#include "display_mode_vba_util_32.h"
#include "../dml_inline_defs.h"
#include "display_mode_vba_32.h"
#include "../display_mode_lib.h"
#define DCN32_MAX_FMT_420_BUFFER_WIDTH 4096
unsigned int dml32_dscceComputeDelay(
unsigned int bpc,
double BPP,
unsigned int sliceWidth,
unsigned int numSlices,
enum output_format_class pixelFormat,
enum output_encoder_class Output)
{
unsigned int rcModelSize = 8192;
unsigned int pixelsPerClock, lstall, D, initalXmitDelay, w, s, ix, wx, p, l0, a, ax, L,
Delay, pixels;
if (pixelFormat == dm_420)
pixelsPerClock = 2;
else if (pixelFormat == dm_n422)
pixelsPerClock = 2;
else
pixelsPerClock = 1;
initalXmitDelay = dml_round(rcModelSize / 2.0 / BPP / pixelsPerClock);
if (bpc == 8)
D = 81;
else if (bpc == 10)
D = 89;
else
D = 113;
w = sliceWidth / pixelsPerClock;
if (pixelFormat == dm_420 || pixelFormat == dm_444 || pixelFormat == dm_n422)
s = 0;
else
s = 1;
ix = initalXmitDelay + 45;
wx = (w + 2) / 3;
p = 3 * wx - w;
l0 = ix / w;
a = ix + p * l0;
ax = (a + 2) / 3 + D + 6 + 1;
L = (ax + wx - 1) / wx;
if ((ix % w) == 0 && p != 0)
lstall = 1;
else
lstall = 0;
Delay = L * wx * (numSlices - 1) + ax + s + lstall + 22;
pixels = Delay * 3 * pixelsPerClock;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: bpc: %d\n", __func__, bpc);
dml_print("DML::%s: BPP: %f\n", __func__, BPP);
dml_print("DML::%s: sliceWidth: %d\n", __func__, sliceWidth);
dml_print("DML::%s: numSlices: %d\n", __func__, numSlices);
dml_print("DML::%s: pixelFormat: %d\n", __func__, pixelFormat);
dml_print("DML::%s: Output: %d\n", __func__, Output);
dml_print("DML::%s: pixels: %d\n", __func__, pixels);
#endif
return pixels;
}
unsigned int dml32_dscComputeDelay(enum output_format_class pixelFormat, enum output_encoder_class Output)
{
unsigned int Delay = 0;
if (pixelFormat == dm_420) {
Delay = Delay + 2;
Delay = Delay + 0;
Delay = Delay + 3;
Delay = Delay + 2;
Delay = Delay + 12;
Delay = Delay + 13;
Delay = Delay + 2;
Delay = Delay + 7;
Delay = Delay + 3;
Delay = Delay + 2;
Delay = Delay + 1;
Delay = Delay + 1;
} else if (pixelFormat == dm_n422 || (pixelFormat != dm_444)) {
Delay = Delay + 2;
Delay = Delay + 1;
Delay = Delay + 5;
Delay = Delay + 25;
Delay = Delay + 2;
Delay = Delay + 10;
Delay = Delay + 2;
Delay = Delay + 1;
Delay = Delay + 1;
} else {
Delay = Delay + 2;
Delay = Delay + 0;
Delay = Delay + 3;
Delay = Delay + 12;
Delay = Delay + 2;
Delay = Delay + 7;
Delay = Delay + 1;
Delay = Delay + 2;
Delay = Delay + 1;
}
return Delay;
}
bool IsVertical(enum dm_rotation_angle Scan)
{
bool is_vert = false;
if (Scan == dm_rotation_90 || Scan == dm_rotation_90m || Scan == dm_rotation_270 || Scan == dm_rotation_270m)
is_vert = true;
else
is_vert = false;
return is_vert;
}
void dml32_CalculateSinglePipeDPPCLKAndSCLThroughput(
double HRatio,
double HRatioChroma,
double VRatio,
double VRatioChroma,
double MaxDCHUBToPSCLThroughput,
double MaxPSCLToLBThroughput,
double PixelClock,
enum source_format_class SourcePixelFormat,
unsigned int HTaps,
unsigned int HTapsChroma,
unsigned int VTaps,
unsigned int VTapsChroma,
double *PSCL_THROUGHPUT,
double *PSCL_THROUGHPUT_CHROMA,
double *DPPCLKUsingSingleDPP)
{
double DPPCLKUsingSingleDPPLuma;
double DPPCLKUsingSingleDPPChroma;
if (HRatio > 1) {
*PSCL_THROUGHPUT = dml_min(MaxDCHUBToPSCLThroughput, MaxPSCLToLBThroughput * HRatio /
dml_ceil((double) HTaps / 6.0, 1.0));
} else {
*PSCL_THROUGHPUT = dml_min(MaxDCHUBToPSCLThroughput, MaxPSCLToLBThroughput);
}
DPPCLKUsingSingleDPPLuma = PixelClock * dml_max3(VTaps / 6 * dml_min(1, HRatio), HRatio * VRatio /
*PSCL_THROUGHPUT, 1);
if ((HTaps > 6 || VTaps > 6) && DPPCLKUsingSingleDPPLuma < 2 * PixelClock)
DPPCLKUsingSingleDPPLuma = 2 * PixelClock;
if ((SourcePixelFormat != dm_420_8 && SourcePixelFormat != dm_420_10 && SourcePixelFormat != dm_420_12 &&
SourcePixelFormat != dm_rgbe_alpha)) {
*PSCL_THROUGHPUT_CHROMA = 0;
*DPPCLKUsingSingleDPP = DPPCLKUsingSingleDPPLuma;
} else {
if (HRatioChroma > 1) {
*PSCL_THROUGHPUT_CHROMA = dml_min(MaxDCHUBToPSCLThroughput, MaxPSCLToLBThroughput *
HRatioChroma / dml_ceil((double) HTapsChroma / 6.0, 1.0));
} else {
*PSCL_THROUGHPUT_CHROMA = dml_min(MaxDCHUBToPSCLThroughput, MaxPSCLToLBThroughput);
}
DPPCLKUsingSingleDPPChroma = PixelClock * dml_max3(VTapsChroma / 6 * dml_min(1, HRatioChroma),
HRatioChroma * VRatioChroma / *PSCL_THROUGHPUT_CHROMA, 1);
if ((HTapsChroma > 6 || VTapsChroma > 6) && DPPCLKUsingSingleDPPChroma < 2 * PixelClock)
DPPCLKUsingSingleDPPChroma = 2 * PixelClock;
*DPPCLKUsingSingleDPP = dml_max(DPPCLKUsingSingleDPPLuma, DPPCLKUsingSingleDPPChroma);
}
}
void dml32_CalculateBytePerPixelAndBlockSizes(
enum source_format_class SourcePixelFormat,
enum dm_swizzle_mode SurfaceTiling,
unsigned int *BytePerPixelY,
unsigned int *BytePerPixelC,
double *BytePerPixelDETY,
double *BytePerPixelDETC,
unsigned int *BlockHeight256BytesY,
unsigned int *BlockHeight256BytesC,
unsigned int *BlockWidth256BytesY,
unsigned int *BlockWidth256BytesC,
unsigned int *MacroTileHeightY,
unsigned int *MacroTileHeightC,
unsigned int *MacroTileWidthY,
unsigned int *MacroTileWidthC)
{
if (SourcePixelFormat == dm_444_64) {
*BytePerPixelDETY = 8;
*BytePerPixelDETC = 0;
*BytePerPixelY = 8;
*BytePerPixelC = 0;
} else if (SourcePixelFormat == dm_444_32 || SourcePixelFormat == dm_rgbe) {
*BytePerPixelDETY = 4;
*BytePerPixelDETC = 0;
*BytePerPixelY = 4;
*BytePerPixelC = 0;
} else if (SourcePixelFormat == dm_444_16) {
