Commit 3c3abac6 authored by Alex Deucher's avatar Alex Deucher

drm/amd/display: reduce stack for dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport

Move stack variables to dummy structure.
Reviewed-by: default avatarRodrigo Siqueira <Rodrigo.Siqueira@amd.com>
Signed-off-by: default avatarAlex Deucher <alexander.deucher@amd.com>
Cc: Stephen Rothwell <sfr@canb.auug.org.au>
parent c3b3f9ba
......@@ -1165,6 +1165,7 @@ static void DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerforman
v->dummy_vars.DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerformanceCalculation.mmSOCParameters.SMNLatency = mode_lib->vba.SMNLatency;
dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
&v->dummy_vars.dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport,
mode_lib->vba.USRRetrainingRequiredFinal,
mode_lib->vba.UsesMALLForPStateChange,
mode_lib->vba.PrefetchModePerState[mode_lib->vba.VoltageLevel][mode_lib->vba.maxMpcComb],
......@@ -3493,6 +3494,7 @@ void dml32_ModeSupportAndSystemConfigurationFull(struct display_mode_lib *mode_l
{
dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
&v->dummy_vars.dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport,
mode_lib->vba.USRRetrainingRequiredFinal,
mode_lib->vba.UsesMALLForPStateChange,
mode_lib->vba.PrefetchModePerState[i][j],
......
......@@ -4185,6 +4185,7 @@ void dml32_CalculateFlipSchedule(
} // CalculateFlipSchedule
void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
struct dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport *st_vars,
bool USRRetrainingRequiredFinal,
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
unsigned int PrefetchMode,
......@@ -4246,37 +4247,15 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
double ActiveDRAMClockChangeLatencyMargin[])
{
unsigned int i, j, k;
unsigned int SurfaceWithMinActiveFCLKChangeMargin = 0;
unsigned int DRAMClockChangeSupportNumber = 0;
unsigned int LastSurfaceWithoutMargin;
unsigned int DRAMClockChangeMethod = 0;
bool FoundFirstSurfaceWithMinActiveFCLKChangeMargin = false;
double MinActiveFCLKChangeMargin = 0.;
double SecondMinActiveFCLKChangeMarginOneDisplayInVBLank = 0.;
double ActiveClockChangeLatencyHidingY;
double ActiveClockChangeLatencyHidingC;
double ActiveClockChangeLatencyHiding;
double EffectiveDETBufferSizeY;
double ActiveFCLKChangeLatencyMargin[DC__NUM_DPP__MAX];
double USRRetrainingLatencyMargin[DC__NUM_DPP__MAX];
double TotalPixelBW = 0.0;
bool SynchronizedSurfaces[DC__NUM_DPP__MAX][DC__NUM_DPP__MAX];
double EffectiveLBLatencyHidingY;
double EffectiveLBLatencyHidingC;
double LinesInDETY[DC__NUM_DPP__MAX];
double LinesInDETC[DC__NUM_DPP__MAX];
unsigned int LinesInDETYRoundedDownToSwath[DC__NUM_DPP__MAX];
unsigned int LinesInDETCRoundedDownToSwath[DC__NUM_DPP__MAX];
double FullDETBufferingTimeY;
double FullDETBufferingTimeC;
double WritebackDRAMClockChangeLatencyMargin;
double WritebackFCLKChangeLatencyMargin;
double WritebackLatencyHiding;
