Patrick Georgi has submitted this change. ( https://review.coreboot.org/c/coreboot/+/44715 )
Change subject: soc/mediatek/mt8192: Implement dram all channel calibration ......................................................................
soc/mediatek/mt8192: Implement dram all channel calibration
Signed-off-by: Huayang Duan huayang.duan@mediatek.com Change-Id: I62cc654d5a6b861f72eec66e09d24483b993f0e4 Reviewed-on: https://review.coreboot.org/c/coreboot/+/44715 Tested-by: build bot (Jenkins) no-reply@coreboot.org Reviewed-by: Yu-Ping Wu yupingso@google.com --- M src/soc/mediatek/mt8192/dramc_pi_basic_api.c M src/soc/mediatek/mt8192/dramc_pi_main.c 2 files changed, 357 insertions(+), 0 deletions(-)
Approvals: build bot (Jenkins): Verified Yu-Ping Wu: Looks good to me, approved
diff --git a/src/soc/mediatek/mt8192/dramc_pi_basic_api.c b/src/soc/mediatek/mt8192/dramc_pi_basic_api.c index 173edf4..af1410b 100644 --- a/src/soc/mediatek/mt8192/dramc_pi_basic_api.c +++ b/src/soc/mediatek/mt8192/dramc_pi_basic_api.c @@ -4035,6 +4035,55 @@ dramc_set_broadcast(bc_bak); }
+static void move_dramc_delay(const struct ddr_cali *cali, reg_transfer *ui, + reg_transfer *mck, s8 shift_ui) +{ + s32 sum; + u8 ui_offset = ui->offset, ui_width = 4, mck_offset = mck->offset, mck_width = 3; + u32 *ui_reg = ui->addr, *mck_reg = mck->addr; + + u32 tmp_ui, tmp_mck, ui_mask, mck_mask; + u8 div_shift = get_mck2ui_div_shift(cali); + + ui_mask = BIT(ui_width) - 1; + mck_mask = BIT(mck_width) - 1; + tmp_ui = ((read32(ui_reg) >> ui_offset) & ui_mask) & ~(1 << div_shift); + tmp_mck = (read32(mck_reg) >> mck_offset) & mck_mask; + + sum = (tmp_mck << div_shift) + tmp_ui + shift_ui; + + if (sum < 0) { + tmp_ui = 0; + tmp_mck = 0; + } else { + tmp_mck = sum >> div_shift; + tmp_ui = sum - (tmp_mck << div_shift); + } + + clrsetbits32(ui_reg, ui_mask << ui_offset, tmp_ui << ui_offset); + clrsetbits32(mck_reg, mck_mask << mck_offset, tmp_mck << mck_offset); +} + +void shift_dq_ui(const struct ddr_cali *cali, u8 rk, s8 shift_ui) +{ + u8 chn = cali->chn; + reg_transfer ui_regs[] = { + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq3, 0}, + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq3, 4}, + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq2, 0}, + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq2, 4} + }; + reg_transfer mck_regs[] = { + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq1, 0}, + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq1, 4}, + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq0, 0}, + {&ch[chn].ao.shu_rk[rk].shurk_selph_dq0, 4} + }; + + for (int idx = 0; idx < ARRAY_SIZE(ui_regs); idx++) + move_dramc_delay(cali, &ui_regs[idx], &mck_regs[idx], shift_ui); +} + static void ddr_update_ac_timing(const struct ddr_cali *cali) { u8 table_idx; @@ -4412,3 +4461,251 @@ dramc_init(cali); dramc_before_calibration(cali); } + +void tx_picg_setting(const struct ddr_cali *cali) +{ + u32 dqs_oen_final, dq_oen_final; + u16 dqs_oen_2t[2], dqs_oen_05t[2], dqs_oen_delay[2]; + u16 dq_oen_2t[2], dq_oen_05t[2], dq_oen_delay[2]; + u16 comb_tx_sel[2]; + u16 shift_dqs_div[2], shift_dq_div[2]; + u16 comb_tx_picg_cnt; + u8 div_ratio; + + comb_tx_picg_cnt = 3; + if (get_div_mode(cali) == DIV8_MODE) { + shift_dqs_div[0] = 10; + shift_dqs_div[1] = 6; + shift_dq_div[0] = 8; + shift_dq_div[1] = 4; + div_ratio = 3; + } else { + shift_dqs_div[0] = 2; + shift_dqs_div[1] = 0; + shift_dq_div[0] = 0; + shift_dq_div[1] = 0; + div_ratio = 2; + } + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) { + struct dramc_ao_regs *dramc_ao = &ch[chn].ao; + + dqs_oen_2t[0] = READ32_BITFIELD(&dramc_ao->shu_selph_dqs0, + SHU_SELPH_DQS0_TXDLY_OEN_DQS0); + dqs_oen_05t[0] = READ32_BITFIELD(&dramc_ao->shu_selph_dqs1, + SHU_SELPH_DQS1_DLY_OEN_DQS0); + dqs_oen_delay[0] = (dqs_oen_2t[0] << div_ratio) + dqs_oen_05t[0]; + dqs_oen_2t[1] = READ32_BITFIELD(&dramc_ao->shu_selph_dqs0, + SHU_SELPH_DQS0_TXDLY_OEN_DQS1); + dqs_oen_05t[1] = READ32_BITFIELD(&dramc_ao->shu_selph_dqs1, + SHU_SELPH_DQS1_DLY_OEN_DQS1); + dqs_oen_delay[1] = (dqs_oen_2t[1] << div_ratio) + dqs_oen_05t[1]; + + dqs_oen_final = MIN(dqs_oen_delay[0], dqs_oen_delay[1]) + 1; + + comb_tx_sel[0] = (dqs_oen_final > shift_dqs_div[0]) ? + ((dqs_oen_final - shift_dqs_div[0]) >> div_ratio) : 0; + + if (get_div_mode(cali) == DIV4_MODE) + comb_tx_sel[1] = 0; + else + comb_tx_sel[1] = (dqs_oen_final > shift_dqs_div[1]) ? + ((dqs_oen_final - shift_dqs_div[1]) >> div_ratio) : 0; + + SET32_BITFIELDS(&dramc_ao->shu_aphy_tx_picg_ctrl, + SHU_APHY_TX_PICG_CTRL_TX_DQS_SEL_P0, comb_tx_sel[0], + SHU_APHY_TX_PICG_CTRL_TX_DQS_SEL_P1, comb_tx_sel[1], + SHU_APHY_TX_PICG_CTRL_TX_PICG_CNT, comb_tx_picg_cnt); + for (int rk = RANK_0; rk < cali->support_ranks; rk++) { + dq_oen_2t[0] = READ32_BITFIELD(&dramc_ao->shu_rk[rk].shurk_selph_dq0, + SHURK_SELPH_DQ0_TXDLY_OEN_DQ0); + dq_oen_05t[0] = READ32_BITFIELD(&dramc_ao->shu_rk[rk].shurk_selph_dq2, + SHURK_SELPH_DQ2_DLY_OEN_DQ0); + dq_oen_delay[0] = (dq_oen_2t[0] << div_ratio) + dq_oen_05t[0]; + dq_oen_2t[1] = READ32_BITFIELD(&dramc_ao->shu_rk[rk].shurk_selph_dq0, + SHURK_SELPH_DQ0_TXDLY_OEN_DQ1); + dq_oen_05t[1] = READ32_BITFIELD(&dramc_ao->shu_rk[rk].shurk_selph_dq2, + SHURK_SELPH_DQ2_DLY_OEN_DQ1); + dq_oen_delay[1] = (dq_oen_2t[1] << div_ratio) + dq_oen_05t[1]; + + dq_oen_final = MIN(dq_oen_delay[0], dq_oen_delay[1]) + 1; + + comb_tx_sel[0] = (dq_oen_final > shift_dq_div[0]) ? + ((dq_oen_final - shift_dq_div[0]) >> div_ratio) : 0; + + if (get_div_mode(cali) == DIV4_MODE) + comb_tx_sel[1] = 0; + else + comb_tx_sel[1] = (dq_oen_final > shift_dq_div[1]) ? + ((dq_oen_final - shift_dq_div[1]) >> div_ratio) : 