*BytePerPixelDETY = 2;
*BytePerPixelDETC = 0;
*BytePerPixelY = 2;
*BytePerPixelC = 0;
} else if (SourcePixelFormat == dm_444_8) {
*BytePerPixelDETY = 1;
*BytePerPixelDETC = 0;
*BytePerPixelY = 1;
*BytePerPixelC = 0;
} else if (SourcePixelFormat == dm_rgbe_alpha) {
*BytePerPixelDETY = 4;
*BytePerPixelDETC = 1;
*BytePerPixelY = 4;
*BytePerPixelC = 1;
} else if (SourcePixelFormat == dm_420_8) {
*BytePerPixelDETY = 1;
*BytePerPixelDETC = 2;
*BytePerPixelY = 1;
*BytePerPixelC = 2;
} else if (SourcePixelFormat == dm_420_12) {
*BytePerPixelDETY = 2;
*BytePerPixelDETC = 4;
*BytePerPixelY = 2;
*BytePerPixelC = 4;
} else {
*BytePerPixelDETY = 4.0 / 3;
*BytePerPixelDETC = 8.0 / 3;
*BytePerPixelY = 2;
*BytePerPixelC = 4;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: SourcePixelFormat = %d\n", __func__, SourcePixelFormat);
dml_print("DML::%s: BytePerPixelDETY = %f\n", __func__, *BytePerPixelDETY);
dml_print("DML::%s: BytePerPixelDETC = %f\n", __func__, *BytePerPixelDETC);
dml_print("DML::%s: BytePerPixelY = %d\n", __func__, *BytePerPixelY);
dml_print("DML::%s: BytePerPixelC = %d\n", __func__, *BytePerPixelC);
#endif
if ((SourcePixelFormat == dm_444_64 || SourcePixelFormat == dm_444_32
|| SourcePixelFormat == dm_444_16
|| SourcePixelFormat == dm_444_8
|| SourcePixelFormat == dm_mono_16
|| SourcePixelFormat == dm_mono_8
|| SourcePixelFormat == dm_rgbe)) {
if (SurfaceTiling == dm_sw_linear)
*BlockHeight256BytesY = 1;
else if (SourcePixelFormat == dm_444_64)
*BlockHeight256BytesY = 4;
else if (SourcePixelFormat == dm_444_8)
*BlockHeight256BytesY = 16;
else
*BlockHeight256BytesY = 8;
*BlockWidth256BytesY = 256U / *BytePerPixelY / *BlockHeight256BytesY;
*BlockHeight256BytesC = 0;
*BlockWidth256BytesC = 0;
} else {
if (SurfaceTiling == dm_sw_linear) {
*BlockHeight256BytesY = 1;
*BlockHeight256BytesC = 1;
} else if (SourcePixelFormat == dm_rgbe_alpha) {
*BlockHeight256BytesY = 8;
*BlockHeight256BytesC = 16;
} else if (SourcePixelFormat == dm_420_8) {
*BlockHeight256BytesY = 16;
*BlockHeight256BytesC = 8;
} else {
*BlockHeight256BytesY = 8;
*BlockHeight256BytesC = 8;
}
*BlockWidth256BytesY = 256U / *BytePerPixelY / *BlockHeight256BytesY;
*BlockWidth256BytesC = 256U / *BytePerPixelC / *BlockHeight256BytesC;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: BlockWidth256BytesY = %d\n", __func__, *BlockWidth256BytesY);
dml_print("DML::%s: BlockHeight256BytesY = %d\n", __func__, *BlockHeight256BytesY);
dml_print("DML::%s: BlockWidth256BytesC = %d\n", __func__, *BlockWidth256BytesC);
dml_print("DML::%s: BlockHeight256BytesC = %d\n", __func__, *BlockHeight256BytesC);
#endif
if (SurfaceTiling == dm_sw_linear) {
*MacroTileHeightY = *BlockHeight256BytesY;
*MacroTileWidthY = 256 / *BytePerPixelY / *MacroTileHeightY;
*MacroTileHeightC = *BlockHeight256BytesC;
if (*MacroTileHeightC == 0)
*MacroTileWidthC = 0;
else
*MacroTileWidthC = 256 / *BytePerPixelC / *MacroTileHeightC;
} else if (SurfaceTiling == dm_sw_64kb_d || SurfaceTiling == dm_sw_64kb_d_t ||
SurfaceTiling == dm_sw_64kb_d_x || SurfaceTiling == dm_sw_64kb_r_x) {
*MacroTileHeightY = 16 * *BlockHeight256BytesY;
*MacroTileWidthY = 65536 / *BytePerPixelY / *MacroTileHeightY;
*MacroTileHeightC = 16 * *BlockHeight256BytesC;
if (*MacroTileHeightC == 0)
*MacroTileWidthC = 0;
else
*MacroTileWidthC = 65536 / *BytePerPixelC / *MacroTileHeightC;
} else {
*MacroTileHeightY = 32 * *BlockHeight256BytesY;
*MacroTileWidthY = 65536 * 4 / *BytePerPixelY / *MacroTileHeightY;
*MacroTileHeightC = 32 * *BlockHeight256BytesC;
if (*MacroTileHeightC == 0)
*MacroTileWidthC = 0;
else
*MacroTileWidthC = 65536 * 4 / *BytePerPixelC / *MacroTileHeightC;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MacroTileWidthY = %d\n", __func__, *MacroTileWidthY);
dml_print("DML::%s: MacroTileHeightY = %d\n", __func__, *MacroTileHeightY);
dml_print("DML::%s: MacroTileWidthC = %d\n", __func__, *MacroTileWidthC);
dml_print("DML::%s: MacroTileHeightC = %d\n", __func__, *MacroTileHeightC);
#endif
}
void dml32_CalculateSwathAndDETConfiguration(
unsigned int DETSizeOverride[],
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
unsigned int ConfigReturnBufferSizeInKByte,
unsigned int MaxTotalDETInKByte,
unsigned int MinCompressedBufferSizeInKByte,
double ForceSingleDPP,
unsigned int NumberOfActiveSurfaces,
unsigned int nomDETInKByte,
enum unbounded_requesting_policy UseUnboundedRequestingFinal,
bool DisableUnboundRequestIfCompBufReservedSpaceNeedAdjustment,
unsigned int PixelChunkSizeKBytes,
unsigned int ROBSizeKBytes,
unsigned int CompressedBufferSegmentSizeInkByteFinal,
enum output_encoder_class Output[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
double MaximumSwathWidthLuma[],
double MaximumSwathWidthChroma[],
enum dm_rotation_angle SourceRotation[],
bool ViewportStationary[],
enum source_format_class SourcePixelFormat[],
enum dm_swizzle_mode SurfaceTiling[],
unsigned int ViewportWidth[],
unsigned int ViewportHeight[],
unsigned int ViewportXStart[],
unsigned int ViewportYStart[],
unsigned int ViewportXStartC[],
unsigned int ViewportYStartC[],
unsigned int SurfaceWidthY[],
unsigned int SurfaceWidthC[],
unsigned int SurfaceHeightY[],
unsigned int SurfaceHeightC[],
unsigned int Read256BytesBlockHeightY[],
unsigned int Read256BytesBlockHeightC[],
unsigned int Read256BytesBlockWidthY[],
unsigned int Read256BytesBlockWidthC[],
enum odm_combine_mode ODMMode[],
unsigned int BlendingAndTiming[],