bool SameTimingForFCLKChange;
unsigned int TotalActiveWriteback = 0;
unsigned int LBLatencyHidingSourceLinesY[DC__NUM_DPP__MAX];
unsigned int LBLatencyHidingSourceLinesC[DC__NUM_DPP__MAX];
st_vars->SurfaceWithMinActiveFCLKChangeMargin = 0;
st_vars->DRAMClockChangeSupportNumber = 0;
st_vars->DRAMClockChangeMethod = 0;
st_vars->FoundFirstSurfaceWithMinActiveFCLKChangeMargin = false;
st_vars->MinActiveFCLKChangeMargin = 0.;
st_vars->SecondMinActiveFCLKChangeMarginOneDisplayInVBLank = 0.;
st_vars->TotalPixelBW = 0.0;
st_vars->TotalActiveWriteback = 0;
Watermark->UrgentWatermark = mmSOCParameters.UrgentLatency + mmSOCParameters.ExtraLatency;
Watermark->USRRetrainingWatermark = mmSOCParameters.UrgentLatency + mmSOCParameters.ExtraLatency
......@@ -4308,13 +4287,13 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
#endif
TotalActiveWriteback = 0;
st_vars->TotalActiveWriteback = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (WritebackEnable[k] == true)
TotalActiveWriteback = TotalActiveWriteback + 1;
st_vars->TotalActiveWriteback = st_vars->TotalActiveWriteback + 1;
}
if (TotalActiveWriteback <= 1) {
if (st_vars->TotalActiveWriteback <= 1) {
Watermark->WritebackUrgentWatermark = mmSOCParameters.WritebackLatency;
} else {
Watermark->WritebackUrgentWatermark = mmSOCParameters.WritebackLatency
......@@ -4324,7 +4303,7 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
Watermark->WritebackUrgentWatermark = Watermark->WritebackUrgentWatermark
+ mmSOCParameters.USRRetrainingLatency;
if (TotalActiveWriteback <= 1) {
if (st_vars->TotalActiveWriteback <= 1) {
Watermark->WritebackDRAMClockChangeWatermark = mmSOCParameters.DRAMClockChangeLatency
+ mmSOCParameters.WritebackLatency;
Watermark->WritebackFCLKChangeWatermark = mmSOCParameters.FCLKChangeLatency
......@@ -4354,14 +4333,14 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
#endif
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
TotalPixelBW = TotalPixelBW + DPPPerSurface[k] * (SwathWidthY[k] * BytePerPixelDETY[k] * VRatio[k] +
st_vars->TotalPixelBW = st_vars->TotalPixelBW + DPPPerSurface[k] * (SwathWidthY[k] * BytePerPixelDETY[k] * VRatio[k] +
SwathWidthC[k] * BytePerPixelDETC[k] * VRatioChroma[k]) / (HTotal[k] / PixelClock[k]);
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
LBLatencyHidingSourceLinesY[k] = dml_min((double) MaxLineBufferLines, dml_floor(LineBufferSize / LBBitPerPixel[k] / (SwathWidthY[k] / dml_max(HRatio[k], 1.0)), 1)) - (VTaps[k] - 1);
LBLatencyHidingSourceLinesC[k] = dml_min((double) MaxLineBufferLines, dml_floor(LineBufferSize / LBBitPerPixel[k] / (SwathWidthC[k] / dml_max(HRatioChroma[k], 1.0)), 1)) - (VTapsChroma[k] - 1);
st_vars->LBLatencyHidingSourceLinesY[k] = dml_min((double) MaxLineBufferLines, dml_floor(LineBufferSize / LBBitPerPixel[k] / (SwathWidthY[k] / dml_max(HRatio[k], 1.0)), 1)) - (VTaps[k] - 1);
st_vars->LBLatencyHidingSourceLinesC[k] = dml_min((double) MaxLineBufferLines, dml_floor(LineBufferSize / LBBitPerPixel[k] / (SwathWidthC[k] / dml_max(HRatioChroma[k], 1.0)), 1)) - (VTapsChroma[k] - 1);
