Commit b1f82cb2 authored by Evan Quan's avatar Evan Quan Committed by Alex Deucher

drm/amd/powerplay: update OD to take voltage value instead of offset

With the latest SMC fw, we are able to get the voltage value for
specific frequency point. So, we update the OD relates to take
absolute voltage instead of offset.
Signed-off-by: default avatarEvan Quan <evan.quan@amd.com>
Acked-by: default avatarAlex Deucher <alexander.deucher@amd.com>
Signed-off-by: default avatarAlex Deucher <alexander.deucher@amd.com>
parent 8a1304a5
......@@ -502,7 +502,7 @@ static ssize_t amdgpu_set_pp_table(struct device *dev,
*
* - maximum memory clock labeled OD_MCLK
*
* - three <frequency, voltage offset> points labeled OD_VDDC_CURVE.
* - three <frequency, voltage> points labeled OD_VDDC_CURVE.
* They can be used to calibrate the sclk voltage curve.
*
* - a list of valid ranges for sclk, mclk, and voltage curve points
......@@ -519,11 +519,11 @@ static ssize_t amdgpu_set_pp_table(struct device *dev,
* "m 1 800" will update maximum mclk to be 800Mhz.
*
* For sclk voltage curve, enter the new values by writing a
* string that contains "vc point clock voff" to the file. The
* points are indexed by 0, 1 and 2. E.g., "vc 0 300 10" will
* update point1 with clock set as 300Mhz and voltage increased
* by 10mV. "vc 2 1000 -10" will update point3 with clock set
* as 1000Mhz and voltage drop by 10mV.
* string that contains "vc point clock voltage" to the file. The
* points are indexed by 0, 1 and 2. E.g., "vc 0 300 600" will
* update point1 with clock set as 300Mhz and voltage as
* 600mV. "vc 2 1000 1000" will update point3 with clock set
* as 1000Mhz and voltage 1000mV.
*
* - When you have edited all of the states as needed, write "c" (commit)
* to the file to commit your changes
......
......@@ -1001,6 +1001,26 @@ static int vega20_od8_set_feature_id(
return 0;
}
static int vega20_od8_get_gfx_clock_base_voltage(
struct pp_hwmgr *hwmgr,
uint32_t *voltage,
uint32_t freq)
{
int ret = 0;
ret = smum_send_msg_to_smc_with_parameter(hwmgr,
PPSMC_MSG_GetAVFSVoltageByDpm,
((AVFS_CURVE << 24) | (OD8_HOTCURVE_TEMPERATURE << 16) | freq));
PP_ASSERT_WITH_CODE(!ret,
"[GetBaseVoltage] failed to get GFXCLK AVFS voltage from SMU!",
return ret);
vega20_read_arg_from_smc(hwmgr, voltage);
*voltage = *voltage / VOLTAGE_SCALE;
return 0;
}
static int vega20_od8_initialize_default_settings(
struct pp_hwmgr *hwmgr)
{
......@@ -1036,18 +1056,41 @@ static int vega20_od8_initialize_default_settings(
}
if (od8_settings->overdrive8_capabilities & OD8_GFXCLK_CURVE) {
od_table->GfxclkFreq1 = od_table->GfxclkFmin;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_FREQ1].default_value =
od_table->GfxclkFreq1;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE1].default_value =
od_table->GfxclkOffsetVolt1;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_FREQ2].default_value =
od_table->GfxclkFreq2;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE2].default_value =
od_table->GfxclkOffsetVolt2;
od_table->GfxclkFreq3 = od_table->GfxclkFmax;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_FREQ3].default_value =
od_table->GfxclkFreq3;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE3].default_value =
od_table->GfxclkOffsetVolt3;
od_table->GfxclkFreq2 = (od_table->GfxclkFreq1 + od_table->GfxclkFreq3) / 2;
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_FREQ2].default_value =
od_table->GfxclkFreq2;
PP_ASSERT_WITH_CODE(!vega20_od8_get_gfx_clock_base_voltage(hwmgr,
&(od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE1].default_value),
od_table->GfxclkFreq1),
"[PhwVega20_OD8_InitializeDefaultSettings] Failed to get Base clock voltage from SMU!",
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE1].default_value = 0);