unsigned int BytePerPixY[],
unsigned int BytePerPixC[],
double BytePerPixDETY[],
double BytePerPixDETC[],
unsigned int HActive[],
double HRatio[],
double HRatioChroma[],
unsigned int DPPPerSurface[],
unsigned int swath_width_luma_ub[],
unsigned int swath_width_chroma_ub[],
double SwathWidth[],
double SwathWidthChroma[],
unsigned int SwathHeightY[],
unsigned int SwathHeightC[],
unsigned int DETBufferSizeInKByte[],
unsigned int DETBufferSizeY[],
unsigned int DETBufferSizeC[],
bool *UnboundedRequestEnabled,
unsigned int *CompressedBufferSizeInkByte,
unsigned int *CompBufReservedSpaceKBytes,
bool *CompBufReservedSpaceNeedAdjustment,
bool ViewportSizeSupportPerSurface[],
bool *ViewportSizeSupport)
{
unsigned int MaximumSwathHeightY[DC__NUM_DPP__MAX];
unsigned int MaximumSwathHeightC[DC__NUM_DPP__MAX];
unsigned int RoundedUpMaxSwathSizeBytesY[DC__NUM_DPP__MAX];
unsigned int RoundedUpMaxSwathSizeBytesC[DC__NUM_DPP__MAX];
unsigned int RoundedUpSwathSizeBytesY;
unsigned int RoundedUpSwathSizeBytesC;
double SwathWidthdoubleDPP[DC__NUM_DPP__MAX];
double SwathWidthdoubleDPPChroma[DC__NUM_DPP__MAX];
unsigned int k;
unsigned int TotalActiveDPP = 0;
bool NoChromaSurfaces = true;
unsigned int DETBufferSizeInKByteForSwathCalculation;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: ForceSingleDPP = %d\n", __func__, ForceSingleDPP);
dml_print("DML::%s: ROBSizeKBytes = %d\n", __func__, ROBSizeKBytes);
dml_print("DML::%s: PixelChunkSizeKBytes = %d\n", __func__, PixelChunkSizeKBytes);
#endif
dml32_CalculateSwathWidth(ForceSingleDPP,
NumberOfActiveSurfaces,
SourcePixelFormat,
SourceRotation,
ViewportStationary,
ViewportWidth,
ViewportHeight,
ViewportXStart,
ViewportYStart,
ViewportXStartC,
ViewportYStartC,
SurfaceWidthY,
SurfaceWidthC,
SurfaceHeightY,
SurfaceHeightC,
ODMMode,
BytePerPixY,
BytePerPixC,
Read256BytesBlockHeightY,
Read256BytesBlockHeightC,
Read256BytesBlockWidthY,
Read256BytesBlockWidthC,
BlendingAndTiming,
HActive,
HRatio,
DPPPerSurface,
SwathWidthdoubleDPP,
SwathWidthdoubleDPPChroma,
SwathWidth,
SwathWidthChroma,
MaximumSwathHeightY,
MaximumSwathHeightC,
swath_width_luma_ub,
swath_width_chroma_ub);
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
RoundedUpMaxSwathSizeBytesY[k] = swath_width_luma_ub[k] * BytePerPixDETY[k] * MaximumSwathHeightY[k];
RoundedUpMaxSwathSizeBytesC[k] = swath_width_chroma_ub[k] * BytePerPixDETC[k] * MaximumSwathHeightC[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d DPPPerSurface = %d\n", __func__, k, DPPPerSurface[k]);
dml_print("DML::%s: k=%0d swath_width_luma_ub = %d\n", __func__, k, swath_width_luma_ub[k]);
dml_print("DML::%s: k=%0d BytePerPixDETY = %f\n", __func__, k, BytePerPixDETY[k]);
dml_print("DML::%s: k=%0d MaximumSwathHeightY = %d\n", __func__, k, MaximumSwathHeightY[k]);
dml_print("DML::%s: k=%0d RoundedUpMaxSwathSizeBytesY = %d\n", __func__, k,
RoundedUpMaxSwathSizeBytesY[k]);
dml_print("DML::%s: k=%0d swath_width_chroma_ub = %d\n", __func__, k, swath_width_chroma_ub[k]);
dml_print("DML::%s: k=%0d BytePerPixDETC = %f\n", __func__, k, BytePerPixDETC[k]);
dml_print("DML::%s: k=%0d MaximumSwathHeightC = %d\n", __func__, k, MaximumSwathHeightC[k]);
dml_print("DML::%s: k=%0d RoundedUpMaxSwathSizeBytesC = %d\n", __func__, k,
RoundedUpMaxSwathSizeBytesC[k]);
#endif
if (SourcePixelFormat[k] == dm_420_10) {
RoundedUpMaxSwathSizeBytesY[k] = dml_ceil((unsigned int) RoundedUpMaxSwathSizeBytesY[k], 256);
RoundedUpMaxSwathSizeBytesC[k] = dml_ceil((unsigned int) RoundedUpMaxSwathSizeBytesC[k], 256);
}
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
TotalActiveDPP = TotalActiveDPP + (ForceSingleDPP ? 1 : DPPPerSurface[k]);
if (SourcePixelFormat[k] == dm_420_8 || SourcePixelFormat[k] == dm_420_10 ||
SourcePixelFormat[k] == dm_420_12 || SourcePixelFormat[k] == dm_rgbe_alpha) {
NoChromaSurfaces = false;
}
}
*CompBufReservedSpaceKBytes = PixelChunkSizeKBytes * 2;
*CompBufReservedSpaceNeedAdjustment = ((int) ROBSizeKBytes - (int) *CompBufReservedSpaceKBytes) > (int) (RoundedUpMaxSwathSizeBytesY[0]/512);
if (*CompBufReservedSpaceNeedAdjustment == 1) {
*CompBufReservedSpaceKBytes = ROBSizeKBytes - RoundedUpMaxSwathSizeBytesY[0]/512;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: CompBufReservedSpaceKBytes = %d\n", __func__, *CompBufReservedSpaceKBytes);
dml_print("DML::%s: CompBufReservedSpaceNeedAdjustment = %d\n", __func__, *CompBufReservedSpaceNeedAdjustment);
#endif
*UnboundedRequestEnabled = dml32_UnboundedRequest(UseUnboundedRequestingFinal, TotalActiveDPP, NoChromaSurfaces, Output[0], SurfaceTiling[0], *CompBufReservedSpaceNeedAdjustment, DisableUnboundRequestIfCompBufReservedSpaceNeedAdjustment);
dml32_CalculateDETBufferSize(DETSizeOverride,
UseMALLForPStateChange,
ForceSingleDPP,
NumberOfActiveSurfaces,
*UnboundedRequestEnabled,
nomDETInKByte,
MaxTotalDETInKByte,
ConfigReturnBufferSizeInKByte,
MinCompressedBufferSizeInKByte,
CompressedBufferSegmentSizeInkByteFinal,
SourcePixelFormat,
ReadBandwidthLuma,
ReadBandwidthChroma,
RoundedUpMaxSwathSizeBytesY,
RoundedUpMaxSwathSizeBytesC,
DPPPerSurface,
DETBufferSizeInKByte,
CompressedBufferSizeInkByte);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: TotalActiveDPP = %d\n", __func__, TotalActiveDPP);
dml_print("DML::%s: nomDETInKByte = %d\n", __func__, nomDETInKByte);
dml_print("DML::%s: ConfigReturnBufferSizeInKByte = %d\n", __func__, ConfigReturnBufferSizeInKByte);
