
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ0), ui_large_value, SHURK_SELPH_DQ0_TXDLY_DQ0);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ2), ui_small_value, SHURK_SELPH_DQ2_DLY_DQ0);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B0_DQ0), pi_value, SHU_R0_B0_DQ0_SW_ARPI_DQ_B0);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ1), ui_dqm_large_value, SHURK_SELPH_DQ1_TXDLY_DQM0);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ3), ui_dqm_small_value, SHURK_SELPH_DQ3_DLY_DQM0);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B0_DQ0), pi_dqm_value, SHU_R0_B0_DQ0_SW_ARPI_DQM_B0);
}
else
{
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ0), ui_large_value, SHURK_SELPH_DQ0_TXDLY_DQ1);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ2), ui_small_value, SHURK_SELPH_DQ2_DLY_DQ1);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B1_DQ0), pi_value, SHU_R0_B1_DQ0_SW_ARPI_DQ_B1);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ1), ui_dqm_large_value, SHURK_SELPH_DQ1_TXDLY_DQM1);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHURK_SELPH_DQ3), ui_dqm_small_value, SHURK_SELPH_DQ3_DLY_DQM1);
vIO32WriteFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B1_DQ0), pi_dqm_value, SHU_R0_B1_DQ0_SW_ARPI_DQM_B1);
}
DramcTXSetVref(p, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value);
#if 0
#if ENABLE_MCK8X_MODE
vIO32WriteFldAlign_All(DRAMC_REG_ADDR(DDRPHY_SHU_CA_DLL0), 0x0, SHU_CA_DLL0_RG_ARDLL_PHDET_EN_CA_SHU);
vIO32WriteFldAlign_All(DRAMC_REG_ADDR(DDRPHY_SHU_B0_DLL0), 0x0, SHU_B0_DLL0_RG_ARDLL_PHDET_EN_B0_SHU);
vIO32WriteFldAlign_All(DRAMC_REG_ADDR(DDRPHY_SHU_B1_DLL0), 0x0, SHU_B1_DLL0_RG_ARDLL_PHDET_EN_B1_SHU);
#else
vIO32WriteFldAlign_All(DRAMC_REG_ADDR(DDRPHY_CA_DLL_ARPI2), 0x0, CA_DLL_ARPI2_RG_ARDLL_PHDET_EN_CA);
vIO32WriteFldAlign_All(DRAMC_REG_ADDR(DDRPHY_B0_DLL_ARPI2), 0x0, B0_DLL_ARPI2_RG_ARDLL_PHDET_EN_B0);
vIO32WriteFldAlign_All(DRAMC_REG_ADDR(DDRPHY_B1_DLL_ARPI2), 0x0, B1_DLL_ARPI2_RG_ARDLL_PHDET_EN_B1);
#endif
#endif
vIO32WriteFldAlign_All(DDRPHY_REG_SHU_B0_DLL1, 0x0, SHU_B0_DLL1_RG_ARDLL_PHDET_EN_B0);
vIO32WriteFldAlign_All(DDRPHY_REG_SHU_B1_DLL1, 0x0, SHU_B1_DLL1_RG_ARDLL_PHDET_EN_B1);
vIO32WriteFldAlign_All(DDRPHY_REG_SHU_CA_DLL1, 0x0, SHU_CA_DLL1_RG_ARDLL_PHDET_EN_CA);
#endif
#if RUNTIME_SHMOO_RX
if (p->pSavetimeData->Runtime_Shmoo_para.RX_delay[0] <=0)
{
#if 0
vIO32WriteFldMulti(DRAMC_REG_ADDR(DDRPHY_SHU1_R0_B0_DQ6 + 0x50*RUNTIME_SHMOO_TEST_BYTE), \
P_Fld((-p->pSavetimeData->Runtime_Shmoo_para.RX_delay[0]),SHU1_R0_B0_DQ6_RK0_RX_ARDQS0_R_DLY_B0) |P_Fld((-p->pSavetimeData->Runtime_Shmoo_para.RX_delay[0]),SHU1_R0_B0_DQ6_RK0_RX_ARDQS0_F_DLY_B0));
vIO32WriteFldMulti(DRAMC_REG_ADDR(DDRPHY_SHU1_R0_B0_DQ6 + 0x50*RUNTIME_SHMOO_TEST_BYTE), \
P_Fld(0,SHU1_R0_B0_DQ6_RK0_RX_ARDQM0_R_DLY_B0) |P_Fld(0,SHU1_R0_B0_DQ6_RK0_RX_ARDQM0_F_DLY_B0));
DramPhyReset(p);
#endif
for (u1BitIdx=0; u1BitIdx<4; u1BitIdx++)
{
vIO32Write4B(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B0_RXDLY0 + DDRPHY_AO_B0_B1_OFFSET*RUNTIME_SHMOO_TEST_BYTE + u1BitIdx*4), 0);
}
}
else
{
#if 0
vIO32WriteFldMulti(DRAMC_REG_ADDR(DDRPHY_SHU1_R0_B0_DQ6 + 0x50*RUNTIME_SHMOO_TEST_BYTE), \
P_Fld(0,SHU1_R0_B0_DQ6_RK0_RX_ARDQS0_R_DLY_B0) |P_Fld(0,SHU1_R0_B0_DQ6_RK0_RX_ARDQS0_F_DLY_B0));
vIO32WriteFldMulti(DRAMC_REG_ADDR(DDRPHY_SHU1_R0_B0_DQ6 + 0x50*RUNTIME_SHMOO_TEST_BYTE), \
P_Fld(p->pSavetimeData->Runtime_Shmoo_para.RX_delay,SHU1_R0_B0_DQ6_RK0_RX_ARDQM0_R_DLY_B0) |P_Fld(p->pSavetimeData->Runtime_Shmoo_para.RX_delay,SHU1_R0_B0_DQ6_RK0_RX_ARDQM0_F_DLY_B0));
DramPhyReset(p);
#endif
for (u1BitIdx=0; u1BitIdx<8; u1BitIdx+=2)
{
vIO32WriteFldMulti(DRAMC_REG_ADDR(DDRPHY_REG_SHU_R0_B0_RXDLY0+ (DDRPHY_AO_B0_B1_OFFSET*RUNTIME_SHMOO_TEST_BYTE) +u1BitIdx*2), \
P_Fld(((U32)p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx]),SHU_R0_B0_RXDLY0_RX_ARDQ0_R_DLY_B0) |\
P_Fld(((U32)p->pSavetimeData->Runtime_Shmoo_para.RX_delay[u1BitIdx+1]),SHU_R0_B0_RXDLY0_RX_ARDQ1_R_DLY_B0));
}
}
vIO32WriteFldAlign(DRAMC_REG_ADDR(DDRPHY_REG_SHU_B1_DQ5 + DDRPHY_AO_B0_B1_OFFSET*RUNTIME_SHMOO_TEST_BYTE), p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value, SHU_B0_DQ5_RG_RX_ARDQ_VREF_SEL_B0);
#endif
}
#if EMMC_READY
write_offline_dram_calibration_data(vGet_Current_SRAMIdx(p), p->pSavetimeData);
#endif
mcSHOW_ERR_MSG(("Fra Save calibration result to emmc\n"));
#if RUNTIME_SHMOO_TX
dramc_set_rshmoo_info(p->pSavetimeData->Runtime_Shmoo_para.TX_Rank, p->pSavetimeData->Runtime_Shmoo_para.TX_Channel,
p->pSavetimeData->Runtime_Shmoo_para.TX_Byte, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value,
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay-p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay, 1, (p->pSavetimeData->Runtime_Shmoo_para.flag == RUNTIME_SHMOO_END) ? 1 : 0);
#endif
#if RUNTIME_SHMOO_RX
dramc_set_rshmoo_info(p->pSavetimeData->Runtime_Shmoo_para.TX_Rank, p->pSavetimeData->Runtime_Shmoo_para.TX_Channel,
p->pSavetimeData->Runtime_Shmoo_para.TX_Byte, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range, p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value,
p->pSavetimeData->Runtime_Shmoo_para.RX_delay[0], 1, (p->pSavetimeData->Runtime_Shmoo_para.flag == RUNTIME_SHMOO_END) ? 1 : 0);
// vAutoRefreshSwitch(p, DISABLE);
#endif
p->channel = backup_channel;
p->rank = backup_rank;
}
#endif
#ifdef FIRST_BRING_UP
void Test_Broadcast_Feature(DRAMC_CTX_T *p)
{
U32 u4RegBackupAddress[] =
{
(DRAMC_REG_SHURK_SELPH_DQ2),
(DRAMC_REG_SHURK_SELPH_DQ2 + SHIFT_TO_CHB_ADDR),
(DDRPHY_REG_SHU_RK_B0_DQ0),
(DDRPHY_REG_SHU_RK_B0_DQ0 + SHIFT_TO_CHB_ADDR),
};
U32 read_value;
U32 backup_broadcast;
backup_broadcast = GetDramcBroadcast();
DramcBroadcastOnOff(DRAMC_BROADCAST_OFF);
DramcBackupRegisters(p, u4RegBackupAddress, sizeof(u4RegBackupAddress) / sizeof(U32));
DramcBroadcastOnOff(DRAMC_BROADCAST_ON);
vIO32Write4B(DRAMC_REG_SHURK_SELPH_DQ2, 0xA55A00FF);
vIO32Write4B(DDRPHY_REG_SHU_RK_B0_DQ0, 0xA55A00FF);
read_value = u4IO32Read4B(DRAMC_REG_SHURK_SELPH_DQ2 + SHIFT_TO_CHB_ADDR);
if (read_value != 0xA55A00FF)
{
mcSHOW_ERR_MSG(("Check Erro! Broad Cast CHA RG to CHB Fail!!\n"));
while (1);
}
read_value = u4IO32Read4B(DDRPHY_REG_SHU_RK_B0_DQ0 + SHIFT_TO_CHB_ADDR);
if (read_value != 0xA55A00FF)
{
mcSHOW_ERR_MSG(("Check Erro! Broad Cast CHA RG to CHB Fail!!\n"));
while (1);
}
DramcBroadcastOnOff(DRAMC_BROADCAST_OFF);
DramcRestoreRegisters(p, u4RegBackupAddress, sizeof(u4RegBackupAddress) / sizeof(U32));
DramcBroadcastOnOff(backup_broadcast);
}
#endif
#if __ETT__
void ett_set_emi_rank1_address(void)
{
static unsigned int remap_rank1_done = 0;
if (!remap_rank1_done)
{
#ifndef MT6880_FPGA
set_emi_before_rank1_mem_test();
#endif
remap_rank1_done = 1;
}
}
#endif
static void mem_test_address_calculation(DRAMC_CTX_T * p, U32 uiSrcAddr, U32*pu4Dest)
{
#if __ETT__
ett_set_emi_rank1_address();
*pu4Dest = uiSrcAddr - RANK0_START_VA + RANK1_START_VA;
#else
*pu4Dest = uiSrcAddr + p->ranksize[RANK_0];
#endif
}
#if CPU_RW_TEST_AFTER_K
static void vDramCPUReadWriteTestAfterCalibration(DRAMC_CTX_T *p)
{
U8 u1DumpInfo=0, u1RankIdx;
U32 uiLen, uiRankdAddr[RANK_MAX];
U32 pass_count, err_count;
U64 count, uiFixedAddr; //[FOR_CHROMEOS] Change type from U32 to U64
uiLen = 0xffff;
#if GATING_ONLY_FOR_DEBUG
DramcGatingDebugInit(p);
#endif
uiRankdAddr[0] = DDR_BASE;
mem_test_address_calculation(p, DDR_BASE, &uiRankdAddr[1]);
for(u1RankIdx =0; u1RankIdx< p->support_rank_num; u1RankIdx++)
{
u1DumpInfo=0;
err_count=0;
pass_count=0;
#if !__ETT__
if (u1RankIdx >= 1)
continue;
#endif
#if GATING_ONLY_FOR_DEBUG
DramcGatingDebugRankSel(p, u1RankIdx);
#endif
uiFixedAddr = uiRankdAddr[u1RankIdx];
for (count= 0; count<uiLen; count+=4)
{