od_table->GfxclkVolt1 = od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE1].default_value
* VOLTAGE_SCALE;
PP_ASSERT_WITH_CODE(!vega20_od8_get_gfx_clock_base_voltage(hwmgr,
&(od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE2].default_value),
od_table->GfxclkFreq2),
"[PhwVega20_OD8_InitializeDefaultSettings] Failed to get Base clock voltage from SMU!",
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE2].default_value = 0);
od_table->GfxclkVolt2 = od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE2].default_value
* VOLTAGE_SCALE;
PP_ASSERT_WITH_CODE(!vega20_od8_get_gfx_clock_base_voltage(hwmgr,
&(od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE3].default_value),
od_table->GfxclkFreq3),
"[PhwVega20_OD8_InitializeDefaultSettings] Failed to get Base clock voltage from SMU!",
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE3].default_value = 0);
od_table->GfxclkVolt3 = od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_VOLTAGE3].default_value
* VOLTAGE_SCALE;
} else {
od8_settings->od8_settings_array[OD8_SETTING_GFXCLK_FREQ1].default_value =
0;
......@@ -1086,7 +1129,7 @@ static int vega20_od8_initialize_default_settings(
if (od8_settings->overdrive8_capabilities & OD8_FAN_SPEED_MIN)
od8_settings->od8_settings_array[OD8_SETTING_FAN_MIN_SPEED].default_value =
od_table->FanMinimumPwm;
od_table->FanMinimumPwm * data->smc_state_table.pp_table.FanMaximumRpm / 100;
else
od8_settings->od8_settings_array[OD8_SETTING_FAN_MIN_SPEED].default_value =
0;
......@@ -1123,6 +1166,11 @@ static int vega20_od8_initialize_default_settings(
}
}
ret = vega20_copy_table_to_smc(hwmgr, (uint8_t *)od_table, TABLE_OVERDRIVE);
PP_ASSERT_WITH_CODE(!ret,
"Failed to import over drive table!",
return ret);
return 0;
}
......@@ -1150,19 +1198,19 @@ static int vega20_od8_set_settings(
od_table.GfxclkFreq1 = (uint16_t)value;
break;
case OD8_SETTING_GFXCLK_VOLTAGE1:
od_table.GfxclkOffsetVolt1 = (uint16_t)value;
od_table.GfxclkVolt1 = (uint16_t)value;
break;
case OD8_SETTING_GFXCLK_FREQ2:
od_table.GfxclkFreq2 = (uint16_t)value;
break;
case OD8_SETTING_GFXCLK_VOLTAGE2:
od_table.GfxclkOffsetVolt2 = (uint16_t)value;
od_table.GfxclkVolt2 = (uint16_t)value;
break;
case OD8_SETTING_GFXCLK_FREQ3:
od_table.GfxclkFreq3 = (uint16_t)value;
break;
case OD8_SETTING_GFXCLK_VOLTAGE3:
od_table.GfxclkOffsetVolt3 = (uint16_t)value;
od_table.GfxclkVolt3 = (uint16_t)value;
break;
case OD8_SETTING_UCLK_FMAX:
od_table.UclkFmax = (uint16_t)value;
......@@ -2364,6 +2412,7 @@ static int vega20_odn_edit_dpm_table(struct pp_hwmgr *hwmgr,
&(data->smc_state_table.overdrive_table);
struct pp_clock_levels_with_latency clocks;
int32_t input_index, input_clk, input_vol, i;
int od8_id;
int ret;
PP_ASSERT_WITH_CODE(input, "NULL user input for clock and voltage",
......@@ -2480,37 +2529,38 @@ static int vega20_odn_edit_dpm_table(struct pp_hwmgr *hwmgr,
return -EINVAL;
}
if (input_clk < od8_settings[OD8_SETTING_GFXCLK_FMIN].min_value ||
input_clk > od8_settings[OD8_SETTING_GFXCLK_FMAX].max_value) {
od8_id = OD8_SETTING_GFXCLK_FREQ1 + 2 * input_index;
if (input_clk < od8_settings[od8_id].min_value ||
input_clk > od8_settings[od8_id].max_value) {
pr_info("clock freq %d is not within allowed range [%d - %d]\n",
input_clk,
od8_settings[OD8_SETTING_GFXCLK_FMIN].min_value,
od8_settings[OD8_SETTING_GFXCLK_FMAX].max_value);
od8_settings[od8_id].min_value,
od8_settings[od8_id].max_value);
return -EINVAL;
}
/* TODO: suppose voltage1/2/3 has the same min/max value */
if (input_vol < od8_settings[OD8_SETTING_GFXCLK_VOLTAGE1].min_value ||
input_vol > od8_settings[OD8_SETTING_GFXCLK_VOLTAGE1].max_value) {
pr_info("clock voltage offset %d is not within allowed range [%d - %d]\n",
od8_id = OD8_SETTING_GFXCLK_VOLTAGE1 + 2 * input_index;
if (input_vol < od8_settings[od8_id].min_value ||