dml_print("DML::%s: UseUnboundedRequestingFinal = %d\n", __func__, UseUnboundedRequestingFinal);
dml_print("DML::%s: UnboundedRequestEnabled = %d\n", __func__, *UnboundedRequestEnabled);
dml_print("DML::%s: CompressedBufferSizeInkByte = %d\n", __func__, *CompressedBufferSizeInkByte);
#endif
*ViewportSizeSupport = true;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
DETBufferSizeInKByteForSwathCalculation = (UseMALLForPStateChange[k] ==
dm_use_mall_pstate_change_phantom_pipe ? 1024 : DETBufferSizeInKByte[k]);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d DETBufferSizeInKByteForSwathCalculation = %d\n", __func__, k,
DETBufferSizeInKByteForSwathCalculation);
#endif
if (RoundedUpMaxSwathSizeBytesY[k] + RoundedUpMaxSwathSizeBytesC[k] <=
DETBufferSizeInKByteForSwathCalculation * 1024 / 2) {
SwathHeightY[k] = MaximumSwathHeightY[k];
SwathHeightC[k] = MaximumSwathHeightC[k];
RoundedUpSwathSizeBytesY = RoundedUpMaxSwathSizeBytesY[k];
RoundedUpSwathSizeBytesC = RoundedUpMaxSwathSizeBytesC[k];
} else if (RoundedUpMaxSwathSizeBytesY[k] >= 1.5 * RoundedUpMaxSwathSizeBytesC[k] &&
RoundedUpMaxSwathSizeBytesY[k] / 2 + RoundedUpMaxSwathSizeBytesC[k] <=
DETBufferSizeInKByteForSwathCalculation * 1024 / 2) {
SwathHeightY[k] = MaximumSwathHeightY[k] / 2;
SwathHeightC[k] = MaximumSwathHeightC[k];
RoundedUpSwathSizeBytesY = RoundedUpMaxSwathSizeBytesY[k] / 2;
RoundedUpSwathSizeBytesC = RoundedUpMaxSwathSizeBytesC[k];
} else if (RoundedUpMaxSwathSizeBytesY[k] < 1.5 * RoundedUpMaxSwathSizeBytesC[k] &&
RoundedUpMaxSwathSizeBytesY[k] + RoundedUpMaxSwathSizeBytesC[k] / 2 <=
DETBufferSizeInKByteForSwathCalculation * 1024 / 2) {
SwathHeightY[k] = MaximumSwathHeightY[k];
SwathHeightC[k] = MaximumSwathHeightC[k] / 2;
RoundedUpSwathSizeBytesY = RoundedUpMaxSwathSizeBytesY[k];
RoundedUpSwathSizeBytesC = RoundedUpMaxSwathSizeBytesC[k] / 2;
} else {
SwathHeightY[k] = MaximumSwathHeightY[k] / 2;
SwathHeightC[k] = MaximumSwathHeightC[k] / 2;
RoundedUpSwathSizeBytesY = RoundedUpMaxSwathSizeBytesY[k] / 2;
RoundedUpSwathSizeBytesC = RoundedUpMaxSwathSizeBytesC[k] / 2;
}
if ((RoundedUpMaxSwathSizeBytesY[k] / 2 + RoundedUpMaxSwathSizeBytesC[k] / 2 >
DETBufferSizeInKByteForSwathCalculation * 1024 / 2)
|| SwathWidth[k] > MaximumSwathWidthLuma[k] || (SwathHeightC[k] > 0 &&
SwathWidthChroma[k] > MaximumSwathWidthChroma[k])) {
*ViewportSizeSupport = false;
ViewportSizeSupportPerSurface[k] = false;
} else {
ViewportSizeSupportPerSurface[k] = true;
}
if (SwathHeightC[k] == 0) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d All DET for plane0\n", __func__, k);
#endif
DETBufferSizeY[k] = DETBufferSizeInKByte[k] * 1024;
DETBufferSizeC[k] = 0;
} else if (RoundedUpSwathSizeBytesY <= 1.5 * RoundedUpSwathSizeBytesC) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d Half DET for plane0, half for plane1\n", __func__, k);
#endif
DETBufferSizeY[k] = DETBufferSizeInKByte[k] * 1024 / 2;
DETBufferSizeC[k] = DETBufferSizeInKByte[k] * 1024 / 2;
} else {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d 2/3 DET for plane0, 1/3 for plane1\n", __func__, k);
#endif
DETBufferSizeY[k] = dml_floor(DETBufferSizeInKByte[k] * 1024 * 2 / 3, 1024);
DETBufferSizeC[k] = DETBufferSizeInKByte[k] * 1024 - DETBufferSizeY[k];
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d SwathHeightY = %d\n", __func__, k, SwathHeightY[k]);
dml_print("DML::%s: k=%0d SwathHeightC = %d\n", __func__, k, SwathHeightC[k]);
dml_print("DML::%s: k=%0d RoundedUpMaxSwathSizeBytesY = %d\n", __func__,
k, RoundedUpMaxSwathSizeBytesY[k]);
dml_print("DML::%s: k=%0d RoundedUpMaxSwathSizeBytesC = %d\n", __func__,
k, RoundedUpMaxSwathSizeBytesC[k]);
dml_print("DML::%s: k=%0d RoundedUpSwathSizeBytesY = %d\n", __func__, k, RoundedUpSwathSizeBytesY);
dml_print("DML::%s: k=%0d RoundedUpSwathSizeBytesC = %d\n", __func__, k, RoundedUpSwathSizeBytesC);
dml_print("DML::%s: k=%0d DETBufferSizeInKByte = %d\n", __func__, k, DETBufferSizeInKByte[k]);
dml_print("DML::%s: k=%0d DETBufferSizeY = %d\n", __func__, k, DETBufferSizeY[k]);
dml_print("DML::%s: k=%0d DETBufferSizeC = %d\n", __func__, k, DETBufferSizeC[k]);
dml_print("DML::%s: k=%0d ViewportSizeSupportPerSurface = %d\n", __func__, k,
ViewportSizeSupportPerSurface[k]);
#endif
}
}
void dml32_CalculateSwathWidth(
bool ForceSingleDPP,
unsigned int NumberOfActiveSurfaces,
enum source_format_class SourcePixelFormat[],
enum dm_rotation_angle SourceRotation[],
bool ViewportStationary[],
unsigned int ViewportWidth[],
unsigned int ViewportHeight[],
unsigned int ViewportXStart[],
unsigned int ViewportYStart[],
unsigned int ViewportXStartC[],
unsigned int ViewportYStartC[],
unsigned int SurfaceWidthY[],
unsigned int SurfaceWidthC[],
unsigned int SurfaceHeightY[],
unsigned int SurfaceHeightC[],
enum odm_combine_mode ODMMode[],
unsigned int BytePerPixY[],
unsigned int BytePerPixC[],
unsigned int Read256BytesBlockHeightY[],
unsigned int Read256BytesBlockHeightC[],
unsigned int Read256BytesBlockWidthY[],
unsigned int Read256BytesBlockWidthC[],
unsigned int BlendingAndTiming[],
unsigned int HActive[],
double HRatio[],
unsigned int DPPPerSurface[],
double SwathWidthdoubleDPPY[],
double SwathWidthdoubleDPPC[],
double SwathWidthY[],
double SwathWidthC[],
unsigned int MaximumSwathHeightY[],
unsigned int MaximumSwathHeightC[],
unsigned int swath_width_luma_ub[],
unsigned int swath_width_chroma_ub[])
{
unsigned int k, j;
enum odm_combine_mode MainSurfaceODMMode;
unsigned int surface_width_ub_l;