*(volatile unsigned int *)(count +uiFixedAddr) = count + (0x5a5a <<16);
}
for (count=0; count<uiLen; count+=4)
{
if (*(volatile unsigned int *)(count +uiFixedAddr) != count + (0x5a5a <<16))
{
//mcSHOW_DBG_MSG(("[Fail] Addr %xh = %xh\n",count, *(volatile unsigned int *)(count)));
err_count++;
}
else
pass_count ++;
}
#if RUNTIME_SHMOO_RELEATED_FUNCTION && SUPPORT_SAVE_TIME_FOR_CALIBRATION
if (err_count==0)
{
#if __ETT__
mcSHOW_ERR_MSG(("CH %c,RANK %d,BYTE %d,VRANGE %d,VREF %d,PI %d,MEM_RESULT PASS\n",
p->pSavetimeData->Runtime_Shmoo_para.TX_Channel == 0 ? 'A' : 'B',
p->pSavetimeData->Runtime_Shmoo_para.TX_Rank,
p->pSavetimeData->Runtime_Shmoo_para.TX_Byte,
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range,
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value,
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay-p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay));
#else
print("CH %c,RANK %d,BYTE %d,VRANGE %d,VREF %d,PI %d,MEM_RESULT PASS\n",
p->pSavetimeData->Runtime_Shmoo_para.TX_Channel == 0 ? 'A' : 'B',
p->pSavetimeData->Runtime_Shmoo_para.TX_Rank,
p->pSavetimeData->Runtime_Shmoo_para.TX_Byte,
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Range,
p->pSavetimeData->Runtime_Shmoo_para.TX_Vref_Value,
p->pSavetimeData->Runtime_Shmoo_para.TX_PI_delay-p->pSavetimeData->Runtime_Shmoo_para.TX_Original_PI_delay);
#endif
}
#else
if(err_count)
{
mcSHOW_DBG_MSG2(("[MEM_TEST] Rank %d Fail.", u1RankIdx));
u1DumpInfo =1;
#if defined(SLT)
mcSHOW_ERR_MSG(("\n[EMI] EMI_FATAL_ERR_FLAG = 0x00000001, line: %d\n",__LINE__));
while(1);
#endif
}
else
{
mcSHOW_DBG_MSG2(("[MEM_TEST] Rank %d OK.", u1RankIdx));
}
mcSHOW_DBG_MSG2(("(uiFixedAddr 0x%llX, Pass count =%d, Fail count =%d)\n", uiFixedAddr, pass_count, err_count)); //[FOR_CHROMEOS]
#endif
}
if(u1DumpInfo)
{
#if (FOR_DV_SIMULATION_USED==0 && SW_CHANGE_FOR_SIMULATION==0)
DramcDumpDebugInfo(p);
#endif
}
#if GATING_ONLY_FOR_DEBUG
DramcGatingDebugExit(p);
#endif
}
#endif
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
#if !EMMC_READY
u32 g_dram_save_time_init_done[DRAM_DFS_SRAM_MAX] = {0};
SAVE_TIME_FOR_CALIBRATION_T SaveTimeDataByShuffle[DRAM_DFS_SRAM_MAX];
#endif
static DRAM_STATUS_T DramcSave_Time_For_Cal_End(DRAMC_CTX_T *p)
{
if (!u1IsLP4Family(p->dram_type))
return DRAM_FAIL;
if (p->femmc_Ready == 0)
{
#if EMMC_READY
write_offline_dram_calibration_data(vGet_Current_SRAMIdx(p), p->pSavetimeData);
mcSHOW_DBG_MSG(("[FAST_K] Save calibration result to emmc\n"));
#else
g_dram_save_time_init_done[vGet_Current_SRAMIdx(p)] = 1;
memcpy(&(SaveTimeDataByShuffle[vGet_Current_SRAMIdx(p)]), p->pSavetimeData, sizeof(SAVE_TIME_FOR_CALIBRATION_T));
mcSHOW_DBG_MSG(("[FAST_K] Save calibration result to SW memory\n"));
#endif
}
else
{
mcSHOW_DBG_MSG(("[FAST_K] Bypass saving calibration result to emmc\n"));
}
return DRAM_OK;
}
static DRAM_STATUS_T DramcSave_Time_For_Cal_Init(DRAMC_CTX_T *p)
{
if (!u1IsLP4Family(p->dram_type))
return DRAM_FAIL;
if (doe_get_config("fullk"))
return DRAM_FAIL;
#if EMMC_READY
if (read_offline_dram_calibration_data(vGet_Current_SRAMIdx(p), p->pSavetimeData) < 0)
{
p->femmc_Ready = 0;
memset(p->pSavetimeData, 0, sizeof(SAVE_TIME_FOR_CALIBRATION_T));
}
else
{
p->femmc_Ready = 1;
}
#else
if (g_dram_save_time_init_done[vGet_Current_SRAMIdx(p)] == 0)
{
p->femmc_Ready = 0;
memset(p->pSavetimeData, 0, sizeof(SAVE_TIME_FOR_CALIBRATION_T));
}
else
{
memcpy(p->pSavetimeData, &(SaveTimeDataByShuffle[vGet_Current_SRAMIdx(p)]), sizeof(SAVE_TIME_FOR_CALIBRATION_T));
p->femmc_Ready = 1;
}
#endif
if (p->femmc_Ready == 1)
{
if (p->frequency < 1600)
{
p->Bypass_RDDQC = 1;
p->Bypass_RXWINDOW = 1;
p->Bypass_TXWINDOW = 1;
}
else
{
p->Bypass_RDDQC = 1;
p->Bypass_RXWINDOW = !ENABLE_RX_TRACKING;
p->Bypass_TXWINDOW = 0;
}
#if RUNTIME_SHMOO_RELEATED_FUNCTION
p->Bypass_RDDQC = 1;
p->Bypass_RXWINDOW = 1;
p->Bypass_TXWINDOW = 1;
#endif
}
#if EMMC_READY
mcSHOW_DBG_MSG(("[FAST_K] DramcSave_Time_For_Cal_Init SRAM_SHU%d, femmc_Ready=%d\n", vGet_Current_SRAMIdx(p), p->femmc_Ready));
#else
mcSHOW_DBG_MSG(("[FAST_K] DramcSave_Time_For_Cal_Init SRAM_SHU%d, Init_done=%d, femmc_Ready=%d\n", vGet_Current_SRAMIdx(p), g_dram_save_time_init_done[vGet_Current_SRAMIdx(p)], p->femmc_Ready));
#endif
mcSHOW_DBG_MSG(("[FAST_K] Bypass_RDDQC %d, Bypass_RXWINDOW=%d, Bypass_TXWINDOW=%d\n", p->Bypass_RDDQC, p->Bypass_RXWINDOW, p->Bypass_TXWINDOW));
return DRAM_OK;
}
#endif
#if ENABLE_RANK_NUMBER_AUTO_DETECTION
static void DramRankNumberDetection(DRAMC_CTX_T *p)
{
U8 u1RankBak;
u1RankBak = u1GetRank(p);
vSetPHY2ChannelMapping(p, CHANNEL_A);
vSetRank(p, RANK_1);
if (DramcWriteLeveling(p, AUTOK_ON, PI_BASED) == DRAM_OK)
{
p->support_rank_num = RANK_DUAL;
vIO32WriteFldAlign(DRAMC_REG_SA_RESERVE, 0, SA_RESERVE_SINGLE_RANK);
}
else
{
p->support_rank_num = RANK_SINGLE;
vIO32WriteFldAlign(DRAMC_REG_SA_RESERVE, 1, SA_RESERVE_SINGLE_RANK);
}
mcSHOW_DBG_MSG2(("[RankNumberDetection] %d\n", p->support_rank_num));
vSetRank(p, u1RankBak);
}
#endif
#if (FOR_DV_SIMULATION_USED == 0)
static void UpdateGlobal10GBEnVariables(DRAMC_CTX_T *p)
{
p->u110GBEn[RANK_0] = (get_row_width_by_emi(RANK_0) >= 18) ? ENABLE : DISABLE;
p->u110GBEn[RANK_1] = (get_row_width_by_emi(RANK_1) >= 18) ? ENABLE : DISABLE;
//mcSHOW_DBG_MSG(("[10GBEn] RANK0=%d, RANK1=%d\n", p->u110GBEn[RANK_0], p->u110GBEn[RANK_1]));
}
#endif
void vCalibration_Flow_For_MDL(DRAMC_CTX_T *p)
{
U8 u1RankMax;
S8 s1RankIdx;
#if GATING_ADJUST_TXDLY_FOR_TRACKING
DramcRxdqsGatingPreProcess(p);
#endif
if (p->support_rank_num == RANK_DUAL)
u1RankMax = RANK_MAX;
else
u1RankMax = RANK_1;
for (s1RankIdx = RANK_0; s1RankIdx < u1RankMax; s1RankIdx++)
{
vSetRank(p, s1RankIdx);
vAutoRefreshSwitch(p, ENABLE);
dramc_rx_dqs_gating_cal(p, AUTOK_OFF, 0);
DramcRxWindowPerbitCal(p, PATTERN_RDDQC, NULL, AUTOK_OFF, NORMAL_K);
#if MRW_CHECK_ONLY
mcSHOW_MRW_MSG(("\n==[MR Dump] %s==\n", __func__));
#endif
vAutoRefreshSwitch(p, DISABLE);
}
vSetRank(p, RANK_0);
#if GATING_ADJUST_TXDLY_FOR_TRACKING
DramcRxdqsGatingPostProcess(p);
#endif
}
static int GetDramInforAfterCalByMRR(DRAMC_CTX_T *p, DRAM_INFO_BY_MRR_T *DramInfo)
{
U8 u1RankIdx, u1DieNumber = 0; //u1ChannelIdx, u1RankMax,
U16 u2Density;
U16 u2MR7;
U16 u2MR8 = 0;
U64 u8Size = 0, u8Size_backup = 0;
//U64 u8ChannelSize;
//U32 u4ChannelNumber = 1, u4RankNumber = 1;
if (p->revision_id != REVISION_ID_MAGIC)
return 0;
vSetPHY2ChannelMapping(p, CHANNEL_A);
DramcModeRegReadByRank(p, RANK_0, 5, &(p->vendor_id));
p->vendor_id &= 0xFF;
mcSHOW_DBG_MSG2(("[GetDramInforAfterCalByMRR] Vendor %x.\n", p->vendor_id));
DramcModeRegReadByRank(p, RANK_0, 6, &(p->revision_id));
mcSHOW_DBG_MSG2(("[GetDramInforAfterCalByMRR] Revision %x.\n", p->revision_id));
DramcModeRegReadByRank(p, RANK_0, 7, &u2MR7);
mcSHOW_DBG_MSG2(("[GetDramInforAfterCalByMRR] Revision 2 %x.\n", u2MR7));
#if (!__ETT__) && (FOR_DV_SIMULATION_USED==0)
set_dram_mr(5, p->vendor_id);
set_dram_mr(6, p->revision_id);
set_dram_mr(7, u2MR7);
#endif
if (DramInfo != NULL)
{
DramInfo->u2MR5VendorID = p->vendor_id;
DramInfo->u2MR6RevisionID = p->revision_id;
for(u1RankIdx =0; u1RankIdx<RANK_MAX; u1RankIdx++)
DramInfo->u8MR8Density[u1RankIdx] =0;
}
for (u1RankIdx = 0; u1RankIdx < (p->support_rank_num); u1RankIdx++)
{
#if 0
if ((p->aru4CalExecuteFlag[u1ChannelIdx][u1RankIdx] != 0) && \
(p->aru4CalResultFlag[u1ChannelIdx][u1RankIdx] == 0))
#endif
{
DramcModeRegReadByRank(p, u1RankIdx, 0, &(gu2MR0_Value[u1RankIdx]));
mcSHOW_DBG_MSG2(("MR0 0x%x\n", gu2MR0_Value[u1RankIdx]));
DramcModeRegReadByRank(p, u1RankIdx, 8, &u2Density);
mcSHOW_DBG_MSG2(("MR8 0x%x\n", u2Density));
u2MR8 |= (u2Density & 0xFF) << (u1RankIdx * 8);
u1DieNumber = 1;
if (((u2Density >> 6) & 0x3) == 1)
