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https://github.com/CTCaer/hekate.git
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minerva: make is_pllmb and fsp automatic
No need to keep these values around. Software will automatically check the proper registers to get status.
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d1c0d464dc
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@ -34,8 +34,6 @@
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#define PERF_HACK
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bool emc_2X_clk_src_is_pllmb;
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bool fsp_for_src_freq;
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bool train_ram_patterns;
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/*
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@ -1182,7 +1180,7 @@ out:
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return mr4_0;
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}
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static u32 _pllm_clk_base_cfg(u32 rate_KHz, u32 clk_src_emc, bool emc_2X_clk_src_is_PLLMB)
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static u32 _pllm_clk_base_cfg(u32 rate_KHz, u32 clk_src_emc, bool new_src_is_PLLMB)
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{
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u32 dividers = 0;
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u32 i = 0;
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@ -1200,7 +1198,7 @@ static u32 _pllm_clk_base_cfg(u32 rate_KHz, u32 clk_src_emc, bool emc_2X_clk_src
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if (pllm_clk_config->pll_osc_in)
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{
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dividers = pllm_clk_config->pll_input_div | (pllm_clk_config->pll_feedback_div << 8) | ((pllm_clk_config->pll_post_div & 0x1F) << 20);
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if (emc_2X_clk_src_is_PLLMB)
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if (new_src_is_PLLMB)
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{
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CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) = dividers;
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CLOCK(CLK_RST_CONTROLLER_PLLMB_BASE) |= PLLM_ENABLE;
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@ -2561,8 +2559,8 @@ static u32 _minerva_set_clock(emc_table_t *src_emc_entry, emc_table_t *dst_emc_e
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u32 ramp_up_wait;
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u32 ramp_down_wait;
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u32 bg_regulator_mode_change;
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u32 mr13_flip_fspop = 0;
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u32 mr13_flip_fspwr = 0;
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u32 mr13_flip_fspop;
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u32 mr13_flip_fspwr;
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u32 mr13_catr_enable;
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/* needs_training flags */
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@ -2604,7 +2602,8 @@ static u32 _minerva_set_clock(emc_table_t *src_emc_entry, emc_table_t *dst_emc_e
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u32 src_clock_period = 1000000000 / src_emc_entry->rate_khz; // In picoseconds.
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u32 dst_clock_period = 1000000000 / dst_emc_entry->rate_khz; // In picoseconds.
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fsp_for_src_freq = !fsp_for_src_freq;
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// Get current FSP op/write value.
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bool enable_fsp_opwr = !(EMC(EMC_MRW3) & 0xC0);
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if (dram_type != DRAM_TYPE_LPDDR4)
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{
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@ -2834,7 +2833,7 @@ static u32 _minerva_set_clock(emc_table_t *src_emc_entry, emc_table_t *dst_emc_e
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// Step 7.2 - Program FSP reference registers and send MRWs to new FSPWR.
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EPRINTF("Step 7.2");
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if (fsp_for_src_freq)
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if (enable_fsp_opwr)
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{
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mr13_flip_fspop = dst_emc_entry->emc_mrw3 | 0xC0;
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mr13_flip_fspwr = (dst_emc_entry->emc_mrw3 & 0xFFFFFF3F) | 0x40;
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@ -3499,13 +3498,10 @@ static u32 _minerva_set_clock(emc_table_t *src_emc_entry, emc_table_t *dst_emc_e
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EMC(EMC_PMACRO_TRAINING_CTRL_1) = CH0_TRAINING_E_WRPTR;
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EMC(EMC_PMACRO_CFG_PM_GLOBAL_0) = 0;
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// Step 30 - Re-enable autocal and Restore FSP to account for switch back (training).
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// Step 30 - Re-enable autocal.
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EPRINTF("Step 30");
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if (needs_tristate_training)
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{
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EMC(EMC_AUTO_CAL_CONFIG) = src_emc_entry->emc_auto_cal_config;
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fsp_for_src_freq = !fsp_for_src_freq;
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}
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else
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{
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if (dst_emc_entry->burst_regs.emc_cfg_dig_dll_idx & 1)
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@ -3734,8 +3730,9 @@ static u32 _minerva_set_rate(mtc_config_t *mtc_cfg)
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u32 src_emc_entry_idx = 999;
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u32 dst_emc_entry_idx = 999;
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u32 selected_clk_src_emc;
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u32 selected_emc_2x_clk_src;
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u32 emc_clk_src;
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bool freq_changed = false;
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bool src_is_pllmb;
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emc_table_t *src_emc_entry;
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emc_table_t *dst_emc_entry;
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@ -3768,32 +3765,34 @@ static u32 _minerva_set_rate(mtc_config_t *mtc_cfg)
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freq_changed = _check_freq_changed(dst_rate_khz, dst_clk_src_emc, src_rate_khz, src_clk_src_emc);
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EPRINTFARGS("Requested freq change from %d to %d.", src_rate_khz, dst_rate_khz);
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// Get current clock source.