unsigned int surface_height_ub_l;
unsigned int surface_width_ub_c = 0;
unsigned int surface_height_ub_c = 0;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: ForceSingleDPP = %d\n", __func__, ForceSingleDPP);
dml_print("DML::%s: NumberOfActiveSurfaces = %d\n", __func__, NumberOfActiveSurfaces);
#endif
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (!IsVertical(SourceRotation[k]))
SwathWidthdoubleDPPY[k] = ViewportWidth[k];
else
SwathWidthdoubleDPPY[k] = ViewportHeight[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d ViewportWidth=%d\n", __func__, k, ViewportWidth[k]);
dml_print("DML::%s: k=%d ViewportHeight=%d\n", __func__, k, ViewportHeight[k]);
#endif
MainSurfaceODMMode = ODMMode[k];
for (j = 0; j < NumberOfActiveSurfaces; ++j) {
if (BlendingAndTiming[k] == j)
MainSurfaceODMMode = ODMMode[j];
}
if (ForceSingleDPP) {
SwathWidthY[k] = SwathWidthdoubleDPPY[k];
} else {
if (MainSurfaceODMMode == dm_odm_combine_mode_4to1) {
SwathWidthY[k] = dml_min(SwathWidthdoubleDPPY[k],
dml_round(HActive[k] / 4.0 * HRatio[k]));
} else if (MainSurfaceODMMode == dm_odm_combine_mode_2to1) {
SwathWidthY[k] = dml_min(SwathWidthdoubleDPPY[k],
dml_round(HActive[k] / 2.0 * HRatio[k]));
} else if (DPPPerSurface[k] == 2) {
SwathWidthY[k] = SwathWidthdoubleDPPY[k] / 2;
} else {
SwathWidthY[k] = SwathWidthdoubleDPPY[k];
}
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d HActive=%d\n", __func__, k, HActive[k]);
dml_print("DML::%s: k=%d HRatio=%f\n", __func__, k, HRatio[k]);
dml_print("DML::%s: k=%d MainSurfaceODMMode=%d\n", __func__, k, MainSurfaceODMMode);
dml_print("DML::%s: k=%d SwathWidthdoubleDPPY=%d\n", __func__, k, SwathWidthdoubleDPPY[k]);
dml_print("DML::%s: k=%d SwathWidthY=%d\n", __func__, k, SwathWidthY[k]);
#endif
if (SourcePixelFormat[k] == dm_420_8 || SourcePixelFormat[k] == dm_420_10 ||
SourcePixelFormat[k] == dm_420_12) {
SwathWidthC[k] = SwathWidthY[k] / 2;
SwathWidthdoubleDPPC[k] = SwathWidthdoubleDPPY[k] / 2;
} else {
SwathWidthC[k] = SwathWidthY[k];
SwathWidthdoubleDPPC[k] = SwathWidthdoubleDPPY[k];
}
if (ForceSingleDPP == true) {
SwathWidthY[k] = SwathWidthdoubleDPPY[k];
SwathWidthC[k] = SwathWidthdoubleDPPC[k];
}
surface_width_ub_l = dml_ceil(SurfaceWidthY[k], Read256BytesBlockWidthY[k]);
surface_height_ub_l = dml_ceil(SurfaceHeightY[k], Read256BytesBlockHeightY[k]);
if (!IsVertical(SourceRotation[k])) {
MaximumSwathHeightY[k] = Read256BytesBlockHeightY[k];
MaximumSwathHeightC[k] = Read256BytesBlockHeightC[k];
if (ViewportStationary[k] && DPPPerSurface[k] == 1) {
swath_width_luma_ub[k] = dml_min(surface_width_ub_l,
dml_floor(ViewportXStart[k] +
SwathWidthY[k] +
Read256BytesBlockWidthY[k] - 1,
Read256BytesBlockWidthY[k]) -
dml_floor(ViewportXStart[k],
Read256BytesBlockWidthY[k]));
} else {
swath_width_luma_ub[k] = dml_min(surface_width_ub_l,
dml_ceil(SwathWidthY[k] - 1,
Read256BytesBlockWidthY[k]) +
Read256BytesBlockWidthY[k]);
}
if (BytePerPixC[k] > 0) {
surface_width_ub_c = dml_ceil(SurfaceWidthC[k], Read256BytesBlockWidthC[k]);
if (ViewportStationary[k] && DPPPerSurface[k] == 1) {
swath_width_chroma_ub[k] = dml_min(surface_width_ub_c,
dml_floor(ViewportXStartC[k] + SwathWidthC[k] +
Read256BytesBlockWidthC[k] - 1,
Read256BytesBlockWidthC[k]) -
dml_floor(ViewportXStartC[k],
Read256BytesBlockWidthC[k]));
} else {
swath_width_chroma_ub[k] = dml_min(surface_width_ub_c,
dml_ceil(SwathWidthC[k] - 1,
Read256BytesBlockWidthC[k]) +
Read256BytesBlockWidthC[k]);
}
} else {
swath_width_chroma_ub[k] = 0;
}
} else {
MaximumSwathHeightY[k] = Read256BytesBlockWidthY[k];
MaximumSwathHeightC[k] = Read256BytesBlockWidthC[k];
if (ViewportStationary[k] && DPPPerSurface[k] == 1) {
swath_width_luma_ub[k] = dml_min(surface_height_ub_l, dml_floor(ViewportYStart[k] +
SwathWidthY[k] + Read256BytesBlockHeightY[k] - 1,
Read256BytesBlockHeightY[k]) -
dml_floor(ViewportYStart[k], Read256BytesBlockHeightY[k]));
} else {
swath_width_luma_ub[k] = dml_min(surface_height_ub_l, dml_ceil(SwathWidthY[k] - 1,
Read256BytesBlockHeightY[k]) + Read256BytesBlockHeightY[k]);
}
if (BytePerPixC[k] > 0) {
surface_height_ub_c = dml_ceil(SurfaceHeightC[k], Read256BytesBlockHeightC[k]);
if (ViewportStationary[k] && DPPPerSurface[k] == 1) {
swath_width_chroma_ub[k] = dml_min(surface_height_ub_c,
dml_floor(ViewportYStartC[k] + SwathWidthC[k] +
Read256BytesBlockHeightC[k] - 1,
Read256BytesBlockHeightC[k]) -
dml_floor(ViewportYStartC[k],
Read256BytesBlockHeightC[k]));
} else {
swath_width_chroma_ub[k] = dml_min(surface_height_ub_c,
dml_ceil(SwathWidthC[k] - 1, Read256BytesBlockHeightC[k]) +
Read256BytesBlockHeightC[k]);
}
} else {
swath_width_chroma_ub[k] = 0;
}
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d surface_width_ub_l=%0d\n", __func__, k, surface_width_ub_l);
dml_print("DML::%s: k=%d surface_height_ub_l=%0d\n", __func__, k, surface_height_ub_l);
dml_print("DML::%s: k=%d surface_width_ub_c=%0d\n", __func__, k, surface_width_ub_c);
dml_print("DML::%s: k=%d surface_height_ub_c=%0d\n", __func__, k, surface_height_ub_c);
dml_print("DML::%s: k=%d Read256BytesBlockWidthY=%0d\n", __func__, k, Read256BytesBlockWidthY[k]);
dml_print("DML::%s: k=%d Read256BytesBlockHeightY=%0d\n", __func__, k, Read256BytesBlockHeightY[k]);
dml_print("DML::%s: k=%d Read256BytesBlockWidthC=%0d\n", __func__, k, Read256BytesBlockWidthC[k]);
dml_print("DML::%s: k=%d Read256BytesBlockHeightC=%0d\n", __func__, k, Read256BytesBlockHeightC[k]);