u1DieNumber = 2;
if (DramInfo != NULL)
DramInfo->u1DieNum[u1RankIdx] = u1DieNumber;
u2Density = (u2Density >> 2) & 0xf;
switch (u2Density)
{
case 0x0:
u8Size = 0x20000000;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 4Gb\n"));
break;
case 0x1:
u8Size = 0x30000000;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 6Gb\n"));
break;
case 0x2:
u8Size = 0x40000000;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 8Gb\n"));
break;
case 0x3:
u8Size = 0x60000000;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 12Gb\n"));
break;
case 0x4:
u8Size = 0x80000000;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 16Gb\n"));
break;
case 0x5:
u8Size = 0xc0000000;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 24Gb\n"));
break;
case 0x6:
u8Size = 0x100000000L;
//mcSHOW_DBG_MSG(("[EMI]DRAM density = 32Gb\n"));
break;
default:
u8Size = 0; //reserved
}
#if (fcFOR_CHIP_ID == fc8195)
if (p->support_channel_num == CHANNEL_SINGLE)
u8Size >>= 1;
#endif
if (u8Size_backup < u8Size)
{
u8Size_backup = u8Size;
p->density = u2Density;
}
p->ranksize[u1RankIdx] = u8Size * u1DieNumber;
if (DramInfo != NULL)
{
DramInfo->u8MR8Density[u1RankIdx] = p->ranksize[u1RankIdx];
}
}
DramInfo->u4RankNum = p->support_rank_num;
mcSHOW_DBG_MSG2(("RK%d, DieNum %d, Density %dGb, RKsize %dGb.\n\n", u1RankIdx, u1DieNumber, (U32)(u8Size >> 27), (U32)(p->ranksize[u1RankIdx] >> 27)));
}
#if (!__ETT__) && (FOR_DV_SIMULATION_USED==0)
set_dram_mr(8, u2MR8);
#endif
return 0;
}
static void vCalibration_Flow_LP4(DRAMC_CTX_T *p)
{
U8 u1RankMax;
S8 s1RankIdx;
//DRAM_STATUS_T VrefStatus;
#ifdef DDR_INIT_TIME_PROFILING
U32 CPU_Cycle;
TimeProfileBegin();
#endif
#if 0
if((p->frequency >= 2133) && (p->rank == RANK_0))
//if (p->rank == RANK_0)
DramcRXInputBufferOffsetCal(p);
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRX input cal takes %d us\n", CPU_Cycle));
TimeProfileBegin();
#endif
#endif
#if GATING_ADJUST_TXDLY_FOR_TRACKING
DramcRxdqsGatingPreProcess(p);
#endif
if (p->support_rank_num==RANK_DUAL)
u1RankMax = RANK_MAX;
else
u1RankMax = RANK_1;
//vAutoRefreshSwitch(p, DISABLE);
vAutoRefreshSwitch(p, DISABLE);
#if 1
for(s1RankIdx=RANK_0; s1RankIdx<u1RankMax; s1RankIdx++)
{
vSetRank(p, s1RankIdx);
#if PINMUX_AUTO_TEST_PER_BIT_CA
CheckCAPinMux(p);
#endif
CmdBusTrainingLP45(p, AUTOK_OFF, NORMAL_K);
#if ENABLE_EYESCAN_GRAPH
if (GetEyeScanEnable(p, EYESCAN_TYPE_CBT) == ENABLE)
{
CmdBusTrainingLP45(p, AUTOK_OFF, EYESCAN_K);
print_EYESCAN_LOG_message(p, EYESCAN_TYPE_CBT);
}
#endif
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d CBT takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
}
vSetRank(p, RANK_0);
#if __Petrus_TO_BE_PORTING__
No_Parking_On_CLRPLL(p);
#endif
ShuffleDfsToOriginalFSP(p);
#endif
#if 0
for(s1RankIdx=RANK_0; s1RankIdx<u1RankMax; s1RankIdx++)
{
vSetRank(p, s1RankIdx);
vAutoRefreshSwitch(p, DISABLE);
#if (!WCK_LEVELING_FM_WORKAROUND)
if (u1IsLP4Family(p->dram_type))
#endif
{
if (!(u1IsLP4Div4DDR800(p) && (p->rank == RANK_1)))
{
mcSHOW_DBG_MSG(("\n----->DramcWriteLeveling(PI) begin...\n"));
DramcWriteLeveling(p, AUTOK_OFF, PI_BASED);
mcSHOW_DBG_MSG(("DramcWriteLeveling(PI) end<-----\n\n"));
}
}
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d Write leveling takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
}
vSetRank(p, RANK_0);
#if ENABLE_WDQS_MODE_2
if (!(u1IsLP4Div4DDR800(p)) && (p->frequency <= 800) && (p->support_rank_num == RANK_DUAL))
WriteLevelingPosCal(p, PI_BASED);
#elif ENABLE_TX_WDQS
if (!(u1IsLP4Div4DDR800(p)) && (p->support_rank_num == RANK_DUAL))
WriteLevelingPosCal(p, PI_BASED);
#endif
#endif
for(s1RankIdx=RANK_0; s1RankIdx<u1RankMax; s1RankIdx++)
{
vSetRank(p, s1RankIdx);
#if 1
vAutoRefreshSwitch(p, DISABLE);
#if (!WCK_LEVELING_FM_WORKAROUND)
if (u1IsLP4Family(p->dram_type))
#endif
{
if ((!((vGet_DDR_Loop_Mode(p) == SEMI_OPEN_LOOP_MODE) && (p->rank == RANK_1)))
&& (!(vGet_DDR_Loop_Mode(p) == OPEN_LOOP_MODE))) // skip for DDR400
{
//mcSHOW_DBG_MSG(("\n----->DramcWriteLeveling(PI) begin...\n"));
DramcWriteLeveling(p, AUTOK_ON, PI_BASED);
//mcSHOW_DBG_MSG(("DramcWriteLeveling(PI) end<-----\n\n"));
}
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d Write leveling takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
}
#endif
#if LJPLL_FREQ_DEBUG_LOG
DDRPhyFreqMeter(p);
#endif
vAutoRefreshSwitch(p, ENABLE);
dramc_rx_dqs_gating_cal(p, AUTOK_OFF, 0);
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d Gating takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
#if LJPLL_FREQ_DEBUG_LOG
DDRPhyFreqMeter(p);
#endif
#if ENABLE_RX_INPUT_BUFF_OFF_K
if((p->frequency >= 2133) && (p->rank == RANK_0))
DramcRXInputBufferOffsetCal(p);
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRX input cal takes %d us\n", CPU_Cycle));
TimeProfileBegin();
#endif
#endif
DramcRxWindowPerbitCal(p, PATTERN_RDDQC, NULL, AUTOK_OFF, NORMAL_K);
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d RX RDDQC takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
#if LJPLL_FREQ_DEBUG_LOG
DDRPhyFreqMeter(p);
#endif
#if MRW_CHECK_ONLY
mcSHOW_MRW_MSG(("\n==[MR Dump] %s==\n", __func__));
#endif
DramcTxWindowPerbitCal(p, TX_DQ_DQS_MOVE_DQ_DQM, FALSE, AUTOK_OFF);
if (Get_Vref_Calibration_OnOff(p)==VREF_CALI_ON)
{
DramcTxWindowPerbitCal(p, TX_DQ_DQS_MOVE_DQ_ONLY, TRUE, AUTOK_OFF);
}
#if PINMUX_AUTO_TEST_PER_BIT_TX
CheckTxPinMux(p);
#endif
DramcTxWindowPerbitCal(p, TX_DQ_DQS_MOVE_DQ_ONLY, FALSE, AUTOK_OFF);
#if TX_K_DQM_WITH_WDBI
if ((p->DBI_W_onoff[p->dram_fsp]==DBI_ON))
{
//mcSHOW_DBG_MSG(("[TX_K_DQM_WITH_WDBI] Step1: K DQM with DBI_ON, and check DQM window spec.\n\n"));
vSwitchWriteDBISettings(p, DBI_ON);
DramcTxWindowPerbitCal((DRAMC_CTX_T *) p, TX_DQ_DQS_MOVE_DQM_ONLY, FALSE, AUTOK_OFF);
vSwitchWriteDBISettings(p, DBI_OFF);
}
#endif
#if ENABLE_EYESCAN_GRAPH
if (GetEyeScanEnable(p, EYESCAN_TYPE_TX) == ENABLE)
{
Dramc_K_TX_EyeScan_Log(p);
print_EYESCAN_LOG_message(p, EYESCAN_TYPE_TX);
}
#endif
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d TX calibration takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
#if LJPLL_FREQ_DEBUG_LOG
DDRPhyFreqMeter(p);
#endif
DramcRxdatlatCal(p);
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d Datlat takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
#if LJPLL_FREQ_DEBUG_LOG
DDRPhyFreqMeter(p);
#endif
#if PINMUX_AUTO_TEST_PER_BIT_RX
CheckRxPinMux(p);
#endif
DramcRxWindowPerbitCal(p, PATTERN_TEST_ENGINE, NULL , AUTOK_ON, NORMAL_K);
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tRank %d RX calibration takes %d us\n", s1RankIdx, CPU_Cycle));
TimeProfileBegin();
#endif
// DramcRxdqsGatingCal(p);
#if ENABLE_EYESCAN_GRAPH
if (GetEyeScanEnable(p, EYESCAN_TYPE_RX) == ENABLE)
{
DramcRxWindowPerbitCal(p, PATTERN_TEST_ENGINE, NULL , AUTOK_ON, EYESCAN_K);
print_EYESCAN_LOG_message(p, EYESCAN_TYPE_RX);
}
#endif
#if (SIMULATION_RX_DVS == 1)
if (p->frequency >=2133)
DramcRxDVSWindowCal(p);
#endif
#if TX_OE_CALIBATION && !ENABLE_WDQS_MODE_2
if(p->frequency >= 1600)
{
DramcTxOECalibration(p);
}
#endif
vAutoRefreshSwitch(p, DISABLE);
#if ENABLE_TX_TRACKING
DramcDQSOSCSetMR18MR19(p);
DramcDQSOSCMR23(p);
#endif
}
#if __Petrus_TO_BE_PORTING__
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
if(p->femmc_Ready==0)
#endif
{
if(p->frequency >= RX_VREF_DUAL_RANK_K_FREQ)
{
U8 u1ByteIdx, u1HighFreqRXVref[2];
for(u1ByteIdx =0 ; u1ByteIdx<DQS_BYTE_NUMBER; u1ByteIdx++)
{
u1HighFreqRXVref[u1ByteIdx] = (gFinalRXVrefDQ[p->channel][RANK_0][u1ByteIdx] + gFinalRXVrefDQ[p->channel][RANK_1][u1ByteIdx]) >> 1;
mcSHOW_DBG_MSG(("RX Vref Byte%d (u1HighFreqRXVref) = %d = (%d+ %d)>>1\n", u1ByteIdx, u1HighFreqRXVref[u1ByteIdx], gFinalRXVrefDQ[p->channel][RANK_0][u1ByteIdx], gFinalRXVrefDQ[p->channel][RANK_1][u1ByteIdx]));