0; + + SET32_BITFIELDS(&dramc_ao->shu_rk[rk].shurk_aphy_tx_picg_ctrl, + SHURK_APHY_TX_PICG_CTRL_TX_DQ_RK_SEL_P0, comb_tx_sel[0], + SHURK_APHY_TX_PICG_CTRL_TX_DQ_RK_SEL_P1, comb_tx_sel[1]); + } + } +} + +void xrtrtr_shu_setting(const struct ddr_cali *cali) +{ + const dram_freq_grp freq_group = get_freq_group(cali); + u8 rk_sel_ui_minus = 0, rk_sel_mck_minus = 0; + + if (freq_group == DDRFREQ_400) + rk_sel_mck_minus = 1; + else if (freq_group >= DDRFREQ_1600) + rk_sel_ui_minus = 2; + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + SET32_BITFIELDS(&ch[chn].phy_ao.shu_misc_rank_sel_stb, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_MCK_MINUS, rk_sel_mck_minus, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_UI_MINUS, rk_sel_ui_minus, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_MCK_PLUS, 0x0, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_UI_PLUS, 0x0, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_PHASE_EN, 0x0, + SHU_MISC_RANK_SEL_STB_RANK_SEL_RXDLY_TRACK, 0x0, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_TRACK, 0x1, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_SERMODE, 0x0, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_EN_B23, 0x0, + SHU_MISC_RANK_SEL_STB_RANK_SEL_STB_EN, 0x1); +} + +void freq_jump_ratio_calculation(const struct ddr_cali *cali) +{ + u32 src_freq, dst_freq, src_shu, dst_shu, jump_ratio_index; + u16 jump_ratio[DRAM_DFS_SHU_MAX] = {0}; + + jump_ratio_index = 0; + src_freq = get_frequency(cali); + src_shu = get_shu(cali); + + if (get_freq_group_by_shu_save(src_shu) != DDRFREQ_400) { + for (dst_shu = DRAM_DFS_SHU0; dst_shu < DRAM_DFS_SHU_MAX; dst_shu++) { + dst_freq = get_frequency_by_shu(dst_shu); + jump_ratio[jump_ratio_index] = + DIV_ROUND_CLOSEST(dst_freq * 32, src_freq); + + dramc_dbg("Jump ratio [%u]: %#x Freq %d -> %d, DDR%u -> DDR%u\n", + jump_ratio_index, jump_ratio[jump_ratio_index], + src_shu, dst_shu, src_freq << 1, dst_freq << 1); + jump_ratio_index++; + } + } + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) { + SET32_BITFIELDS(&ch[chn].ao.shu_freq_ratio_set0, + SHU_FREQ_RATIO_SET0_TDQSCK_JUMP_RATIO0, jump_ratio[0], + SHU_FREQ_RATIO_SET0_TDQSCK_JUMP_RATIO1, jump_ratio[1], + SHU_FREQ_RATIO_SET0_TDQSCK_JUMP_RATIO2, jump_ratio[2], + SHU_FREQ_RATIO_SET0_TDQSCK_JUMP_RATIO3, jump_ratio[3]); + SET32_BITFIELDS(&ch[chn].ao.shu_freq_ratio_set1, + SHU_FREQ_RATIO_SET1_TDQSCK_JUMP_RATIO4, jump_ratio[4], + SHU_FREQ_RATIO_SET1_TDQSCK_JUMP_RATIO5, jump_ratio[5], + SHU_FREQ_RATIO_SET1_TDQSCK_JUMP_RATIO6, jump_ratio[6]); + } +} + +void dramc_hmr4_presetting(const struct ddr_cali *cali) +{ + for (u8 chn = CHANNEL_A; chn < CHANNEL_MAX; chn++) { + SET32_BITFIELDS(&ch[chn].ao.hmr4, HMR4_REFR_PERIOD_OPT, 1); + SET32_BITFIELDS(&ch[chn].ao.hmr4, HMR4_REFRCNT_OPT, 0); + SET32_BITFIELDS(&ch[chn].ao.shu_hmr4_dvfs_ctrl0, + SHU_HMR4_DVFS_CTRL0_REFRCNT, 0x80); + + if (get_cbt_mode(cali) == CBT_BYTE_MODE1) + SET32_BITFIELDS(&ch[chn].ao.hmr4, HMR4_HMR4_BYTEMODE_EN, 1); + else + SET32_BITFIELDS(&ch[chn].ao.hmr4, HMR4_HMR4_BYTEMODE_EN, 0); + + SET32_BITFIELDS(&ch[chn].ao.refctrl1, REFCTRL1_REFRATE_MON_CLR, 0); + SET32_BITFIELDS(&ch[chn].ao.refctrl1, REFCTRL1_REFRATE_MON_CLR, 1); + SET32_BITFIELDS(&ch[chn].ao.refctrl1, REFCTRL1_REFRATE_MON_CLR, 0); + } +} + +void dramc_enable_perbank_refresh(bool en) +{ + if (en) { + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) { + SET32_BITFIELDS(&ch[chn].ao.refctrl0, + REFCTRL0_PBREF_BK_REFA_ENA, 1, + REFCTRL0_PBREF_BK_REFA_NUM, 2); + SET32_BITFIELDS(&ch[chn].ao.refctrl0, + REFCTRL0_KEEP_PBREF, 0, + REFCTRL0_KEEP_PBREF_OPT, 1); + SET32_BITFIELDS(&ch[chn].ao.refctrl1, REFCTRL1_REFPB2AB_IGZQCS, 1); + } + } + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + SET32_BITFIELDS(&ch[chn].ao.shu_conf0, SHU_CONF0_PBREFEN, en); +} + +void dramc_modified_refresh_mode(void) +{ + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) { + SET32_BITFIELDS(&ch[chn].ao.refpend1, + REFPEND1_MPENDREFCNT_TH0, 2, + REFPEND1_MPENDREFCNT_TH1, 2, + REFPEND1_MPENDREFCNT_TH2, 4, + REFPEND1_MPENDREFCNT_TH3, 5, + REFPEND1_MPENDREFCNT_TH4, 5, + REFPEND1_MPENDREFCNT_TH5, 3, + REFPEND1_MPENDREFCNT_TH6, 3, + REFPEND1_MPENDREFCNT_TH7, 3); + SET32_BITFIELDS(&ch[chn].ao.refctrl1, + REFCTRL1_REFPEND_OPT1, 1, + REFCTRL1_REFPEND_OPT2, 1); + SET32_BITFIELDS(&ch[chn].ao.shu_ref0, SHU_REF0_MPENDREF_CNT, 4); + } +} + +void dramc_cke_debounce(const struct ddr_cali *cali) +{ + if (get_freq_group(cali) < DDRFREQ_2133) + return; + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + for (u8 rk = 0; rk < cali->support_ranks; rk++) + SET32_BITFIELDS(&ch[chn].ao.shu_rk[rk].shurk_cke_ctrl, + SHURK_CKE_CTRL_CKE_DBE_CNT, 15); +} + +void dramc_hw_dqsosc(const struct ddr_cali *cali, u8 chn) +{ + SET32_BITFIELDS(&ch[chn].ao.tx_freq_ratio_old_mode0, + TX_FREQ_RATIO_OLD_MODE0_SHUFFLE_LEVEL_MODE_SELECT, 1); + SET32_BITFIELDS(&ch[chn].ao.tx_tracking_set0, + TX_TRACKING_SET0_SHU_PRELOAD_TX_HW, 1, + TX_TRACKING_SET0_SHU_PRELOAD_TX_START, 0, + TX_TRACKING_SET0_SW_UP_TX_NOW_CASE, 0); + + SET32_BITFIELDS(&ch[chn].ao.mpc_ctrl, MPC_CTRL_MPC_BLOCKALE_OPT, 1); + SET32_BITFIELDS(&ch[chn].phy_ao.misc_ctrl1, MISC_CTRL1_R_DMARPIDQ_SW, 0); + SET32_BITFIELDS(&ch[chn].ao.dcm_sub_ctrl, DCM_SUB_CTRL_SUBCLK_CTRL_TX_TRACKING, 1); + SET32_BITFIELDS(&ch[chn].ao.dqsoscr, DQSOSCR_ARUIDQ_SW, 1); + SET32_BITFIELDS(&ch[chn].ao.dqsoscr, DQSOSCR_DQSOSCRDIS, 0); + SET32_BITFIELDS(&ch[chn].ao.rk[0].rk_dqsosc, RK_DQSOSC_DQSOSCR_RK0EN, 1); + if (cali->support_ranks == DUAL_RANK_DDR) + SET32_BITFIELDS(&ch[chn].ao.rk[1].rk_dqsosc, RK_DQSOSC_DQSOSCR_RK0EN, 1); + SET32_BITFIELDS(&ch[chn].ao.tx_set0, TX_SET0_DRSCLR_RK0_EN, 1); + SET32_BITFIELDS(&ch[chn].ao.dqsoscr, DQSOSCR_DQSOSC_CALEN, 1); +} + +void apply_write_dbi_power_improve(bool