dml_print("DML::%s: k=%d ViewportStationary=%0d\n", __func__, k, ViewportStationary[k]);
dml_print("DML::%s: k=%d DPPPerSurface=%0d\n", __func__, k, DPPPerSurface[k]);
dml_print("DML::%s: k=%d swath_width_luma_ub=%0d\n", __func__, k, swath_width_luma_ub[k]);
dml_print("DML::%s: k=%d swath_width_chroma_ub=%0d\n", __func__, k, swath_width_chroma_ub[k]);
dml_print("DML::%s: k=%d MaximumSwathHeightY=%0d\n", __func__, k, MaximumSwathHeightY[k]);
dml_print("DML::%s: k=%d MaximumSwathHeightC=%0d\n", __func__, k, MaximumSwathHeightC[k]);
#endif
}
}
bool dml32_UnboundedRequest(enum unbounded_requesting_policy UseUnboundedRequestingFinal,
unsigned int TotalNumberOfActiveDPP,
bool NoChroma,
enum output_encoder_class Output,
enum dm_swizzle_mode SurfaceTiling,
bool CompBufReservedSpaceNeedAdjustment,
bool DisableUnboundRequestIfCompBufReservedSpaceNeedAdjustment)
{
bool ret_val = false;
ret_val = (UseUnboundedRequestingFinal != dm_unbounded_requesting_disable &&
TotalNumberOfActiveDPP == 1 && NoChroma);
if (UseUnboundedRequestingFinal == dm_unbounded_requesting_edp_only && Output != dm_edp)
ret_val = false;
if (SurfaceTiling == dm_sw_linear)
ret_val = false;
if (CompBufReservedSpaceNeedAdjustment == 1 && DisableUnboundRequestIfCompBufReservedSpaceNeedAdjustment)
ret_val = false;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: CompBufReservedSpaceNeedAdjustment = %d\n", __func__, CompBufReservedSpaceNeedAdjustment);
dml_print("DML::%s: DisableUnboundRequestIfCompBufReservedSpaceNeedAdjustment = %d\n", __func__, DisableUnboundRequestIfCompBufReservedSpaceNeedAdjustment);
dml_print("DML::%s: ret_val = %d\n", __func__, ret_val);
#endif
return (ret_val);
}
void dml32_CalculateDETBufferSize(
unsigned int DETSizeOverride[],
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
bool ForceSingleDPP,
unsigned int NumberOfActiveSurfaces,
bool UnboundedRequestEnabled,
unsigned int nomDETInKByte,
unsigned int MaxTotalDETInKByte,
unsigned int ConfigReturnBufferSizeInKByte,
unsigned int MinCompressedBufferSizeInKByte,
unsigned int CompressedBufferSegmentSizeInkByteFinal,
enum source_format_class SourcePixelFormat[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
unsigned int RoundedUpMaxSwathSizeBytesY[],
unsigned int RoundedUpMaxSwathSizeBytesC[],
unsigned int DPPPerSurface[],
unsigned int DETBufferSizeInKByte[],
unsigned int *CompressedBufferSizeInkByte)
{
unsigned int DETBufferSizePoolInKByte;
unsigned int NextDETBufferPieceInKByte;
bool DETPieceAssignedToThisSurfaceAlready[DC__NUM_DPP__MAX];
bool NextPotentialSurfaceToAssignDETPieceFound;
unsigned int NextSurfaceToAssignDETPiece;
double TotalBandwidth;
double BandwidthOfSurfacesNotAssignedDETPiece;
unsigned int max_minDET;
unsigned int minDET;
unsigned int minDET_pipe;
unsigned int j, k;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: ForceSingleDPP = %d\n", __func__, ForceSingleDPP);
dml_print("DML::%s: nomDETInKByte = %d\n", __func__, nomDETInKByte);
dml_print("DML::%s: NumberOfActiveSurfaces = %d\n", __func__, NumberOfActiveSurfaces);
dml_print("DML::%s: UnboundedRequestEnabled = %d\n", __func__, UnboundedRequestEnabled);
dml_print("DML::%s: MaxTotalDETInKByte = %d\n", __func__, MaxTotalDETInKByte);
dml_print("DML::%s: ConfigReturnBufferSizeInKByte = %d\n", __func__, ConfigReturnBufferSizeInKByte);
dml_print("DML::%s: MinCompressedBufferSizeInKByte = %d\n", __func__, MinCompressedBufferSizeInKByte);
dml_print("DML::%s: CompressedBufferSegmentSizeInkByteFinal = %d\n", __func__,
CompressedBufferSegmentSizeInkByteFinal);
#endif
if (UnboundedRequestEnabled) {
if (DETSizeOverride[0] > 0) {
DETBufferSizeInKByte[0] = DETSizeOverride[0];
} else {
DETBufferSizeInKByte[0] = dml_max(nomDETInKByte, dml_ceil(2.0 *
((double) RoundedUpMaxSwathSizeBytesY[0] +
(double) RoundedUpMaxSwathSizeBytesC[0]) / 1024.0, 64.0));
}
*CompressedBufferSizeInkByte = ConfigReturnBufferSizeInKByte - DETBufferSizeInKByte[0];
} else {
DETBufferSizePoolInKByte = MaxTotalDETInKByte;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
DETBufferSizeInKByte[k] = nomDETInKByte;
if (SourcePixelFormat[k] == dm_420_8 || SourcePixelFormat[k] == dm_420_10 ||
SourcePixelFormat[k] == dm_420_12) {
max_minDET = nomDETInKByte - 64;
} else {
max_minDET = nomDETInKByte;
}
minDET = 128;
minDET_pipe = 0;
while (minDET <= max_minDET && minDET_pipe == 0) {
if (2.0 * ((double) RoundedUpMaxSwathSizeBytesY[k] +
(double) RoundedUpMaxSwathSizeBytesC[k]) / 1024.0 <= minDET)
minDET_pipe = minDET;
minDET = minDET + 64;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d minDET = %d\n", __func__, k, minDET);
dml_print("DML::%s: k=%0d max_minDET = %d\n", __func__, k, max_minDET);
dml_print("DML::%s: k=%0d minDET_pipe = %d\n", __func__, k, minDET_pipe);
dml_print("DML::%s: k=%0d RoundedUpMaxSwathSizeBytesY = %d\n", __func__, k,
RoundedUpMaxSwathSizeBytesY[k]);
dml_print("DML::%s: k=%0d RoundedUpMaxSwathSizeBytesC = %d\n", __func__, k,
RoundedUpMaxSwathSizeBytesC[k]);
#endif
if (minDET_pipe == 0) {
minDET_pipe = dml_max(128, dml_ceil(((double)RoundedUpMaxSwathSizeBytesY[k] +
(double)RoundedUpMaxSwathSizeBytesC[k]) / 1024.0, 64));
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d minDET_pipe = %d (assume each plane take half DET)\n",
__func__, k, minDET_pipe);
#endif
}
if (UseMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe) {
DETBufferSizeInKByte[k] = 0;
} else if (DETSizeOverride[k] > 0) {