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emc_clk_src = CLOCK(CLK_RST_CONTROLLER_CLK_SOURCE_EMC) >> EMC_2X_CLK_SRC_SHIFT;
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src_is_pllmb = emc_clk_src == PLLMB_UD || emc_clk_src == PLLMB_OUT0;
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if (freq_changed)
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{
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selected_emc_2x_clk_src = src_clk_src_emc >> EMC_2X_CLK_SRC_SHIFT;
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if (selected_emc_2x_clk_src & 3)
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if (emc_clk_src == PLLM_UD ||
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emc_clk_src == PLLM_OUT0) // Clock source is PLLM. Switch based on src_is_pllmb.
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{
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if (selected_emc_2x_clk_src - PLLMB_UD <= 1)
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emc_2X_clk_src_is_pllmb = 0;
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src_is_pllmb = !src_is_pllmb;
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}
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else
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else if (emc_clk_src == PLLMB_UD ||
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emc_clk_src == PLLMB_OUT0) // Clock source is PLLMB. Switch to PLLM.
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{
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emc_2X_clk_src_is_pllmb = !emc_2X_clk_src_is_pllmb;
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src_is_pllmb = false;
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}
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selected_clk_src_emc = _pllm_clk_base_cfg(dst_rate_khz, dst_clk_src_emc, emc_2X_clk_src_is_pllmb);
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selected_clk_src_emc = _pllm_clk_base_cfg(dst_rate_khz, dst_clk_src_emc, src_is_pllmb);
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}
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else
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{
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selected_clk_src_emc = dst_clk_src_emc;
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selected_emc_2x_clk_src = selected_clk_src_emc >> EMC_2X_CLK_SRC_SHIFT;
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if (selected_emc_2x_clk_src != PLLMB_OUT0 && selected_emc_2x_clk_src)
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emc_clk_src = selected_clk_src_emc >> EMC_2X_CLK_SRC_SHIFT;
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if (src_is_pllmb)
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{
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if (selected_emc_2x_clk_src - PLLM_UD <= PLLC_OUT0 && emc_2X_clk_src_is_pllmb)
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if (emc_clk_src == PLLM_UD || emc_clk_src == PLLMB_UD)
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selected_clk_src_emc = (selected_clk_src_emc & 0x1FFFFFFF) | (PLLMB_UD << EMC_2X_CLK_SRC_SHIFT);
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}
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else if (emc_2X_clk_src_is_pllmb)
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{
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selected_clk_src_emc = (selected_clk_src_emc & 0x1FFFFFFF) | (PLLMB_OUT0 << EMC_2X_CLK_SRC_SHIFT);
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else if (emc_clk_src == PLLM_OUT0 || emc_clk_src == PLLMB_OUT0)
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selected_clk_src_emc = (selected_clk_src_emc & 0x1FFFFFFF) | (PLLMB_OUT0 << EMC_2X_CLK_SRC_SHIFT);
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}
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}
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@ -3808,8 +3807,6 @@ static u32 _minerva_set_rate(mtc_config_t *mtc_cfg)
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return 0;
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case OP_TRAIN:
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_minerva_train_patterns(src_emc_entry, dst_emc_entry, false, selected_clk_src_emc);
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if (freq_changed)
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emc_2X_clk_src_is_pllmb = !emc_2X_clk_src_is_pllmb;
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return 0;
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case OP_TRAIN_SWITCH:
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_minerva_train_patterns(src_emc_entry, dst_emc_entry, true, selected_clk_src_emc);
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@ -3847,8 +3844,6 @@ static void _minerva_get_table(mtc_config_t *mtc_cfg)
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mtc_cfg->current_emc_table = NULL;
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// Important!
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mtc_cfg->emc_2X_clk_src_is_pllmb = false;
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mtc_cfg->fsp_for_src_freq = false;
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mtc_cfg->train_ram_patterns = true;
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mtc_cfg->init_done = MTC_INIT_MAGIC;
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}
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@ -3858,8 +3853,6 @@ void _minerva_init(mtc_config_t *mtc_cfg, bdkParams_t bp)
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EPRINTF("-- Minerva Training Cell --");
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train_ram_patterns = mtc_cfg->train_ram_patterns;
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fsp_for_src_freq = mtc_cfg->fsp_for_src_freq;
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emc_2X_clk_src_is_pllmb = mtc_cfg->emc_2X_clk_src_is_pllmb;
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if (mtc_cfg->init_done != MTC_INIT_MAGIC)
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{
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@ -3919,6 +3912,4 @@ void _minerva_init(mtc_config_t *mtc_cfg, bdkParams_t bp)
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#endif
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mtc_cfg->train_ram_patterns = train_ram_patterns;
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mtc_cfg->fsp_for_src_freq = fsp_for_src_freq;
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mtc_cfg->emc_2X_clk_src_is_pllmb = emc_2X_clk_src_is_pllmb;
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}
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@ -20,6 +20,7 @@
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#define NULL ((void *)0)
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#define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1))
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#define BIT(n) (1U << (n))
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#define MAX(a, b) ((a) > (b) ? (a) : (b))
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#define MIN(a, b) ((a) < (b) ? (a) : (b))
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