}
for(s1RankIdx=RANK_0; s1RankIdx < u1RankMax; s1RankIdx++)
{
vSetRank(p, s1RankIdx);
DramcRxWindowPerbitCal((DRAMC_CTX_T *) p, 1, u1HighFreqRXVref);
}
}
}
#endif
vSetRank(p, RANK_0);
#if ENABLE_TX_TRACKING
DramcDQSOSCShuSettings(p);
#endif
#if (SIMULATION_GATING && GATING_ADJUST_TXDLY_FOR_TRACKING)
DramcRxdqsGatingPostProcess(p);
#endif
#if TDQSCK_PRECALCULATION_FOR_DVFS
DramcDQSPrecalculation_preset(p);
#endif
#if SIMULATION_RX_DVS
if (p->frequency >=2133)
DramcDramcRxDVSCalPostProcess(p);
#endif
DramcDualRankRxdatlatCal(p);
#if RDSEL_TRACKING_EN
if (p->frequency >= RDSEL_TRACKING_TH)
RDSELRunTimeTracking_preset(p);
#endif
#if XRTWTW_NEW_CROSS_RK_MODE
if(p->support_rank_num == RANK_DUAL)
{
XRTWTW_SHU_Setting(p);
}
#endif
#if __Petrus_TO_BE_PORTING__
#if LJPLL_FREQ_DEBUG_LOG
DDRPhyFreqMeter(p);
#endif
#endif
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle=TimeProfileEnd();
mcSHOW_TIME_MSG(("\tMisc takes %d us\n\n", s1RankIdx, CPU_Cycle));
#endif
}
static void vDramCalibrationSingleChannel(DRAMC_CTX_T *p)
{
vCalibration_Flow_LP4(p);
}
void vDramCalibrationAllChannel(DRAMC_CTX_T *p)
{
U8 channel_idx, rank_idx;
#ifdef FOR_HQA_REPORT_USED
print_HQA_message_before_CalibrationAllChannel(p);
#endif
#ifdef DDR_INIT_TIME_PROFILING
PROFILING_TIME_T ptime;
TimeProfileGetTick(&ptime);
#endif
CmdOEOnOff(p, DISABLE, CMDOE_DIS_TO_ALL_CHANNEL);
for (channel_idx = CHANNEL_A; channel_idx < p->support_channel_num; channel_idx++)
{
vSetPHY2ChannelMapping(p, channel_idx);
CmdOEOnOff(p, ENABLE, CMDOE_DIS_TO_ONE_CHANNEL);
vDramCalibrationSingleChannel(p);
}
vSetPHY2ChannelMapping(p, CHANNEL_A);
#if PRINT_CALIBRATION_SUMMARY
vPrintCalibrationResult(p);
#endif
#ifdef FOR_HQA_TEST_USED
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
if (p->femmc_Ready == 1)
{
mcSHOW_DBG_MSG(("\nCalibration fast K is enable, cannot show HQA measurement information\n"));
}
else
#endif
print_HQA_measure_message(p);
#endif
#if defined(DEVIATION)
if(p->frequency == u2DFSGetHighestFreq(p))
{
SetDeviationVref(p);
#if !__ETT__
vSetDeviationVariable();
#endif
}
#endif
#if ENABLE_READ_DBI
vSetRank(p, RANK_0);
vSetPHY2ChannelMapping(p, CHANNEL_A);
DramcReadDBIOnOff(p, p->DBI_R_onoff[p->dram_fsp]);
#endif
#if ENABLE_WRITE_DBI
if (p->DBI_W_onoff[p->dram_fsp])
{
for (channel_idx = CHANNEL_A; channel_idx < p->support_channel_num; channel_idx++)
{
vSetPHY2ChannelMapping(p, channel_idx);
for (rank_idx = RANK_0; rank_idx < RANK_MAX; rank_idx++)
{
vSetRank(p, rank_idx);
DramcWriteShiftMCKForWriteDBI(p, -1);
}
vSetRank(p, RANK_0);
}
vSetPHY2ChannelMapping(p, CHANNEL_A);
ApplyWriteDBIPowerImprove(p, ENABLE);
#if ENABLE_WRITE_DBI_Protect
ApplyWriteDBIProtect(p, ENABLE);
#endif
}
DramcWriteDBIOnOff(p, p->DBI_W_onoff[p->dram_fsp]);
#endif
#if TX_PICG_NEW_MODE
TXPICGSetting(p);
#endif
#if XRTRTR_NEW_CROSS_RK_MODE
if (p->support_rank_num == RANK_DUAL)
{
XRTRTR_SHU_Setting(p);
}
#endif
#if (ENABLE_TX_TRACKING || TDQSCK_PRECALCULATION_FOR_DVFS)
FreqJumpRatioCalculation(p);
#endif
#ifdef TEMP_SENSOR_ENABLE
DramcHMR4_Presetting(p);
#endif
#if DRAMC_MODIFIED_REFRESH_MODE
DramcModifiedRefreshMode(p);
#endif
#if DRAMC_CKE_DEBOUNCE
DramcCKEDebounce(p);
#endif
#if ENABLE_TX_TRACKING
U8 backup_channel = p->channel;
U8 channelIdx;
for (channelIdx = CHANNEL_A; channelIdx < p->support_channel_num; channelIdx++)
{
vSetPHY2ChannelMapping(p, channelIdx);
DramcHwDQSOSC(p);
}
vSetPHY2ChannelMapping(p, backup_channel);
//mcSHOW_DBG_MSG(("TX_TRACKING: ON\n"));
//#else
//mcSHOW_DBG_MSG(("TX_TRACKING: OFF\n"));
#endif
#if ENABLE_DFS_RUNTIME_MRW
DFSRuntimeMRW_preset_AfterK(p, vGet_Current_SRAMIdx(p));
#endif
#ifdef DDR_INIT_TIME_PROFILING
mcSHOW_TIME_MSG((" (4) vDramCalibrationAllChannel() take %d ms\n\r", TimeProfileDiffUS(&ptime) / 1000));
#endif
}
U8 gGet_MDL_Used_Flag = 0;
void Set_MDL_Used_Flag(U8 value)
{
gGet_MDL_Used_Flag = value;
}
U8 Get_MDL_Used_Flag(void)
{
return gGet_MDL_Used_Flag;
}
DRAMC_CTX_T *psCurrDramCtx;
U8 gfirst_init_flag = 0;
//extern int MustStop;
int Init_DRAM(DRAM_DRAM_TYPE_T dram_type, DRAM_CBT_MODE_EXTERN_T dram_cbt_mode_extern, DRAM_INFO_BY_MRR_T *DramInfo, U8 get_mdl_used)
{
#if !SW_CHANGE_FOR_SIMULATION
//int mem_start, len, s4value;
DRAMC_CTX_T * p;
//U8 ucstatus = 0;
//U32 u4value;
//U8 chIdx;
U8 final_shu;
#ifdef DDR_INIT_TIME_PROFILING
U32 CPU_Cycle;
TimeProfileBegin();
#endif
psCurrDramCtx = &DramCtx_LPDDR4;
#if defined(DDR_INIT_TIME_PROFILING) || (__ETT__ && SUPPORT_SAVE_TIME_FOR_CALIBRATION)
if (gtime_profiling_flag == 0)
{
memcpy(&gTimeProfilingDramCtx, psCurrDramCtx, sizeof(DRAMC_CTX_T));
gtime_profiling_flag = 1;
}
p = &gTimeProfilingDramCtx;
gfirst_init_flag = 0;
//DramcConfInfraReset(p);
#else
p = psCurrDramCtx;
#endif
p->new_cbt_mode = 1;
Set_MDL_Used_Flag(get_mdl_used);
p->dram_type = dram_type;
switch ((int)dram_cbt_mode_extern)
{
case CBT_R0_R1_NORMAL:
p->dram_cbt_mode[RANK_0] = CBT_NORMAL_MODE;
p->dram_cbt_mode[RANK_1] = CBT_NORMAL_MODE;
break;
case CBT_R0_R1_BYTE:
p->dram_cbt_mode[RANK_0] = CBT_BYTE_MODE1;
p->dram_cbt_mode[RANK_1] = CBT_BYTE_MODE1;
break;
case CBT_R0_NORMAL_R1_BYTE:
p->dram_cbt_mode[RANK_0] = CBT_NORMAL_MODE;
p->dram_cbt_mode[RANK_1] = CBT_BYTE_MODE1;
break;
case CBT_R0_BYTE_R1_NORMAL:
p->dram_cbt_mode[RANK_0] = CBT_BYTE_MODE1;
p->dram_cbt_mode[RANK_1] = CBT_NORMAL_MODE;
break;
default:
mcSHOW_ERR_MSG(("Error!"));
break;
}
mcSHOW_DBG_MSG2(("dram_cbt_mode_extern: %d\n"
"dram_cbt_mode [RK0]: %d, [RK1]: %d\n",
(int)dram_cbt_mode_extern, p->dram_cbt_mode[RANK_0], p->dram_cbt_mode[RANK_1]));
#if ENABLE_APB_MASK_WRITE
U32 u4GPTTickCnt;
TimeProfileBegin();
EnableDramcAPBMaskWrite(p);
DramcRegAPBWriteMask(p);
u4GPTTickCnt = TimeProfileEnd();
mcSHOW_TIME_MSG(("[DramcRegAPBWriteMask] take %d ms\n", u4GPTTickCnt / 1000));
TestAPBMaskWriteFunc(p);
while (1);
#endif
DramcBroadcastOnOff(DRAMC_BROADCAST_ON);
if (gfirst_init_flag == 0)
{
MPLLInit();
Global_Option_Init(p);
gfirst_init_flag = 1;
}
#ifdef FIRST_BRING_UP
if (p->support_channel_num != CHANNEL_SINGLE)
Test_Broadcast_Feature(p);
#endif
#if (FOR_DV_SIMULATION_USED == 0 && SW_CHANGE_FOR_SIMULATION == 0)
{
U32 backup_broadcast;
backup_broadcast = GetDramcBroadcast();
DramcBroadcastOnOff(DRAMC_BROADCAST_OFF);
mdl_setting(p);
UpdateGlobal10GBEnVariables(p);
TA2_Test_Run_Time_HW_Set_Column_Num(p);
DramcBroadcastOnOff(backup_broadcast);
}
#endif
mcSHOW_DBG_MSG(("\n\n[Bian_co] %s\n dram_type %d, R0 cbt_mode %d, R1 cbt_mode %d VENDOR=%d\n\n", _VERSION_, p->dram_type, p->dram_cbt_mode[RANK_0], p->dram_cbt_mode[RANK_1], p->vendor_id));
#if __Petrus_TO_BE_PORTING__
vDramcInit_PreSettings(p);
#endif
#if defined(DUMP_INIT_RG_LOG_TO_DE)
vSetDFSFreqSelByTable(p, &gFreqTbl[1]);
#else
vSetDFSFreqSelByTable(p, &gFreqTbl[DRAM_DFS_SRAM_MAX-1]);
//vSetDFSFreqSelByTable(p, &gFreqTbl[1]);
#endif
#if (DUAL_FREQ_K==0) || (__FLASH_TOOL_DA__)
gAndroid_DVFS_en = FALSE;
#endif
#if RUNTIME_SHMOO_RELEATED_FUNCTION
ett_fix_freq = 1;
#endif
if (!CONFIG(MEDIATEK_DRAM_DVFS))
ett_fix_freq = 0x1;
if (ett_fix_freq != 0xff)
gAndroid_DVFS_en = FALSE;
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
DramcSave_Time_For_Cal_Init(p);
#endif
#ifndef LOOPBACK_TEST
if (p->dram_type == TYPE_LPDDR4X)
{
DramcImpedanceCal(p, 1, IMP_LOW_FREQ);
DramcImpedanceCal(p, 1, IMP_HIGH_FREQ);
#if ENABLE_SAMSUNG_NT_ODT
DramcImpedanceCal(p, 1, IMP_NT_ODTN);
#endif
}
else
{
mcSHOW_ERR_MSG(("[DramcImpedanceCal] Warnning: Need confirm DRAM type for SW IMP Calibration !!!\n"));
#if __ETT__
while (1);
#endif
}
#endif
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle = TimeProfileEnd();
mcSHOW_TIME_MSG(("(0)Pre_Init + SwImdepance takes %d ms\n\r", CPU_Cycle / 1000));