#ifdef __DML_VBA_DEBUG__
......@@ -4372,72 +4351,72 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
dml_print("DML::%s: k=%d, VTaps = %d\n", __func__, k, VTaps[k]);
#endif
EffectiveLBLatencyHidingY = LBLatencyHidingSourceLinesY[k] / VRatio[k] * (HTotal[k] / PixelClock[k]);
EffectiveLBLatencyHidingC = LBLatencyHidingSourceLinesC[k] / VRatioChroma[k] * (HTotal[k] / PixelClock[k]);
EffectiveDETBufferSizeY = DETBufferSizeY[k];
st_vars->EffectiveLBLatencyHidingY = st_vars->LBLatencyHidingSourceLinesY[k] / VRatio[k] * (HTotal[k] / PixelClock[k]);
st_vars->EffectiveLBLatencyHidingC = st_vars->LBLatencyHidingSourceLinesC[k] / VRatioChroma[k] * (HTotal[k] / PixelClock[k]);
st_vars->EffectiveDETBufferSizeY = DETBufferSizeY[k];
if (UnboundedRequestEnabled) {
EffectiveDETBufferSizeY = EffectiveDETBufferSizeY
st_vars->EffectiveDETBufferSizeY = st_vars->EffectiveDETBufferSizeY
+ CompressedBufferSizeInkByte * 1024
* (SwathWidthY[k] * BytePerPixelDETY[k] * VRatio[k])
/ (HTotal[k] / PixelClock[k]) / TotalPixelBW;
/ (HTotal[k] / PixelClock[k]) / st_vars->TotalPixelBW;
}
LinesInDETY[k] = (double) EffectiveDETBufferSizeY / BytePerPixelDETY[k] / SwathWidthY[k];
LinesInDETYRoundedDownToSwath[k] = dml_floor(LinesInDETY[k], SwathHeightY[k]);
FullDETBufferingTimeY = LinesInDETYRoundedDownToSwath[k] * (HTotal[k] / PixelClock[k]) / VRatio[k];
st_vars->LinesInDETY[k] = (double) st_vars->EffectiveDETBufferSizeY / BytePerPixelDETY[k] / SwathWidthY[k];
st_vars->LinesInDETYRoundedDownToSwath[k] = dml_floor(st_vars->LinesInDETY[k], SwathHeightY[k]);
st_vars->FullDETBufferingTimeY = st_vars->LinesInDETYRoundedDownToSwath[k] * (HTotal[k] / PixelClock[k]) / VRatio[k];
ActiveClockChangeLatencyHidingY = EffectiveLBLatencyHidingY + FullDETBufferingTimeY
st_vars->ActiveClockChangeLatencyHidingY = st_vars->EffectiveLBLatencyHidingY + st_vars->FullDETBufferingTimeY
- (DSTXAfterScaler[k] / HTotal[k] + DSTYAfterScaler[k]) * HTotal[k] / PixelClock[k];
if (NumberOfActiveSurfaces > 1) {
ActiveClockChangeLatencyHidingY = ActiveClockChangeLatencyHidingY
st_vars->ActiveClockChangeLatencyHidingY = st_vars->ActiveClockChangeLatencyHidingY
- (1 - 1 / NumberOfActiveSurfaces) * SwathHeightY[k] * HTotal[k]
/ PixelClock[k] / VRatio[k];
}
if (BytePerPixelDETC[k] > 0) {
LinesInDETC[k] = DETBufferSizeC[k] / BytePerPixelDETC[k] / SwathWidthC[k];
LinesInDETCRoundedDownToSwath[k] = dml_floor(LinesInDETC[k], SwathHeightC[k]);
FullDETBufferingTimeC = LinesInDETCRoundedDownToSwath[k] * (HTotal[k] / PixelClock[k])
st_vars->LinesInDETC[k] = DETBufferSizeC[k] / BytePerPixelDETC[k] / SwathWidthC[k];
st_vars->LinesInDETCRoundedDownToSwath[k] = dml_floor(st_vars->LinesInDETC[k], SwathHeightC[k]);
st_vars->FullDETBufferingTimeC = st_vars->LinesInDETCRoundedDownToSwath[k] * (HTotal[k] / PixelClock[k])
/ VRatioChroma[k];
ActiveClockChangeLatencyHidingC = EffectiveLBLatencyHidingC + FullDETBufferingTimeC