DETBufferSizeInKByte[k] = DETSizeOverride[k];
DETBufferSizePoolInKByte = DETBufferSizePoolInKByte -
(ForceSingleDPP ? 1 : DPPPerSurface[k]) * DETSizeOverride[k];
} else if ((ForceSingleDPP ? 1 : DPPPerSurface[k]) * minDET_pipe <= DETBufferSizePoolInKByte) {
DETBufferSizeInKByte[k] = minDET_pipe;
DETBufferSizePoolInKByte = DETBufferSizePoolInKByte -
(ForceSingleDPP ? 1 : DPPPerSurface[k]) * minDET_pipe;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d DPPPerSurface = %d\n", __func__, k, DPPPerSurface[k]);
dml_print("DML::%s: k=%d DETSizeOverride = %d\n", __func__, k, DETSizeOverride[k]);
dml_print("DML::%s: k=%d DETBufferSizeInKByte = %d\n", __func__, k, DETBufferSizeInKByte[k]);
dml_print("DML::%s: DETBufferSizePoolInKByte = %d\n", __func__, DETBufferSizePoolInKByte);
#endif
}
TotalBandwidth = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe)
TotalBandwidth = TotalBandwidth + ReadBandwidthLuma[k] + ReadBandwidthChroma[k];
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: --- Before bandwidth adjustment ---\n", __func__);
for (uint k = 0; k < NumberOfActiveSurfaces; ++k)
dml_print("DML::%s: k=%d DETBufferSizeInKByte = %d\n", __func__, k, DETBufferSizeInKByte[k]);
dml_print("DML::%s: --- DET allocation with bandwidth ---\n", __func__);
dml_print("DML::%s: TotalBandwidth = %f\n", __func__, TotalBandwidth);
#endif
BandwidthOfSurfacesNotAssignedDETPiece = TotalBandwidth;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UseMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe) {
DETPieceAssignedToThisSurfaceAlready[k] = true;
} else if (DETSizeOverride[k] > 0 || (((double) (ForceSingleDPP ? 1 : DPPPerSurface[k]) *
(double) DETBufferSizeInKByte[k] / (double) MaxTotalDETInKByte) >=
((ReadBandwidthLuma[k] + ReadBandwidthChroma[k]) / TotalBandwidth))) {
DETPieceAssignedToThisSurfaceAlready[k] = true;
BandwidthOfSurfacesNotAssignedDETPiece = BandwidthOfSurfacesNotAssignedDETPiece -
ReadBandwidthLuma[k] - ReadBandwidthChroma[k];
} else {
DETPieceAssignedToThisSurfaceAlready[k] = false;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d DETPieceAssignedToThisSurfaceAlready = %d\n", __func__, k,
DETPieceAssignedToThisSurfaceAlready[k]);
dml_print("DML::%s: k=%d BandwidthOfSurfacesNotAssignedDETPiece = %f\n", __func__, k,
BandwidthOfSurfacesNotAssignedDETPiece);
#endif
}
for (j = 0; j < NumberOfActiveSurfaces; ++j) {
NextPotentialSurfaceToAssignDETPieceFound = false;
NextSurfaceToAssignDETPiece = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: j=%d k=%d, ReadBandwidthLuma[k] = %f\n", __func__, j, k,
ReadBandwidthLuma[k]);
dml_print("DML::%s: j=%d k=%d, ReadBandwidthChroma[k] = %f\n", __func__, j, k,
ReadBandwidthChroma[k]);
dml_print("DML::%s: j=%d k=%d, ReadBandwidthLuma[Next] = %f\n", __func__, j, k,
ReadBandwidthLuma[NextSurfaceToAssignDETPiece]);
dml_print("DML::%s: j=%d k=%d, ReadBandwidthChroma[Next] = %f\n", __func__, j, k,
ReadBandwidthChroma[NextSurfaceToAssignDETPiece]);
dml_print("DML::%s: j=%d k=%d, NextSurfaceToAssignDETPiece = %d\n", __func__, j, k,
NextSurfaceToAssignDETPiece);
#endif
if (!DETPieceAssignedToThisSurfaceAlready[k] &&
(!NextPotentialSurfaceToAssignDETPieceFound ||
ReadBandwidthLuma[k] + ReadBandwidthChroma[k] <
ReadBandwidthLuma[NextSurfaceToAssignDETPiece] +
ReadBandwidthChroma[NextSurfaceToAssignDETPiece])) {
NextSurfaceToAssignDETPiece = k;
NextPotentialSurfaceToAssignDETPieceFound = true;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: j=%d k=%d, DETPieceAssignedToThisSurfaceAlready = %d\n",
__func__, j, k, DETPieceAssignedToThisSurfaceAlready[k]);
dml_print("DML::%s: j=%d k=%d, NextPotentialSurfaceToAssignDETPieceFound = %d\n",
__func__, j, k, NextPotentialSurfaceToAssignDETPieceFound);
#endif
}
if (NextPotentialSurfaceToAssignDETPieceFound) {
NextDETBufferPieceInKByte = dml_min(
dml_round((double) DETBufferSizePoolInKByte *
(ReadBandwidthLuma[NextSurfaceToAssignDETPiece] +
ReadBandwidthChroma[NextSurfaceToAssignDETPiece]) /
BandwidthOfSurfacesNotAssignedDETPiece /
((ForceSingleDPP ? 1 :
DPPPerSurface[NextSurfaceToAssignDETPiece]) * 64.0)) *
(ForceSingleDPP ? 1 :
DPPPerSurface[NextSurfaceToAssignDETPiece]) * 64.0,
dml_floor((double) DETBufferSizePoolInKByte,
(ForceSingleDPP ? 1 :
DPPPerSurface[NextSurfaceToAssignDETPiece]) * 64.0));
if (NextDETBufferPieceInKByte > nomDETInKByte * (ForceSingleDPP ? 1 : DPPPerSurface[k])) {
if (DETBufferSizeInKByte[NextSurfaceToAssignDETPiece] <
nomDETInKByte * (ForceSingleDPP ? 1 : DPPPerSurface[k])) {
NextDETBufferPieceInKByte = nomDETInKByte * (ForceSingleDPP ? 1 : DPPPerSurface[k]) -
DETBufferSizeInKByte[NextSurfaceToAssignDETPiece];
} else {
NextDETBufferPieceInKByte = 0;
}
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: j=%0d, DETBufferSizePoolInKByte = %d\n", __func__, j,
DETBufferSizePoolInKByte);
dml_print("DML::%s: j=%0d, NextSurfaceToAssignDETPiece = %d\n", __func__, j,
NextSurfaceToAssignDETPiece);
dml_print("DML::%s: j=%0d, ReadBandwidthLuma[%0d] = %f\n", __func__, j,
NextSurfaceToAssignDETPiece, ReadBandwidthLuma[NextSurfaceToAssignDETPiece]);
dml_print("DML::%s: j=%0d, ReadBandwidthChroma[%0d] = %f\n", __func__, j,
NextSurfaceToAssignDETPiece, ReadBandwidthChroma[NextSurfaceToAssignDETPiece]);
dml_print("DML::%s: j=%0d, BandwidthOfSurfacesNotAssignedDETPiece = %f\n",
__func__, j, BandwidthOfSurfacesNotAssignedDETPiece);
dml_print("DML::%s: j=%0d, NextDETBufferPieceInKByte = %d\n", __func__, j,