#endif
#ifdef DUMP_INIT_RG_LOG_TO_DE
gDUMP_INIT_RG_LOG_TO_DE_RG_log_flag = 1;
mcSHOW_DUMP_INIT_RG_MSG(("\n\n//=== DDR\033[1;32m%d\033[m\n",p->frequency<<1));
#endif
//EnableDramcPhyDCM(p, 0);
DFSInitForCalibration(p);
#ifdef TEST_MODE_MRS
if (global_which_test == 0)
TestModeTestMenu();
#endif
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
if (p->femmc_Ready==1)
{
p->support_rank_num = p->pSavetimeData->support_rank_num;
}
else
#endif
{
#if ENABLE_RANK_NUMBER_AUTO_DETECTION
if (Get_MDL_Used_Flag()==GET_MDL_USED)
{
DramRankNumberDetection(p);
DFSInitForCalibration(p);
}
#endif
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
p->pSavetimeData->support_rank_num = p->support_rank_num;
#endif
}
if (p->support_rank_num == RANK_SINGLE){
CKEFixOnOff(p, RANK_1, CKE_DYNAMIC, TO_ALL_CHANNEL);
mcSHOW_DBG_MSG(("Set RANK1 CKE to DYNAMIC\n"));
}
#if (FOR_DV_SIMULATION_USED == 0 && SW_CHANGE_FOR_SIMULATION == 0)
U32 backup_broadcast;
backup_broadcast = GetDramcBroadcast();
DramcBroadcastOnOff(DRAMC_BROADCAST_OFF);
emi_init2();
DramcBroadcastOnOff(backup_broadcast);
#endif
if (Get_MDL_Used_Flag()==GET_MDL_USED)
{
vSetPHY2ChannelMapping(p, CHANNEL_A);
vCalibration_Flow_For_MDL(p);
GetDramInforAfterCalByMRR(p, DramInfo);
return 0;
}
else
{
vDramCalibrationAllChannel(p);
GetDramInforAfterCalByMRR(p, DramInfo);
vDramcACTimingOptimize(p);
}
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
DramcSave_Time_For_Cal_End(p);
#endif
#if (DUAL_FREQ_K) && (!__FLASH_TOOL_DA__)
DramcSaveToShuffleSRAM(p, DRAM_DFS_REG_SHU0, vGet_Current_SRAMIdx(p));
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
DramcSave_Time_For_Cal_End(p);
#endif
LoadShuffleSRAMtoDramc(p, vGet_Current_SRAMIdx(p), DRAM_DFS_REG_SHU1);
S8 u1ShuIdx;
S8 s1ShuStart, s1ShuEnd;
if (ett_fix_freq != 0xff) {
s1ShuStart = ett_fix_freq;
s1ShuEnd = ett_fix_freq;
gFreqTbl[ett_fix_freq].vref_calibartion_enable = VREF_CALI_ON;
} else {
s1ShuStart = DRAM_DFS_SRAM_MAX - 2;
s1ShuEnd = SRAM_SHU0;
}
for (u1ShuIdx = s1ShuStart; u1ShuIdx >= s1ShuEnd; u1ShuIdx--)
{
vSetDFSFreqSelByTable(p, &gFreqTbl[u1ShuIdx]);
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
DramcSave_Time_For_Cal_Init(p);
#endif
DFSInitForCalibration(p);
vDramCalibrationAllChannel(p);
vDramcACTimingOptimize(p);
#if RUNTIME_SHMOO_RELEATED_FUNCTION && SUPPORT_SAVE_TIME_FOR_CALIBRATION
if (p->frequency == u2DFSGetHighestFreq(p))
{
DramcRunTimeShmooRG_BackupRestore(p);
RunTime_Shmoo_update_parameters(p);
}
#endif
DramcSaveToShuffleSRAM(p, DRAM_DFS_REG_SHU0, gFreqTbl[u1ShuIdx].SRAMIdx);
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
DramcSave_Time_For_Cal_End(p);
#endif
}
#endif
#ifdef DDR_INIT_TIME_PROFILING
TimeProfileBegin();
#endif
vAfterCalibration(p);
#ifdef ENABLE_POST_PACKAGE_REPAIR
PostPackageRepair();
#endif
#if __Petrus_TO_BE_PORTING__
#if 0
U8 u1ChannelIdx, u1RankIdx;
for (u1ChannelIdx = 0; u1ChannelIdx < (p->support_channel_num); u1ChannelIdx++)
for (u1RankIdx = 0; u1RankIdx < (p->support_rank_num); u1RankIdx++)
{
vSetPHY2ChannelMapping(p, u1ChannelIdx);
vSetRank(p, u1RankIdx);
DramcTxOECalibration(p);
}
vSetPHY2ChannelMapping(p, CHANNEL_A);
vSetRank(p, RANK_0);
U32 u4err_value;
DramcDmaEngine((DRAMC_CTX_T *)p, 0x50000000, 0x60000000, 0xff00, 8, DMA_PREPARE_DATA_ONLY, p->support_channel_num);
u4err_value = DramcDmaEngine((DRAMC_CTX_T *)p, 0x50000000, 0x60000000, 0xff00, 8, DMA_CHECK_DATA_ACCESS_AND_COMPARE, p->support_channel_num);
mcSHOW_DBG_MSG(("DramC_TX_OE_Calibration 0x%X\n", u4err_value));
#endif
#if !LCPLL_IC_SCAN
#if (FOR_DV_SIMULATION_USED == 0 && SW_CHANGE_FOR_SIMULATION == 0)
print_DBG_info(p);
Dump_EMIRegisters(p);
#endif
#endif
#if 0
DramcRegDump(p, SRAM_SHU0);
#endif
#if ETT_NO_DRAM
//NoDramDramcRegDump(p);
NoDramRegFill();
#endif
#endif
#if DRAMC_MODEREG_CHECK
DramcModeReg_Check(p);
#endif
#if PIN_CHECK_TOOL
vPrintPinInfoResult(p);
vGetErrorTypeResult(p);
#endif
#if CPU_RW_TEST_AFTER_K
mcSHOW_DBG_MSG2(("\n[MEM_TEST] 02: After DFS, before run time config\n"));
vDramCPUReadWriteTestAfterCalibration(p);
#endif
#if TA2_RW_TEST_AFTER_K
mcSHOW_DBG_MSG2(("\n[TA2_TEST]\n"));
TA2_Test_Run_Time_HW(p);
#endif
#if __ETT__
#if SUPPORT_SAVE_TIME_FOR_CALIBRATION
if (!(p->femmc_Ready == 0))
#elif defined(DDR_INIT_TIME_PROFILING)
if (u2TimeProfileCnt == (DDR_INIT_TIME_PROFILING_TEST_CNT - 1))
#endif
#endif
{
EnableDFSHwModeClk(p);
mcSHOW_DBG_MSG2(("DFS_SHUFFLE_HW_MODE: ON\n"));
if (gAndroid_DVFS_en == TRUE)
{
#if defined(SLT)
#ifdef SLT_2400_EXIT_PRELOADER
final_shu = SRAM_SHU0;
#else
final_shu = SRAM_SHU0;
#endif
#else
final_shu = SRAM_SHU0;
#endif
vSetDFSFreqSelByTable(p, get_FreqTbl_by_SRAMIndex(p, final_shu));
#if REPLACE_DFS_RG_MODE
DramcDFSDirectJump_SPMMode(p, SRAM_SHU1);
DramcDFSDirectJump_SPMMode(p, final_shu);
#else
DramcDFSDirectJump_SRAMShuRGMode(p, SRAM_SHU1);
DramcDFSDirectJump_SRAMShuRGMode(p, final_shu);
#endif
}
#if __Petrus_TO_BE_PORTING__
#if (DVT_TEST_DUMMY_RD_SIDEBAND_FROM_SPM && defined(DUMMY_READ_FOR_TRACKING))
DramcDummyReadForSPMSideBand(p);
#endif
EnableDramcTrackingBySPMControl(p);
mcSHOW_DBG_MSG2(("\n\nSettings after calibration\n\n"));
//mcDUMP_REG_MSG(("\n\nSettings after calibration\n\n"));
#endif
DramcRunTimeConfig(p);
#if DUMP_ALLSUH_RG
DumpAllChAllShuRG(p);
#endif
}
#if CPU_RW_TEST_AFTER_K
mcSHOW_DBG_MSG2(("\n[MEM_TEST] 03: After run time config\n"));
vDramCPUReadWriteTestAfterCalibration(p);
#endif
#if TA2_RW_TEST_AFTER_K
mcSHOW_DBG_MSG2(("\n[TA2_TEST]\n"));
TA2_Test_Run_Time_HW(p);
#endif
#if (__ETT__ && CPU_RW_TEST_AFTER_K)
//while(1)
{
//if ((s4value = dramc_complex_mem_test (0x46000000, 0x2000)) == 0)
if ((s4value = dramc_complex_mem_test (0x40024000, 0x20000)) == 0)
{
mcSHOW_DBG_MSG3(("1st complex R/W mem test pass\n"));
}
else
{
mcSHOW_DBG_MSG3(("1st complex R/W mem test fail :-%d\n", -s4value));
#if defined(SLT)
mcSHOW_ERR_MSG(("[EMI] EMI_FATAL_ERR_FLAG = 0x00000001, line: %d\n",__LINE__));
while (1);
#endif
}
}
#endif
#if MRW_CHECK_ONLY
vPrintFinalModeRegisterSetting(p);
#endif
#ifdef DDR_INIT_TIME_PROFILING
CPU_Cycle = TimeProfileEnd();
mcSHOW_TIME_MSG((" (5) After calibration takes %d ms\n\r", CPU_Cycle / 1000));
#endif
#endif
#if defined(FOR_HQA_REPORT_USED)
print_HQA_SLT_BIN_message(p);
#endif
#if DVT_TEST_RX_FIFO_MISMATCH_IRQ_CLEAN
DVTRxFifoMismatchIrqClean(p);
#endif
//final_shu = SRAM_SHU7;
//vSetDFSFreqSelByTable(p, get_FreqTbl_by_SRAMIndex(p, final_shu));
//DramcDFSDirectJump(p, SRAM_SHU1);//Switch to CLRPLL
//DramcDFSDirectJump(p, final_shu);//Switch to CLRPLL
//if(MustStop)
// while(1);
//ETT_DRM(p);
return 0;
}
#if FOR_DV_SIMULATION_USED
void DPI_vDramCalibrationSingleChannel(DRAMC_CTX_T *DramConfig, cal_sv_rand_args_t *psra)
{
U8 ii;
#if GATING_ADJUST_TXDLY_FOR_TRACKING
DramcRxdqsGatingPreProcess(DramConfig);
#endif
vAutoRefreshSwitch(DramConfig, DISABLE);
#if (SIMUILATION_CBT == 1)
for (ii = RANK_0; ii < DramConfig->support_rank_num; ii++)
{
vSetRank(DramConfig, ii);
if (!psra || psra->cbt) {
mcSHOW_DBG_MSG6(("\n----->DramcCBT begin...\n"));
timestamp_show();
#if CBT_O1_PINMUX_WORKAROUND
CmdBusTrainingLP45(DramConfig, AUTOK_OFF);
#else
if (psra)
CmdBusTrainingLP45(DramConfig, psra->cbt_autok, NORMAL_K);
else
CmdBusTrainingLP45(DramConfig, AUTOK_OFF, NORMAL_K);
#endif
timestamp_show();
mcSHOW_DBG_MSG6(("DramcCBT end<-----\n\n"));
}
#if ENABLE_EYESCAN_GRAPH
if (GetEyeScanEnable(DramConfig, EYESCAN_TYPE_CBT) == ENABLE)
{
mcSHOW_DBG_MSG6(("CBT EYESCAN start<-----\n\n"));
CmdBusTrainingLP45(DramConfig, AUTOK_OFF, EYESCAN_K);
print_EYESCAN_LOG_message(DramConfig, EYESCAN_TYPE_CBT);
mcSHOW_DBG_MSG6(("CBT EYESCAN end<-----\n\n"));
}
#endif
}
vSetRank(DramConfig, RANK_0);