st_vars->ActiveClockChangeLatencyHidingC = st_vars->EffectiveLBLatencyHidingC + st_vars->FullDETBufferingTimeC
- (DSTXAfterScaler[k] / HTotal[k] + DSTYAfterScaler[k]) * HTotal[k]
/ PixelClock[k];
if (NumberOfActiveSurfaces > 1) {
ActiveClockChangeLatencyHidingC = ActiveClockChangeLatencyHidingC
st_vars->ActiveClockChangeLatencyHidingC = st_vars->ActiveClockChangeLatencyHidingC
- (1 - 1 / NumberOfActiveSurfaces) * SwathHeightC[k] * HTotal[k]
/ PixelClock[k] / VRatioChroma[k];
}
ActiveClockChangeLatencyHiding = dml_min(ActiveClockChangeLatencyHidingY,
ActiveClockChangeLatencyHidingC);
st_vars->ActiveClockChangeLatencyHiding = dml_min(st_vars->ActiveClockChangeLatencyHidingY,
st_vars->ActiveClockChangeLatencyHidingC);
} else {
ActiveClockChangeLatencyHiding = ActiveClockChangeLatencyHidingY;
st_vars->ActiveClockChangeLatencyHiding = st_vars->ActiveClockChangeLatencyHidingY;
}
ActiveDRAMClockChangeLatencyMargin[k] = ActiveClockChangeLatencyHiding - Watermark->UrgentWatermark
ActiveDRAMClockChangeLatencyMargin[k] = st_vars->ActiveClockChangeLatencyHiding - Watermark->UrgentWatermark
- Watermark->DRAMClockChangeWatermark;
ActiveFCLKChangeLatencyMargin[k] = ActiveClockChangeLatencyHiding - Watermark->UrgentWatermark
st_vars->ActiveFCLKChangeLatencyMargin[k] = st_vars->ActiveClockChangeLatencyHiding - Watermark->UrgentWatermark
- Watermark->FCLKChangeWatermark;
USRRetrainingLatencyMargin[k] = ActiveClockChangeLatencyHiding - Watermark->USRRetrainingWatermark;
st_vars->USRRetrainingLatencyMargin[k] = st_vars->ActiveClockChangeLatencyHiding - Watermark->USRRetrainingWatermark;
if (WritebackEnable[k]) {
WritebackLatencyHiding = WritebackInterfaceBufferSize * 1024
st_vars->WritebackLatencyHiding = WritebackInterfaceBufferSize * 1024
/ (WritebackDestinationWidth[k] * WritebackDestinationHeight[k]
/ (WritebackSourceHeight[k] * HTotal[k] / PixelClock[k]) * 4);
if (WritebackPixelFormat[k] == dm_444_64)
WritebackLatencyHiding = WritebackLatencyHiding / 2;
st_vars->WritebackLatencyHiding = st_vars->WritebackLatencyHiding / 2;
WritebackDRAMClockChangeLatencyMargin = WritebackLatencyHiding
st_vars->WritebackDRAMClockChangeLatencyMargin = st_vars->WritebackLatencyHiding
- Watermark->WritebackDRAMClockChangeWatermark;
WritebackFCLKChangeLatencyMargin = WritebackLatencyHiding
st_vars->WritebackFCLKChangeLatencyMargin = st_vars->WritebackLatencyHiding
- Watermark->WritebackFCLKChangeWatermark;
ActiveDRAMClockChangeLatencyMargin[k] = dml_min(ActiveDRAMClockChangeLatencyMargin[k],
WritebackFCLKChangeLatencyMargin);
ActiveFCLKChangeLatencyMargin[k] = dml_min(ActiveFCLKChangeLatencyMargin[k],
WritebackDRAMClockChangeLatencyMargin);
st_vars->WritebackFCLKChangeLatencyMargin);
st_vars->ActiveFCLKChangeLatencyMargin[k] = dml_min(st_vars->ActiveFCLKChangeLatencyMargin[k],
st_vars->WritebackDRAMClockChangeLatencyMargin);
}
MaxActiveDRAMClockChangeLatencySupported[k] =
(UseMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe) ?