input_vol > od8_settings[od8_id].max_value) {
pr_info("clock voltage %d is not within allowed range [%d - %d]\n",
input_vol,
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE1].min_value,
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE1].max_value);
od8_settings[od8_id].min_value,
od8_settings[od8_id].max_value);
return -EINVAL;
}
switch (input_index) {
case 0:
od_table->GfxclkFreq1 = input_clk;
od_table->GfxclkOffsetVolt1 = input_vol;
od_table->GfxclkVolt1 = input_vol * VOLTAGE_SCALE;
break;
case 1:
od_table->GfxclkFreq2 = input_clk;
od_table->GfxclkOffsetVolt2 = input_vol;
od_table->GfxclkVolt2 = input_vol * VOLTAGE_SCALE;
break;
case 2:
od_table->GfxclkFreq3 = input_clk;
od_table->GfxclkOffsetVolt3 = input_vol;
od_table->GfxclkVolt3 = input_vol * VOLTAGE_SCALE;
break;
}
}
......@@ -2623,13 +2673,13 @@ static int vega20_print_clock_levels(struct pp_hwmgr *hwmgr,
size = sprintf(buf, "%s:\n", "OD_VDDC_CURVE");
size += sprintf(buf + size, "0: %10uMhz %10dmV\n",
od_table->GfxclkFreq1,
od_table->GfxclkOffsetVolt1);
od_table->GfxclkVolt1 / VOLTAGE_SCALE);
size += sprintf(buf + size, "1: %10uMhz %10dmV\n",
od_table->GfxclkFreq2,
od_table->GfxclkOffsetVolt2);
od_table->GfxclkVolt2 / VOLTAGE_SCALE);
size += sprintf(buf + size, "2: %10uMhz %10dmV\n",
od_table->GfxclkFreq3,
od_table->GfxclkOffsetVolt3);
od_table->GfxclkVolt3 / VOLTAGE_SCALE);
}
break;
......@@ -2664,19 +2714,19 @@ static int vega20_print_clock_levels(struct pp_hwmgr *hwmgr,
size += sprintf(buf + size, "VDDC_CURVE_SCLK[0]: %7uMhz %10uMhz\n",
od8_settings[OD8_SETTING_GFXCLK_FREQ1].min_value,
od8_settings[OD8_SETTING_GFXCLK_FREQ1].max_value);
size += sprintf(buf + size, "VDDC_CURVE_VOFF[0]: %7dmV %11dmV\n",
size += sprintf(buf + size, "VDDC_CURVE_VOLT[0]: %7dmV %11dmV\n",
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE1].min_value,
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE1].max_value);
size += sprintf(buf + size, "VDDC_CURVE_SCLK[1]: %7uMhz %10uMhz\n",
od8_settings[OD8_SETTING_GFXCLK_FREQ2].min_value,
od8_settings[OD8_SETTING_GFXCLK_FREQ2].max_value);
size += sprintf(buf + size, "VDDC_CURVE_VOFF[1]: %7dmV %11dmV\n",
size += sprintf(buf + size, "VDDC_CURVE_VOLT[1]: %7dmV %11dmV\n",
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE2].min_value,
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE2].max_value);
size += sprintf(buf + size, "VDDC_CURVE_SCLK[2]: %7uMhz %10uMhz\n",
od8_settings[OD8_SETTING_GFXCLK_FREQ3].min_value,
od8_settings[OD8_SETTING_GFXCLK_FREQ3].max_value);
size += sprintf(buf + size, "VDDC_CURVE_VOFF[2]: %7dmV %11dmV\n",
size += sprintf(buf + size, "VDDC_CURVE_VOLT[2]: %7dmV %11dmV\n",
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE3].min_value,
od8_settings[OD8_SETTING_GFXCLK_VOLTAGE3].max_value);
}
......
......@@ -38,6 +38,10 @@
#define VG20_PSUEDO_NUM_DCEFCLK_DPM_LEVELS 8
#define VG20_PSUEDO_NUM_UCLK_DPM_LEVELS 4
//OverDriver8 macro defs
#define AVFS_CURVE 0
#define OD8_HOTCURVE_TEMPERATURE 85
typedef uint32_t PP_Clock;
enum {
......
......@@ -569,11 +569,11 @@ typedef struct {
uint16_t GfxclkFmin;
uint16_t GfxclkFmax;
uint16_t GfxclkFreq1;
int16_t GfxclkOffsetVolt1;
uint16_t GfxclkVolt1;
uint16_t GfxclkFreq2;
int16_t GfxclkOffsetVolt2;
uint16_t GfxclkVolt2;
uint16_t GfxclkFreq3;
int16_t GfxclkOffsetVolt3;
uint16_t GfxclkVolt3;
uint16_t UclkFmax;
int16_t OverDrivePct;
uint16_t FanMaximumRpm;
......
......@@ -117,7 +117,8 @@
#define PPSMC_MSG_PrepareMp1ForReset 0x59
#define PPSMC_MSG_PrepareMp1ForShutdown 0x5A
#define PPSMC_MSG_SetMGpuFanBoostLimitRpm 0x5D
#define PPSMC_Message_Count 0x5E
#define PPSMC_MSG_GetAVFSVoltageByDpm 0x5F
#define PPSMC_Message_Count 0x60
typedef uint32_t PPSMC_Result;
typedef uint32_t PPSMC_Msg;
......
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