ShuffleDfsToOriginalFSP(DramConfig);
#if __A60868_TO_BE_PORTING__
No_Parking_On_CLRPLL(DramConfig);
#endif
#endif
for (ii = RANK_0; ii < DramConfig->support_rank_num; ii++)
{
vSetRank(DramConfig, ii);
vAutoRefreshSwitch(DramConfig, DISABLE);
#if (SIMULATION_WRITE_LEVELING == 1)
#if (!WCK_LEVELING_FM_WORKAROUND)
if (u1IsLP4Family(DramConfig->dram_type))
#endif
{
if (!(u1IsPhaseMode(DramConfig) && (DramConfig->rank == RANK_1)))
{
if (!psra || psra->wl) {
mcSHOW_DBG_MSG6(("\n----->DramcWriteLeveling(PI) begin...\n"));
timestamp_show();
if (psra)
{
DramcWriteLeveling(DramConfig, psra->wl_autok, PI_BASED);
}
else
DramcWriteLeveling(DramConfig, AUTOK_OFF, PI_BASED);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcWriteLeveling(PI) end<-----\n\n"));
}
}
}
#endif
vAutoRefreshSwitch(DramConfig, ENABLE);
#if (SIMULATION_GATING == 1)
if (!psra || psra->gating) {
mcSHOW_DBG_MSG6(("\n----->DramcGating begin...\n"));
timestamp_show();
if (psra)
dramc_rx_dqs_gating_cal(DramConfig, psra->gating_autok, 0);
else
dramc_rx_dqs_gating_cal(DramConfig, AUTOK_OFF, 0);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcGating end < -----\n\n"));
}
#endif
#if (SIMULATION_RX_RDDQC == 1)
if (!psra || psra->rddqc) {
mcSHOW_DBG_MSG6(("\n----->DramcRxWindowPerbitCal RDDQC begin...\n"));
timestamp_show();
#if 0
p->rank = 1;
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_SHU_WCKCTRL), 0, SHU_WCKCTRL_WCKDUAL);
vIO32WriteFldMulti(DRAMC_REG_ADDR(DRAMC_REG_SHU_COMMON0),
P_Fld(1, SHU_COMMON0_LP5WCKON) |
P_Fld(1, SHU_COMMON0_LP5HEFF_MODE));
vIO32WriteFldAlign(DRAMC_REG_ADDR(DRAMC_REG_CKECTRL), 0, CKECTRL_CKE2RANK_OPT8);
#endif
DramcRxWindowPerbitCal(DramConfig, PATTERN_RDDQC, NULL, AUTOK_OFF, NORMAL_K);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcRxWindowPerbitCal end<-----\n\n"));
}
#endif
#if (SIMULATION_TX_PERBIT == 1)
if (!psra || psra->tx_perbit) {
mcSHOW_DBG_MSG6(("\n----->DramcTxWindowPerbitCal begin...\n"));
timestamp_show();
if (psra)
DramcTxWindowPerbitCal(DramConfig, TX_DQ_DQS_MOVE_DQ_DQM,
FALSE, psra->tx_auto_cal);
else
DramcTxWindowPerbitCal(DramConfig, TX_DQ_DQS_MOVE_DQ_DQM,
FALSE, AUTOK_OFF);
if (Get_Vref_Calibration_OnOff(DramConfig) == VREF_CALI_ON) {
if (psra)
DramcTxWindowPerbitCal(DramConfig, TX_DQ_DQS_MOVE_DQ_ONLY,
TRUE, psra->tx_auto_cal);
else
DramcTxWindowPerbitCal(DramConfig, TX_DQ_DQS_MOVE_DQ_ONLY,
TRUE, AUTOK_OFF);
}
if (psra)
DramcTxWindowPerbitCal(DramConfig, TX_DQ_DQS_MOVE_DQ_ONLY,
FALSE, psra->tx_auto_cal);
else
DramcTxWindowPerbitCal(DramConfig, TX_DQ_DQS_MOVE_DQ_ONLY,
FALSE, AUTOK_OFF);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcTxWindowPerbitCal end<-----\n\n"));
#if ENABLE_EYESCAN_GRAPH
if (GetEyeScanEnable(DramConfig, EYESCAN_TYPE_TX) == ENABLE)
{
mcSHOW_DBG_MSG6(("\n----->DramcTxEYESCAN begin...\n"));
Dramc_K_TX_EyeScan_Log(DramConfig);
print_EYESCAN_LOG_message(DramConfig, EYESCAN_TYPE_TX);
mcSHOW_DBG_MSG6(("\n----->DramcTxEYESCAN end...\n"));
}
#endif
}
#endif
#if (SIMULATION_DATLAT == 1)
if (1) {
mcSHOW_DBG_MSG6(("\n----->DramcRxdatlatCal begin...\n"));
timestamp_show();
DramcRxdatlatCal(DramConfig);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcRxdatlatCal end<-----\n\n"));
}
#endif
#if (SIMULATION_RX_PERBIT == 1)
if (!psra || psra->rx_perbit) {
mcSHOW_DBG_MSG6(("\n----->DramcRxWindowPerbitCal begin...\n"));
timestamp_show();
if (psra)
DramcRxWindowPerbitCal(DramConfig, PATTERN_TEST_ENGINE,
NULL , psra->rx_auto_cal, NORMAL_K);
else
DramcRxWindowPerbitCal(DramConfig, PATTERN_TEST_ENGINE,
NULL , AUTOK_OFF, NORMAL_K);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcRxWindowPerbitCal end<-----\n\n"));
#if ENABLE_EYESCAN_GRAPH
if (GetEyeScanEnable(DramConfig, EYESCAN_TYPE_RX) == ENABLE)
{
mcSHOW_DBG_MSG6(("DramcRxWindowPerbitCal EYESCAN start<-----\n\n"));
DramcRxWindowPerbitCal(DramConfig, PATTERN_TEST_ENGINE, NULL , AUTOK_ON, EYESCAN_K);
print_EYESCAN_LOG_message(DramConfig, EYESCAN_TYPE_RX);
mcSHOW_DBG_MSG6(("DramcRxWindowPerbitCal EYESCAN end<-----\n\n"));
}
#endif
}
#endif
#if (SIMULATION_RX_DVS == 1)
if (DramConfig->frequency >=2133)
DramcRxDVSWindowCal(DramConfig);
#endif
#if TX_OE_CALIBATION
if (DramConfig->frequency >= 1600)
{
DramcTxOECalibration(DramConfig);
}
#endif
#if ENABLE_TX_TRACKING
#if 0
if (gu1MR23Done == FALSE)
{
DramcDQSOSCAuto(p);
}
#endif
DramcDQSOSCAuto(DramConfig);
DramcDQSOSCMR23(DramConfig);
DramcDQSOSCSetMR18MR19(DramConfig);
#endif
}
vSetRank(DramConfig, RANK_0);
#if ENABLE_TX_TRACKING
DramcDQSOSCShuSettings(DramConfig);
#endif
#if GATING_ADJUST_TXDLY_FOR_TRACKING
DramcRxdqsGatingPostProcess(DramConfig);
#endif
#if TDQSCK_PRECALCULATION_FOR_DVFS
DramcDQSPrecalculation_preset(DramConfig);
#endif
#if SIMULATION_RX_DVS
if (DramConfig->frequency >=2133)
DramcDramcRxDVSCalPostProcess(DramConfig);
#endif
#if XRTWTW_NEW_CROSS_RK_MODE
if (DramConfig->support_rank_num == RANK_DUAL)
{
XRTWTW_SHU_Setting(DramConfig);
}
#endif
#if DV_SIMULATION_DATLAT
DramcDualRankRxdatlatCal(DramConfig);
#endif
#if RDSEL_TRACKING_EN
if (DramConfig->frequency != 400)
RDSELRunTimeTracking_preset(DramConfig);
#endif
}
void DPI_vDramCalibrationAllChannel(DRAMC_CTX_T *DramConfig, cal_sv_rand_args_t *psra)
{
U8 channel_idx, rank_idx;
CKEFixOnOff(DramConfig, TO_ALL_RANK, CKE_FIXOFF, TO_ALL_CHANNEL);
for (channel_idx = CHANNEL_A; channel_idx < DramConfig->support_channel_num; channel_idx++)
{
vSetPHY2ChannelMapping(DramConfig, channel_idx);
CKEFixOnOff(DramConfig, TO_ALL_RANK, CKE_FIXON, TO_ONE_CHANNEL);
DPI_vDramCalibrationSingleChannel(DramConfig, psra);
}
vSetPHY2ChannelMapping(DramConfig, CHANNEL_A);
#if ENABLE_READ_DBI
DramcReadDBIOnOff(DramConfig, DramConfig->DBI_R_onoff[DramConfig->dram_fsp]);
#endif
#if ENABLE_WRITE_DBI
if (DramConfig->DBI_W_onoff[DramConfig->dram_fsp])
{
for (channel_idx = CHANNEL_A; channel_idx < DramConfig->support_channel_num; channel_idx++)
{
vSetPHY2ChannelMapping(DramConfig, channel_idx);
for (rank_idx = RANK_0; rank_idx < DramConfig->support_rank_num; rank_idx++)
{
vSetRank(DramConfig, rank_idx);
DramcWriteShiftMCKForWriteDBI(DramConfig, -1);
}
vSetRank(DramConfig, RANK_0);
}
vSetPHY2ChannelMapping(DramConfig, CHANNEL_A);
ApplyWriteDBIPowerImprove(DramConfig, ENABLE);
#if ENABLE_WRITE_DBI_Protect
ApplyWriteDBIProtect(DramConfig, ENABLE);
#endif
}
DramcWriteDBIOnOff(DramConfig, DramConfig->DBI_W_onoff[DramConfig->dram_fsp]);
#endif
#if XRTRTR_NEW_CROSS_RK_MODE
if (DramConfig->support_rank_num == RANK_DUAL)
{
XRTRTR_SHU_Setting(DramConfig);
}
#endif
#if DV_SIMULATION_DFS
#if (ENABLE_TX_TRACKING || TDQSCK_PRECALCULATION_FOR_DVFS)
FreqJumpRatioCalculation(DramConfig);
#endif
#endif
#ifdef TEMP_SENSOR_ENABLE
DramcHMR4_Presetting(DramConfig);
#endif
#if ENABLE_TX_TRACKING
U8 backup_channel = DramConfig->channel;
U8 channelIdx;
for (channelIdx = CHANNEL_A; channelIdx < DramConfig->support_channel_num; channelIdx++)
{
vSetPHY2ChannelMapping(DramConfig, channelIdx);
DramcHwDQSOSC(DramConfig);
}
vSetPHY2ChannelMapping(DramConfig, backup_channel);
mcSHOW_DBG_MSG6(("TX_TRACKING: ON\n"));
#else
mcSHOW_DBG_MSG6(("TX_TRACKING: OFF\n"));
#endif
}
#if __A60868_TO_BE_PORTING__
void RG_dummy_write(DRAMC_CTX_T *p, U32 pattern)
{
unsigned int ii;
for (ii = 0; ii < 20; ii++)
vIO32WriteFldAlign(DDRPHY_RFU_0X1D4, pattern, RFU_0X1D4_RESERVED_0X1D4);
}
void EnablePLLtoSPMControl(DRAMC_CTX_T *p)
{
vIO32WriteFldAlign_All(DDRPHY_MISC_SPM_CTRL1, 0, MISC_SPM_CTRL1_SPM_DVFS_CONTROL_SEL);
}
#endif
void dump_dramc_ctx(DRAMC_CTX_T *p)
{
mcSHOW_DBG_MSG6(("== DRAMC_CTX_T ==\n"));
mcSHOW_DBG_MSG6(("support_channel_num: %d\n", p->support_channel_num));
mcSHOW_DBG_MSG6(("channel: %d\n", p->channel));
mcSHOW_DBG_MSG6(("support_rank_num: %d\n", p->support_rank_num));