......@@ -4456,41 +4435,41 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
HTotal[i] == HTotal[j] && VTotal[i] == VTotal[j] &&
VActive[i] == VActive[j]) || (SynchronizeDRRDisplaysForUCLKPStateChangeFinal &&
(DRRDisplay[i] || DRRDisplay[j]))) {
SynchronizedSurfaces[i][j] = true;
st_vars->SynchronizedSurfaces[i][j] = true;
} else {
SynchronizedSurfaces[i][j] = false;
st_vars->SynchronizedSurfaces[i][j] = false;
}
}
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if ((UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) &&
(!FoundFirstSurfaceWithMinActiveFCLKChangeMargin ||
ActiveFCLKChangeLatencyMargin[k] < MinActiveFCLKChangeMargin)) {
FoundFirstSurfaceWithMinActiveFCLKChangeMargin = true;
MinActiveFCLKChangeMargin = ActiveFCLKChangeLatencyMargin[k];
SurfaceWithMinActiveFCLKChangeMargin = k;
(!st_vars->FoundFirstSurfaceWithMinActiveFCLKChangeMargin ||
st_vars->ActiveFCLKChangeLatencyMargin[k] < st_vars->MinActiveFCLKChangeMargin)) {
st_vars->FoundFirstSurfaceWithMinActiveFCLKChangeMargin = true;
st_vars->MinActiveFCLKChangeMargin = st_vars->ActiveFCLKChangeLatencyMargin[k];
st_vars->SurfaceWithMinActiveFCLKChangeMargin = k;
}
}
*MinActiveFCLKChangeLatencySupported = MinActiveFCLKChangeMargin + mmSOCParameters.FCLKChangeLatency;
*MinActiveFCLKChangeLatencySupported = st_vars->MinActiveFCLKChangeMargin + mmSOCParameters.FCLKChangeLatency;
SameTimingForFCLKChange = true;
st_vars->SameTimingForFCLKChange = true;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (!SynchronizedSurfaces[k][SurfaceWithMinActiveFCLKChangeMargin]) {
if (!st_vars->SynchronizedSurfaces[k][st_vars->SurfaceWithMinActiveFCLKChangeMargin]) {
if ((UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) &&
(SameTimingForFCLKChange ||
ActiveFCLKChangeLatencyMargin[k] <
SecondMinActiveFCLKChangeMarginOneDisplayInVBLank)) {
SecondMinActiveFCLKChangeMarginOneDisplayInVBLank = ActiveFCLKChangeLatencyMargin[k];
(st_vars->SameTimingForFCLKChange ||
st_vars->ActiveFCLKChangeLatencyMargin[k] <
st_vars->SecondMinActiveFCLKChangeMarginOneDisplayInVBLank)) {
st_vars->SecondMinActiveFCLKChangeMarginOneDisplayInVBLank = st_vars->ActiveFCLKChangeLatencyMargin[k];
}
SameTimingForFCLKChange = false;
st_vars->SameTimingForFCLKChange = false;
}
}
if (MinActiveFCLKChangeMargin > 0) {
if (st_vars->MinActiveFCLKChangeMargin > 0) {
*FCLKChangeSupport = dm_fclock_change_vactive;
} else if ((SameTimingForFCLKChange || SecondMinActiveFCLKChangeMarginOneDisplayInVBLank > 0) &&
} else if ((st_vars->SameTimingForFCLKChange || st_vars->SecondMinActiveFCLKChangeMarginOneDisplayInVBLank > 0) &&
(PrefetchMode <= 1)) {
*FCLKChangeSupport = dm_fclock_change_vblank;
} else {
......@@ -4500,7 +4479,7 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
*USRRetrainingSupport = true;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if ((UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) &&
(USRRetrainingLatencyMargin[k] < 0)) {
(st_vars->USRRetrainingLatencyMargin[k] < 0)) {
*USRRetrainingSupport = false;
}
}
......@@ -4511,42 +4490,42 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe &&
ActiveDRAMClockChangeLatencyMargin[k] < 0) {
if (PrefetchMode > 0) {
DRAMClockChangeSupportNumber = 2;
} else if (DRAMClockChangeSupportNumber == 0) {
DRAMClockChangeSupportNumber = 1;
LastSurfaceWithoutMargin = k;
} else if (DRAMClockChangeSupportNumber == 1 &&
!SynchronizedSurfaces[LastSurfaceWithoutMargin][k]) {
DRAMClockChangeSupportNumber = 2;
st_vars->DRAMClockChangeSupportNumber = 2;
} else if (st_vars->DRAMClockChangeSupportNumber == 0) {
st_vars->DRAMClockChangeSupportNumber = 1;
st_vars->LastSurfaceWithoutMargin = k;
} else if (st_vars->DRAMClockChangeSupportNumber == 1 &&
!st_vars->SynchronizedSurfaces[st_vars->LastSurfaceWithoutMargin][k]) {