en) +{ + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + SET32_BITFIELDS(&ch[chn].ao.dbiwr_protect, + DBIWR_PROTECT_DBIWR_OPT_B1, 0, + DBIWR_PROTECT_DBIWR_OPT_B0, 0, + DBIWR_PROTECT_DBIWR_PINMUX_EN, 0, + DBIWR_PROTECT_DBIWR_IMP_EN, en); +} + +void dramc_write_dbi_onoff(u8 onoff) +{ + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + SET32_BITFIELDS(&ch[chn].ao.shu_tx_set0, SHU_TX_SET0_DBIWR, onoff); + dramc_info("Dramc Write-DBI: %s\n", (onoff == DBI_ON) ? "on" : "off"); +} diff --git a/src/soc/mediatek/mt8192/dramc_pi_main.c b/src/soc/mediatek/mt8192/dramc_pi_main.c index b4e6e1a..ff2bfc9 100644 --- a/src/soc/mediatek/mt8192/dramc_pi_main.c +++ b/src/soc/mediatek/mt8192/dramc_pi_main.c @@ -6,6 +6,16 @@ #include <soc/pll_common.h> #include <soc/regulator.h>
+static void dramc_write_shift_mck_write_dbi(const struct ddr_cali *cali, s8 shift_value) +{ + u8 div_shift; + s8 ui_move; + + div_shift = get_mck2ui_div_shift(cali); + ui_move = shift_value * (1 << div_shift); + shift_dq_ui(cali, cali->rank, ui_move); +} + static void dramc_ac_timing_optimize(const struct ddr_cali *cali) { u8 rf_group, cab_id; @@ -248,8 +258,57 @@ cali->density = max_density; }
+static void dramc_calibration_single_channel(struct ddr_cali *cali, u8 chn) +{ + cali->chn = chn; + SET32_BITFIELDS(&ch[chn].phy_ao.ca_cmd2, + CA_CMD2_RG_TX_ARCMD_OE_DIS_CA, 0, + CA_CMD2_RG_TX_ARCA_OE_TIE_SEL_CA, 1, + CA_CMD2_RG_TX_ARCA_OE_TIE_EN_CA, 0xff); +} + static void dramc_calibration_all_channels(struct ddr_cali *cali) { + u8 chn_bak, rank_bak; + const dbi_mode w_dbi = get_write_dbi(cali); + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + SET32_BITFIELDS(&ch[chn].phy_ao.ca_cmd2, + CA_CMD2_RG_TX_ARCMD_OE_DIS_CA, 1, + CA_CMD2_RG_TX_ARCA_OE_TIE_SEL_CA, 0, + CA_CMD2_RG_TX_ARCA_OE_TIE_EN_CA, 0xff); + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + dramc_calibration_single_channel(cali, chn); + + if (w_dbi == DBI_ON) { + chn_bak = cali->chn; + rank_bak = cali->rank; + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + for (u8 rank = RANK_0; rank < RANK_MAX; rank++) { + cali->chn = chn; + cali->rank = rank; + dramc_write_shift_mck_write_dbi(cali, -1); + } + cali->chn = chn_bak; + cali->rank = rank_bak; + apply_write_dbi_power_improve(true); + } + + dramc_write_dbi_onoff(w_dbi); + + tx_picg_setting(cali); + if (cali->support_ranks == DUAL_RANK_DDR) + xrtrtr_shu_setting(cali); + freq_jump_ratio_calculation(cali); + + dramc_hmr4_presetting(cali); + dramc_enable_perbank_refresh(true); + dramc_modified_refresh_mode(); + dramc_cke_debounce(cali); + + for (u8 chn = 0; chn < CHANNEL_MAX; chn++) + dramc_hw_dqsosc(cali, chn); }
static void mem_pll_init(void) @@ -328,5 +387,6 @@ dramc_load_shuffle_to_dramc(cali.shu, DRAM_DFS_SHU1);
first_freq_k = false; + dramc_info("Calibration of data rate %u finished\n", get_frequency(&cali) * 2); } }