mcSHOW_DBG_MSG6(("rank: %d\n", p->rank));
mcSHOW_DBG_MSG6(("freq_sel: %d\n", p->freq_sel));
mcSHOW_DBG_MSG6(("SRAMIdx: %d\n", vGet_Current_SRAMIdx(p)));
mcSHOW_DBG_MSG6(("dram_type: %d\n", p->dram_type));
mcSHOW_DBG_MSG6(("dram_fsp: %d\n", p->dram_fsp));
mcSHOW_DBG_MSG6(("odt_onoff: %d\n", p->odt_onoff));
mcSHOW_DBG_MSG6(("dram_cbt_mode: %d, %d\n", (int)p->dram_cbt_mode[0], (int)p->dram_cbt_mode[1]));
mcSHOW_DBG_MSG6(("DBI_R_onoff: %d, %d\n", (int)p->DBI_R_onoff[0], (int)p->DBI_R_onoff[1]));
mcSHOW_DBG_MSG6(("DBI_W_onoff: %d, %d\n", (int)p->DBI_W_onoff[0], (int)p->DBI_W_onoff[1]));
mcSHOW_DBG_MSG6(("data_width: %d\n", p->data_width));
mcSHOW_DBG_MSG6(("test2_1: 0x%x\n", p->test2_1));
mcSHOW_DBG_MSG6(("test2_2: 0x%x\n", p->test2_2));
mcSHOW_DBG_MSG6(("frequency: %d\n", p->frequency));
mcSHOW_DBG_MSG6(("freqGroup: %d\n", p->freqGroup));
mcSHOW_DBG_MSG6(("lp5_training_mode: %d\n", p->lp5_training_mode));
mcSHOW_DBG_MSG6(("lp5_cbt_phase: %d\n", p->lp5_cbt_phase));
mcSHOW_DBG_MSG6(("new_cbt_mode: %d\n", p->new_cbt_mode));
mcSHOW_DBG_MSG6(("u1PLLMode: %d\n", p->u1PLLMode));
mcSHOW_DBG_MSG6(("curDBIState: %d\n", p->curDBIState));
}
void DPI_SW_main_LP4(DRAMC_CTX_T *ExtConfig, cal_sv_rand_args_t *psra)
{
u32 value;
#if DV_SIMULATION_DFS
S8 s1ShuIdx;
#endif
DRAMC_CTX_T *p = &DramCtx_LPDDR4;
p->dram_type = ExtConfig->dram_type;
if(p->dram_type==TYPE_LPDDR5)
{
MEM_TYPE = LPDDR5;
}
else
{
MEM_TYPE = LPDDR4;
}
p->dram_cbt_mode[0] = ExtConfig->dram_cbt_mode[0];
p->dram_cbt_mode[1] = ExtConfig->dram_cbt_mode[1];
p->freq_sel = ExtConfig->freq_sel;
p->frequency = ExtConfig->frequency;
p->freqGroup = ExtConfig->freqGroup;
p->new_cbt_mode = ExtConfig->new_cbt_mode;
#if 0
DRAM_DFS_FREQUENCY_TABLE_T gFreqTbl[DRAM_DFS_SRAM_MAX] = {
{LP4_DDR3200 /*0*/, DIV8_MODE, SRAM_SHU1, DUTY_LAST_K, VREF_CALI_OFF, CLOSE_LOOP_MODE},
{LP4_DDR4266 /*1*/, DIV8_MODE, SRAM_SHU0, DUTY_NEED_K, VREF_CALI_ON, CLOSE_LOOP_MODE},
{LP4_DDR800 /*2*/, DIV4_MODE, SRAM_SHU6, DUTY_DEFAULT, VREF_CALI_OFF, SEMI_OPEN_LOOP_MODE},
{LP4_DDR1866 /*3*/, DIV8_MODE, SRAM_SHU3, DUTY_LAST_K, VREF_CALI_OFF, CLOSE_LOOP_MODE},
{LP4_DDR1200 /*4*/, DIV8_MODE, SRAM_SHU5, DUTY_LAST_K, VREF_CALI_OFF, CLOSE_LOOP_MODE},
{LP4_DDR2400 /*5*/, DIV8_MODE, SRAM_SHU2, DUTY_NEED_K, VREF_CALI_ON, CLOSE_LOOP_MODE},
{LP4_DDR1600 /*6*/, DIV8_MODE, SRAM_SHU4, DUTY_DEFAULT, VREF_CALI_ON, CLOSE_LOOP_MODE},
};
#endif
if (u1IsLP4Family(p->dram_type))
{
if((ExtConfig->freq_sel==LP4_DDR3733) || (ExtConfig->freq_sel==LP4_DDR4266))
{
p->pDFSTable = &gFreqTbl[1];
}
else if(ExtConfig->freq_sel==LP4_DDR1600)
{
p->pDFSTable = &gFreqTbl[DRAM_DFS_SRAM_MAX - 1];
}
else if(ExtConfig->freq_sel==LP4_DDR800)
{
p->pDFSTable = &gFreqTbl[2];
}
#if ENABLE_DDR400_OPEN_LOOP_MODE_OPTION
else if(ExtConfig->freq_sel==LP4_DDR400)
{
p->pDFSTable = &gFreqTbl[2];
}
#endif
}
enter_function();
if (!psra) {
mcSHOW_DBG_MSG6(("enter SA's simulation flow.\n"));
p->support_channel_num = CHANNEL_SINGLE;
p->channel = CHANNEL_A;
p->support_rank_num = RANK_DUAL;
p->rank = RANK_0;
#if (fcFOR_CHIP_ID == fcA60868)
#if DV_SIMULATION_DFS
p->pDFSTable = &gFreqTbl[DRAM_DFS_SRAM_MAX-1];
#endif
#endif
#if 0
#if DV_SIMULATION_LP4
p->dram_type = TYPE_LPDDR4X;
//p->freq_sel = LP4_DDR3200;
//p->frequency = 1600;
p->freq_sel = LP4_DDR1600;
p->frequency = 800;
#else
p->dram_type = TYPE_LPDDR5;
p->freq_sel = LP5_DDR3200;
p->frequency = 1600;
#endif
#endif
p->dram_fsp = FSP_0;
#if 0
#if DV_SIMULATION_BYTEMODE
p->dram_cbt_mode[RANK_0] = CBT_BYTE_MODE1;
p->dram_cbt_mode[RANK_1] = CBT_BYTE_MODE1;
#else
p->dram_cbt_mode[RANK_0] = CBT_NORMAL_MODE;
p->dram_cbt_mode[RANK_1] = CBT_NORMAL_MODE;
#endif
#endif
p->DBI_R_onoff[FSP_0] = DBI_OFF;
p->DBI_R_onoff[FSP_1] = DBI_OFF;
#if ENABLE_READ_DBI
p->DBI_R_onoff[FSP_1] = DBI_ON;
#else
p->DBI_R_onoff[FSP_1] = DBI_OFF;
#endif
p->DBI_W_onoff[FSP_0] = DBI_OFF;
p->DBI_W_onoff[FSP_1] = DBI_OFF;
#if ENABLE_WRITE_DBI
p->DBI_W_onoff[FSP_1] = DBI_ON;
#else
p->DBI_W_onoff[FSP_1] = DBI_OFF;
#endif
p->data_width = DATA_WIDTH_16BIT;
p->test2_1 = DEFAULT_TEST2_1_CAL;
p->test2_2 = DEFAULT_TEST2_2_CAL;
p->test_pattern = TEST_XTALK_PATTERN;
p->u2DelayCellTimex100 = 250;
p->vendor_id = 0x1;
p->density = 0;
/* p->ranksize = {0,0}; */
p->ShuRGAccessIdx = DRAM_DFS_REG_SHU0;
#if DV_SIMULATION_LP5_TRAINING_MODE1
p->lp5_training_mode = TRAINING_MODE1;
#else
p->lp5_training_mode = TRAINING_MODE2;
#endif
#if DV_SIMULATION_LP5_CBT_PHASH_R
p->lp5_cbt_phase = CBT_PHASE_RISING;
#else
p->lp5_cbt_phase = CBT_PHASE_FALLING;
#endif
} else {
mcSHOW_DBG_MSG6(("enter DV's regression flow.\n"));
p->support_channel_num = CHANNEL_SINGLE;
p->channel = psra->calibration_channel;
p->support_rank_num = RANK_DUAL;
p->rank = psra->calibration_rank;
#if (fcFOR_CHIP_ID == fcA60868)
#if DV_SIMULATION_DFS
p->pDFSTable = &gFreqTbl[DRAM_DFS_SRAM_MAX-1];
#endif
#endif
//p->dram_type = psra->dram_type;
//p->freq_sel = LP5_DDR4266;
//p->frequency = 2133;
set_type_freq_by_svargs(p, psra);
p->dram_fsp = FSP_0;
p->dram_cbt_mode[RANK_0] = psra->rk0_cbt_mode;
p->dram_cbt_mode[RANK_1] = psra->rk1_cbt_mode;
p->DBI_R_onoff[FSP_0] = (psra->mr3_value >> 6) & 0x1;
p->DBI_R_onoff[FSP_1] = (psra->mr3_value >> 6) & 0x1;
p->DBI_R_onoff[FSP_2] = (psra->mr3_value >> 6) & 0x1;
p->DBI_W_onoff[FSP_0] = (psra->mr3_value >> 7) & 0x1;
p->DBI_W_onoff[FSP_1] = (psra->mr3_value >> 7) & 0x1;
p->DBI_W_onoff[FSP_2] = (psra->mr3_value >> 7) & 0x1;
p->data_width = DATA_WIDTH_16BIT;
p->test2_1 = DEFAULT_TEST2_1_CAL;
p->test2_2 = DEFAULT_TEST2_2_CAL;
p->test_pattern = TEST_XTALK_PATTERN;
p->u2DelayCellTimex100 = 0;
p->vendor_id = 0x1;
p->density = 0;
/* p->ranksize = {0,0}; */
p->ShuRGAccessIdx = DRAM_DFS_REG_SHU0;
p->lp5_training_mode = psra->cbt_training_mode;
p->lp5_cbt_phase = psra->cbt_phase;
p->new_cbt_mode = psra->new_cbt_mode;
}
#if QT_GUI_Tool
p->lp5_training_mode = ExtConfig->lp5_training_mode;
#endif
if (psra && is_lp5_family(p)) {
p->dram_fsp = (psra->mr16_value >> 2) & 0x3;
} else if (psra && u1IsLP4Family(p->dram_type)) {
p->dram_fsp = (psra->mr13_value >> 7) & 0x1;
}
#define __FW_VER__ "All struct move done, new RX range -- 444"
if (u1IsLP4Family(p->dram_type)) {
mcSHOW_DBG_MSG6(("%s enter == LP4 == ...%s\n", __FUNCTION__, __FW_VER__));
} else {
mcSHOW_DBG_MSG6(("%s enter == LP5 == ...%s\n", __FUNCTION__, __FW_VER__));
}
mcSHOW_DBG_MSG6((CHK_INCLUDE_LOCAL_HEADER));
mcSHOW_DBG_MSG6(("SIMULATION_LP4_ZQ ... %d\n", SIMULATION_LP4_ZQ));
mcSHOW_DBG_MSG6(("SIMULATION_SW_IMPED ... %d\n", SIMULATION_SW_IMPED));
mcSHOW_DBG_MSG6(("SIMULATION_MIOCK_JMETER ... %d\n", SIMULATION_MIOCK_JMETER));
mcSHOW_DBG_MSG6(("SIMULATION_8PHASE ... %d\n", SIMULATION_8PHASE));
mcSHOW_DBG_MSG6(("SIMULATION_RX_INPUT_BUF ... %d\n", SIMULATION_RX_INPUT_BUF));
mcSHOW_DBG_MSG6(("SIMUILATION_CBT ... %d\n", SIMUILATION_CBT));
mcSHOW_DBG_MSG6(("SIMULATION_WRITE_LEVELING ... %d\n", SIMULATION_WRITE_LEVELING));
mcSHOW_DBG_MSG6(("SIMULATION_DUTY_CYC_MONITOR ... %d\n", SIMULATION_DUTY_CYC_MONITOR));
mcSHOW_DBG_MSG6(("SIMULATION_GATING ... %d\n", SIMULATION_GATING));
mcSHOW_DBG_MSG6(("SIMULATION_DATLAT ... %d\n", SIMULATION_DATLAT));
mcSHOW_DBG_MSG6(("SIMULATION_RX_RDDQC ... %d\n", SIMULATION_RX_RDDQC));
mcSHOW_DBG_MSG6(("SIMULATION_RX_PERBIT ... %d\n", SIMULATION_RX_PERBIT));
mcSHOW_DBG_MSG6(("SIMULATION_TX_PERBIT ... %d\n", SIMULATION_TX_PERBIT));
mcSHOW_DBG_MSG6(("\n\n"));
mcSHOW_DBG_MSG6(("============== CTX before calibration ================\n"));
dump_dramc_ctx(p);
DramcBroadcastOnOff(DRAMC_BROADCAST_OFF);
//vIO32Write4B_All2(p, DDRPHY_SHU_RK_CA_CMD1, 0x0FFF);
value = u4Dram_Register_Read(p, DRAMC_REG_DDRCOMMON0);
mcSHOW_DBG_MSG6(("Get Addr:0x%x, Value:0x%x\n", DRAMC_REG_DDRCOMMON0, value));