st_vars->DRAMClockChangeSupportNumber = 2;
}
}
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UseMALLForPStateChange[k] == dm_use_mall_pstate_change_full_frame)
DRAMClockChangeMethod = 1;
st_vars->DRAMClockChangeMethod = 1;
else if (UseMALLForPStateChange[k] == dm_use_mall_pstate_change_sub_viewport)
DRAMClockChangeMethod = 2;
st_vars->DRAMClockChangeMethod = 2;
}
if (DRAMClockChangeMethod == 0) {
if (DRAMClockChangeSupportNumber == 0)
if (st_vars->DRAMClockChangeMethod == 0) {
if (st_vars->DRAMClockChangeSupportNumber == 0)
*DRAMClockChangeSupport = dm_dram_clock_change_vactive;
else if (DRAMClockChangeSupportNumber == 1)
else if (st_vars->DRAMClockChangeSupportNumber == 1)
*DRAMClockChangeSupport = dm_dram_clock_change_vblank;
else
*DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
} else if (DRAMClockChangeMethod == 1) {
if (DRAMClockChangeSupportNumber == 0)
} else if (st_vars->DRAMClockChangeMethod == 1) {
if (st_vars->DRAMClockChangeSupportNumber == 0)
*DRAMClockChangeSupport = dm_dram_clock_change_vactive_w_mall_full_frame;
else if (DRAMClockChangeSupportNumber == 1)
else if (st_vars->DRAMClockChangeSupportNumber == 1)
*DRAMClockChangeSupport = dm_dram_clock_change_vblank_w_mall_full_frame;
else
*DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
} else {
if (DRAMClockChangeSupportNumber == 0)
if (st_vars->DRAMClockChangeSupportNumber == 0)
*DRAMClockChangeSupport = dm_dram_clock_change_vactive_w_mall_sub_vp;
else if (DRAMClockChangeSupportNumber == 1)
else if (st_vars->DRAMClockChangeSupportNumber == 1)
*DRAMClockChangeSupport = dm_dram_clock_change_vblank_w_mall_sub_vp;
else
*DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
......@@ -4560,7 +4539,7 @@ void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
dst_y_pstate = dml_ceil((mmSOCParameters.DRAMClockChangeLatency + mmSOCParameters.UrgentLatency) / (HTotal[k] / PixelClock[k]), 1);
src_y_pstate_l = dml_ceil(dst_y_pstate * VRatio[k], SwathHeightY[k]);
src_y_ahead_l = dml_floor(DETBufferSizeY[k] / BytePerPixelDETY[k] / SwathWidthY[k], SwathHeightY[k]) + LBLatencyHidingSourceLinesY[k];
src_y_ahead_l = dml_floor(DETBufferSizeY[k] / BytePerPixelDETY[k] / SwathWidthY[k], SwathHeightY[k]) + st_vars->LBLatencyHidingSourceLinesY[k];
sub_vp_lines_l = src_y_pstate_l + src_y_ahead_l + meta_row_height[k];
#ifdef __DML_VBA_DEBUG__
......@@ -4568,7 +4547,7 @@ dml_print("DML::%s: k=%d, DETBufferSizeY = %d\n", __func__, k, DET
dml_print("DML::%s: k=%d, BytePerPixelDETY = %f\n", __func__, k, BytePerPixelDETY[k]);
dml_print("DML::%s: k=%d, SwathWidthY = %d\n", __func__, k, SwathWidthY[k]);
dml_print("DML::%s: k=%d, SwathHeightY = %d\n", __func__, k, SwathHeightY[k]);
dml_print("DML::%s: k=%d, LBLatencyHidingSourceLinesY = %d\n", __func__, k, LBLatencyHidingSourceLinesY[k]);
dml_print("DML::%s: k=%d, LBLatencyHidingSourceLinesY = %d\n", __func__, k, st_vars->LBLatencyHidingSourceLinesY[k]);
dml_print("DML::%s: k=%d, dst_y_pstate = %d\n", __func__, k, dst_y_pstate);
dml_print("DML::%s: k=%d, src_y_pstate_l = %d\n", __func__, k, src_y_pstate_l);
dml_print("DML::%s: k=%d, src_y_ahead_l = %d\n", __func__, k, src_y_ahead_l);
......@@ -4579,7 +4558,7 @@ dml_print("DML::%s: k=%d, sub_vp_lines_l = %d\n", __func__, k, sub_vp_lines_l
if (BytePerPixelDETC[k] > 0) {
src_y_pstate_c = dml_ceil(dst_y_pstate * VRatioChroma[k], SwathHeightC[k]);
src_y_ahead_c = dml_floor(DETBufferSizeC[k] / BytePerPixelDETC[k] / SwathWidthC[k], SwathHeightC[k]) + LBLatencyHidingSourceLinesC[k];
src_y_ahead_c = dml_floor(DETBufferSizeC[k] / BytePerPixelDETC[k] / SwathWidthC[k], SwathHeightC[k]) + st_vars->LBLatencyHidingSourceLinesC[k];
sub_vp_lines_c = src_y_pstate_c + src_y_ahead_c + meta_row_height_chroma[k];
SubViewportLinesNeededInMALL[k] = dml_max(sub_vp_lines_l, sub_vp_lines_c);
......
......@@ -810,6 +810,7 @@ void dml32_CalculateFlipSchedule(
bool *ImmediateFlipSupportedForPipe);
void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
struct dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport *st_vars,
bool USRRetrainingRequiredFinal,
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
unsigned int PrefetchMode,
......
......@@ -214,6 +214,39 @@ struct dml32_CalculateVMRowAndSwath {
bool one_row_per_frame_fits_in_buffer[DC__NUM_DPP__MAX];
};
struct dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport {
unsigned int SurfaceWithMinActiveFCLKChangeMargin;
unsigned int DRAMClockChangeSupportNumber;
unsigned int LastSurfaceWithoutMargin;
unsigned int DRAMClockChangeMethod;
bool FoundFirstSurfaceWithMinActiveFCLKChangeMargin;
double MinActiveFCLKChangeMargin;
double SecondMinActiveFCLKChangeMarginOneDisplayInVBLank;
double ActiveClockChangeLatencyHidingY;
double ActiveClockChangeLatencyHidingC;
double ActiveClockChangeLatencyHiding;
double EffectiveDETBufferSizeY;
double ActiveFCLKChangeLatencyMargin[DC__NUM_DPP__MAX];
double USRRetrainingLatencyMargin[DC__NUM_DPP__MAX];
double TotalPixelBW;
bool SynchronizedSurfaces[DC__NUM_DPP__MAX][DC__NUM_DPP__MAX];
double EffectiveLBLatencyHidingY;
double EffectiveLBLatencyHidingC;
double LinesInDETY[DC__NUM_DPP__MAX];
double LinesInDETC[DC__NUM_DPP__MAX];
unsigned int LinesInDETYRoundedDownToSwath[DC__NUM_DPP__MAX];
unsigned int LinesInDETCRoundedDownToSwath[DC__NUM_DPP__MAX];
double FullDETBufferingTimeY;
double FullDETBufferingTimeC;
double WritebackDRAMClockChangeLatencyMargin;
double WritebackFCLKChangeLatencyMargin;
double WritebackLatencyHiding;
bool SameTimingForFCLKChange;
unsigned int TotalActiveWriteback;
unsigned int LBLatencyHidingSourceLinesY[DC__NUM_DPP__MAX];
unsigned int LBLatencyHidingSourceLinesC[DC__NUM_DPP__MAX];
};
struct DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerformanceCalculation {
unsigned int dummy_integer_array[2][DC__NUM_DPP__MAX];
double dummy_single_array[2][DC__NUM_DPP__MAX];
......@@ -287,6 +320,7 @@ struct dummy_vars {
struct dml32_ModeSupportAndSystemConfigurationFull dml32_ModeSupportAndSystemConfigurationFull;
struct dml32_CalculateSwathAndDETConfiguration dml32_CalculateSwathAndDETConfiguration;
struct dml32_CalculateVMRowAndSwath dml32_CalculateVMRowAndSwath;
struct dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport;
};
struct vba_vars_st {
......
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