value = u4Dram_Register_Read(p, DDRPHY_REG_SHU_RK_CA_CMD1);
mcSHOW_DBG_MSG6(("Get Addr:0x%x, Value:0x%x\n", DDRPHY_REG_SHU_RK_CA_CMD1, value));
value = u4Dram_Register_Read(p, DDRPHY_REG_MISC_DQO1);
mcSHOW_DBG_MSG6(("Get Addr:0x%x, Value:0x%x\n", DDRPHY_REG_MISC_DQO1, value));
value = u4Dram_Register_Read(p, DDRPHY_MD32_REG_SSPM_TIMER0_RESET_VAL );
mcSHOW_DBG_MSG6(("Get Addr:0x%x, Value:0x%x\n", DDRPHY_MD32_REG_SSPM_TIMER0_RESET_VAL, value));
DramcBroadcastOnOff(DRAMC_BROADCAST_ON);
Global_Option_Init(p);
#if __A60868_TO_BE_PORTING__
vDramcInit_PreSettings(p);
DDRPhyFreqSel(p, p->pDFSTable->freq_sel);
vSetPHY2ChannelMapping(p, p->channel);
#endif
if (u1IsLP4Family(p->dram_type))
{
vSetDFSFreqSelByTable(p, p->pDFSTable);
}
else
{
DDRPhyFreqSel(p, p->freq_sel);
}
#if (SIMULATION_SW_IMPED == 1)
mcSHOW_DBG_MSG6(("\n----->DramcImpedanceCal begin...\n"));
timestamp_show();
DramcImpedanceCal(p, 1, IMP_LOW_FREQ);
DramcImpedanceCal(p, 1, IMP_HIGH_FREQ);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcImpedanceCal end<-----\n\n"));
#endif
#if DV_SIMULATION_INIT_C
DramcInit(p);
vBeforeCalibration(p);
#if __A60868_TO_BE_PORTING__
#if DV_SIMULATION_BEFORE_K
vApplyConfigBeforeCalibration(p);
//vMR2InitForSimulationTest(p);
#endif
#ifdef DUMP_INIT_RG_LOG_TO_DE
#if 0
mcSHOW_DUMP_INIT_RG_MSG(("\n\n\n\n\n\n===== Save to Shuffle RG ======\n"));
DramcSaveToShuffleReg(p, DRAM_DFS_SHUFFLE_1, DRAM_DFS_SHUFFLE_3);
#endif
while (1);
#endif
#endif
#endif
#if (SIMULATION_MIOCK_JMETER == 1)
mcSHOW_DBG_MSG6(("\n----->DramcMiockJmeter begin...\n"));
timestamp_show();
p->u2DelayCellTimex100 = GetVcoreDelayCellTime(p);
timestamp_show();
mcSHOW_DBG_MSG6(("DramcMiockJmeter end<-----\n\n"));
#endif
#if (SIMULATION_8PHASE == 1)
if(is_lp5_family(p) && (p->frequency >= 2133)) {
mcSHOW_DBG_MSG6(("\n----->Dramc8PhaseCal begin...\n"));
timestamp_show();
Dramc8PhaseCal(p);
timestamp_show();
mcSHOW_DBG_MSG6(("Dramc8PhaseCal end<-----\n\n"));
}
#endif
#if !DV_SIMULATION_DFS
DPI_vDramCalibrationAllChannel(p, psra);
#endif
#if DV_SIMULATION_DFS
DramcSaveToShuffleSRAM(p, DRAM_DFS_REG_SHU0, vGet_Current_SRAMIdx(p));
LoadShuffleSRAMtoDramc(p, vGet_Current_SRAMIdx(p), DRAM_DFS_REG_SHU1);
#if (fcFOR_CHIP_ID == fcA60868)
for (s1ShuIdx = DRAM_DFS_SRAM_MAX - 10; s1ShuIdx >= 0; s1ShuIdx--)
#else
for (s1ShuIdx = DRAM_DFS_SRAM_MAX - 2; s1ShuIdx >= 0; s1ShuIdx--)
#endif
{
vSetDFSFreqSelByTable(p, &gFreqTbl[s1ShuIdx]);
DramcInit(p);
vBeforeCalibration(p);
#if DV_SIMULATION_BEFORE_K
vApplyConfigBeforeCalibration(p);
#endif
#if (SIMULATION_8PHASE == 1)
if(is_lp5_family(p) && (p->frequency >= 2133)) {
mcSHOW_DBG_MSG6(("\n----->Dramc8PhaseCal begin...\n"));
timestamp_show();
Dramc8PhaseCal(p);
timestamp_show();
mcSHOW_DBG_MSG6(("Dramc8PhaseCal end<-----\n\n"));
}
#endif
#if !DV_SIMULATION_DFS
DPI_vDramCalibrationAllChannel(p, psra);
#endif
DramcSaveToShuffleSRAM(p, DRAM_DFS_REG_SHU0, gFreqTbl[s1ShuIdx].SRAMIdx);
}
#endif
vAfterCalibration(p);
#if SIMULATION_RUNTIME_CONFIG
DramcRunTimeConfig(p);
#endif
#if 0
#if DV_SIMULATION_AFTER_K
vApplyConfigAfterCalibration(p);
#endif
#if DV_SIMULATION_RUN_TIME_MRW
enter_pasr_dpd_config(0, 0xFF);
#endif
#if DV_SIMULATION_RUN_TIME_MRR
DramcModeRegReadByRank(p, RANK_0, 4, &u2val1);
DramcModeRegReadByRank(p, RANK_0, 5, &u2val2);
DramcModeRegReadByRank(p, RANK_0, 8, &u2val3);
mcSHOW_DBG_MSG(("[Runtime time MRR] MR4 = 0x%x, MR5 = 0x%x, MR8 = 0x%x\n", u2val1, u2val2, u2val3));
#endif
#if 0
for (s1ShuIdx = 0; s1ShuIdx < DV_SIMULATION_DFS_SHU_MAX; s1ShuIdx++)
DramcDFSDirectJump_SRAMShuRGMode(p, gDVDFSTbl[s1ShuIdx].SRAMIdx);
for (s1ShuIdx = DV_SIMULATION_DFS_SHU_MAX - 1; s1ShuIdx >= DRAM_DFS_SHUFFLE_1; s1ShuIdx--)
DramcDFSDirectJump_SRAMShuRGMode(p, gDVDFSTbl[s1ShuIdx].SRAMIdx);
#endif
#if DV_SIMULATION_SPM_CONTROL
EnablePLLtoSPMControl(p);
#endif
RG_dummy_write(p, 0xAAAAAAAA);
#endif
//Temp_TA2_Test_After_K(p);
//Ett_Mini_Strss_Test(p);
#if MRW_CHECK_ONLY
vPrintFinalModeRegisterSetting(p);
#endif
#if PRINT_CALIBRATION_SUMMARY
vPrintCalibrationResult(p);
#endif
exit_function();
}
void start_dramk(void)
{
DRAMC_CTX_T *p;
enter_function();
broadcast_off();
p = &DramCtx_LPDDR4;
DPI_SW_main_LP4(p, NULL);
exit_function();
}
void sa_calibration(cal_sv_rand_args_t *psra)
{
DRAMC_CTX_T *p;
enter_function();
if (psra == NULL) {
mcSHOW_DBG_MSG6(("psv_args is NULL.\n"));
goto out;
}
print_sv_args(psra);
if (!valid_magic(psra)) {
mcSHOW_DBG_MSG6(("sv arguments is invalid.\n"));
goto out;
}
set_psra(psra);
broadcast_off();
if (psra->calibration_channel == SV_CHN_A)
p = &DramCtx_LPDDR4;
else
p = &dram_ctx_chb;
DPI_SW_main_LP4(p, psra);
out:
exit_function();
return;
}
#if __A60868_TO_BE_PORTING__
#if SW_CHANGE_FOR_SIMULATION
void main(void)
{
DRAMC_CTX_T DramConfig;
DramConfig.channel = CHANNEL_A;
DramConfig.support_rank_num = RANK_DUAL;
DramConfig.rank = RANK_0;
DramConfig.dram_type = TYPE_LPDDR4X;
DramConfig.dram_fsp = FSP_0;
DramConfig.dram_cbt_mode[RANK_0] = CBT_NORMAL_MODE;
DramConfig.dram_cbt_mode[RANK_1] = CBT_NORMAL_MODE;
DramConfig.DBI_R_onoff[FSP_0] = DBI_OFF;
#if ENABLE_READ_DBI
DramConfig.DBI_R_onoff[FSP_1] = DBI_ON;
#else
DramConfig.DBI_R_onoff[FSP_1] = DBI_OFF;
#endif
DramConfig.DBI_W_onoff[FSP_0] = DBI_OFF;
#if ENABLE_WRITE_DBI
DramConfig.DBI_W_onoff[FSP_1] = DBI_ON;
#else
DramConfig.DBI_W_onoff[FSP_1] = DBI_OFF;
#endif
DramConfig.data_width = DATA_WIDTH_32BIT;
DramConfig.test2_1 = DEFAULT_TEST2_1_CAL;
DramConfig.test2_2 = DEFAULT_TEST2_2_CAL;
DramConfig.test_pattern = TEST_XTALK_PATTERN;
DramConfig.frequency = 800;
//DramConfig.enable_rx_scan_vref =DISABLE;
//DramConfig.enable_tx_scan_vref =DISABLE;
//DramConfig.dynamicODT = DISABLE;
MPLLInit();
Global_Option_Init(&DramConfig);
DDRPhyFreqSel(&DramConfig, LP4_DDR1600);
#if WRITE_LEVELING_MOVE_DQS_INSTEAD_OF_CLK
memset(DramConfig.arfgWriteLevelingInitShif, FALSE, sizeof(DramConfig.arfgWriteLevelingInitShif));
//>fgWriteLevelingInitShif= FALSE;
#endif
DramcInit(&DramConfig);
vApplyConfigBeforeCalibration(&DramConfig);
vMR2InitForSimulationTest(&DramConfig);
vSetPHY2ChannelMapping(&DramConfig, DramConfig.channel);
#if SIMULATION_SW_IMPED
DramcImpedanceCal(&DramConfig, 1, LOW_FREQ);
//DramcImpedanceCal(&DramConfig, 1, HIGH_FREQ);
#endif
#if SIMULATION_LP4_ZQ
if (DramConfig.dram_type == TYPE_LPDDR4 || DramConfig.dram_type == TYPE_LPDDR4X || DramConfig.dram_type == TYPE_LPDDR4P)
{
DramcZQCalibration(&DramConfig);
}
#endif
#if SIMUILATION_LP4_CBT
CmdBusTrainingLP4(&DramConfig);
#endif
#if SIMULATION_WRITE_LEVELING
DramcWriteLeveling(&DramConfig);
#endif
#if SIMULATION_GATING
DramcRxdqsGatingCal(&DramConfig);
//DualRankDramcRxdqsGatingCal(&DramConfig);
#endif
#if SIMUILATION_LP4_RDDQC
DramcRxWindowPerbitCal(&DramConfig, 0, NULL);
#endif
#if SIMULATION_DATLAT
DramcRxdatlatCal(&DramConfig);
//DramcDualRankRxdatlatCal(&DramConfig);
#endif
#if SIMULATION_RX_PERBIT
DramcRxWindowPerbitCal(&DramConfig, 1, NULL);
#endif
#if SIMULATION_TX_PERBIT
DramcTxWindowPerbitCal(&DramConfig, TX_DQ_DQS_MOVE_DQ_DQM);
DramcTxWindowPerbitCal(&DramConfig, TX_DQ_DQS_MOVE_DQ_ONLY);
#endif
#if ENABLE_READ_DBI
SetDramModeRegForReadDBIOnOff(&DramConfig, DramConfig.dram_fsp, DramConfig.DBI_R_onoff[DramConfig.dram_fsp]);
#endif
#if ENABLE_WRITE_DBI
DramcWriteShiftMCKForWriteDBI(&DramConfig, -1);
SetDramModeRegForWriteDBIOnOff(&DramConfig, DramConfig.dram_fsp, DramConfig.DBI_W_onoff[DramConfig.dram_fsp]);
#endif
#if ENABLE_READ_DBI
DramcReadDBIOnOff(&DramConfig, DramConfig.DBI_R_onoff[DramConfig.dram_fsp]);
#endif
#if ENABLE_WRITE_DBI
DramcWriteDBIOnOff(&DramConfig, DramConfig.DBI_W_onoff[DramConfig.dram_fsp]);
#endif
}
#endif
#endif
#endif
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