NextDETBufferPieceInKByte);
dml_print("DML::%s: j=%0d, DETBufferSizeInKByte[%0d] increases from %0d ",
__func__, j, NextSurfaceToAssignDETPiece,
DETBufferSizeInKByte[NextSurfaceToAssignDETPiece]);
#endif
DETBufferSizeInKByte[NextSurfaceToAssignDETPiece] =
DETBufferSizeInKByte[NextSurfaceToAssignDETPiece]
+ NextDETBufferPieceInKByte
/ (ForceSingleDPP ? 1 : DPPPerSurface[NextSurfaceToAssignDETPiece]);
#ifdef __DML_VBA_DEBUG__
dml_print("to %0d\n", DETBufferSizeInKByte[NextSurfaceToAssignDETPiece]);
#endif
DETBufferSizePoolInKByte = DETBufferSizePoolInKByte - NextDETBufferPieceInKByte;
DETPieceAssignedToThisSurfaceAlready[NextSurfaceToAssignDETPiece] = true;
BandwidthOfSurfacesNotAssignedDETPiece = BandwidthOfSurfacesNotAssignedDETPiece -
(ReadBandwidthLuma[NextSurfaceToAssignDETPiece] +
ReadBandwidthChroma[NextSurfaceToAssignDETPiece]);
}
}
*CompressedBufferSizeInkByte = MinCompressedBufferSizeInKByte;
}
*CompressedBufferSizeInkByte = *CompressedBufferSizeInkByte * CompressedBufferSegmentSizeInkByteFinal / 64;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: --- After bandwidth adjustment ---\n", __func__);
dml_print("DML::%s: CompressedBufferSizeInkByte = %d\n", __func__, *CompressedBufferSizeInkByte);
for (uint k = 0; k < NumberOfActiveSurfaces; ++k) {
dml_print("DML::%s: k=%d DETBufferSizeInKByte = %d (TotalReadBandWidth=%f)\n",
__func__, k, DETBufferSizeInKByte[k], ReadBandwidthLuma[k] + ReadBandwidthChroma[k]);
}
#endif
}
void dml32_CalculateODMMode(
unsigned int MaximumPixelsPerLinePerDSCUnit,
unsigned int HActive,
enum output_format_class OutFormat,
enum output_encoder_class Output,
enum odm_combine_policy ODMUse,
double StateDispclk,
double MaxDispclk,
bool DSCEnable,
unsigned int TotalNumberOfActiveDPP,
unsigned int MaxNumDPP,
double PixelClock,
double DISPCLKDPPCLKDSCCLKDownSpreading,
double DISPCLKRampingMargin,
double DISPCLKDPPCLKVCOSpeed,
unsigned int NumberOfDSCSlices,
bool *TotalAvailablePipesSupport,
unsigned int *NumberOfDPP,
enum odm_combine_mode *ODMMode,
double *RequiredDISPCLKPerSurface)
{
double SurfaceRequiredDISPCLKWithoutODMCombine;
double SurfaceRequiredDISPCLKWithODMCombineTwoToOne;
double SurfaceRequiredDISPCLKWithODMCombineFourToOne;
SurfaceRequiredDISPCLKWithoutODMCombine = dml32_CalculateRequiredDispclk(dm_odm_combine_mode_disabled,
PixelClock, DISPCLKDPPCLKDSCCLKDownSpreading, DISPCLKRampingMargin, DISPCLKDPPCLKVCOSpeed,
MaxDispclk);
SurfaceRequiredDISPCLKWithODMCombineTwoToOne = dml32_CalculateRequiredDispclk(dm_odm_combine_mode_2to1,
PixelClock, DISPCLKDPPCLKDSCCLKDownSpreading, DISPCLKRampingMargin, DISPCLKDPPCLKVCOSpeed,
MaxDispclk);
SurfaceRequiredDISPCLKWithODMCombineFourToOne = dml32_CalculateRequiredDispclk(dm_odm_combine_mode_4to1,
PixelClock, DISPCLKDPPCLKDSCCLKDownSpreading, DISPCLKRampingMargin, DISPCLKDPPCLKVCOSpeed,
MaxDispclk);
*TotalAvailablePipesSupport = true;
*ODMMode = dm_odm_combine_mode_disabled;
if (ODMUse == dm_odm_combine_policy_none)
*ODMMode = dm_odm_combine_mode_disabled;
*RequiredDISPCLKPerSurface = SurfaceRequiredDISPCLKWithoutODMCombine;
*NumberOfDPP = 0;
if (!(Output == dm_hdmi || Output == dm_dp || Output == dm_edp) && (ODMUse == dm_odm_combine_policy_4to1 ||
((SurfaceRequiredDISPCLKWithODMCombineTwoToOne > StateDispclk ||
(DSCEnable && (HActive > 2 * MaximumPixelsPerLinePerDSCUnit))
|| NumberOfDSCSlices > 8)))) {
if (TotalNumberOfActiveDPP + 4 <= MaxNumDPP) {
*ODMMode = dm_odm_combine_mode_4to1;
*RequiredDISPCLKPerSurface = SurfaceRequiredDISPCLKWithODMCombineFourToOne;
*NumberOfDPP = 4;
} else {
*TotalAvailablePipesSupport = false;
}
} else if (Output != dm_hdmi && (ODMUse == dm_odm_combine_policy_2to1 ||
(((SurfaceRequiredDISPCLKWithoutODMCombine > StateDispclk &&
SurfaceRequiredDISPCLKWithODMCombineTwoToOne <= StateDispclk) ||
(DSCEnable && (HActive > MaximumPixelsPerLinePerDSCUnit))
|| (NumberOfDSCSlices <= 8 && NumberOfDSCSlices > 4))))) {
if (TotalNumberOfActiveDPP + 2 <= MaxNumDPP) {
*ODMMode = dm_odm_combine_mode_2to1;
*RequiredDISPCLKPerSurface = SurfaceRequiredDISPCLKWithODMCombineTwoToOne;
*NumberOfDPP = 2;
} else {
*TotalAvailablePipesSupport = false;
}
} else {
if (TotalNumberOfActiveDPP + 1 <= MaxNumDPP)
*NumberOfDPP = 1;
else
*TotalAvailablePipesSupport = false;
}
if (OutFormat == dm_420 && HActive > DCN32_MAX_FMT_420_BUFFER_WIDTH &&
ODMUse != dm_odm_combine_policy_4to1) {
if (HActive > DCN32_MAX_FMT_420_BUFFER_WIDTH * 4) {
*ODMMode = dm_odm_combine_mode_disabled;
*NumberOfDPP = 0;
*TotalAvailablePipesSupport = false;
} else if (HActive > DCN32_MAX_FMT_420_BUFFER_WIDTH * 2 ||
*ODMMode == dm_odm_combine_mode_4to1) {
*ODMMode = dm_odm_combine_mode_4to1;
*RequiredDISPCLKPerSurface = SurfaceRequiredDISPCLKWithODMCombineFourToOne;
*NumberOfDPP = 4;
} else {
*ODMMode = dm_odm_combine_mode_2to1;
*RequiredDISPCLKPerSurface = SurfaceRequiredDISPCLKWithODMCombineTwoToOne;
*NumberOfDPP = 2;
}
}
if (Output == dm_hdmi && OutFormat == dm_420 &&
HActive > DCN32_MAX_FMT_420_BUFFER_WIDTH) {
*ODMMode = dm_odm_combine_mode_disabled;
*NumberOfDPP = 0;
*TotalAvailablePipesSupport = false;
}
}
double dml32_CalculateRequiredDispclk(
enum odm_combine_mode ODMMode,
double PixelClock,
double DISPCLKDPPCLKDSCCLKDownSpreading,
double DISPCLKRampingMargin,
double DISPCLKDPPCLKVCOSpeed,
double MaxDispclk)
{
double RequiredDispclk = 0.;
double PixelClockAfterODM;
double DISPCLKWithRampingRoundedToDFSGranularity;
double DISPCLKWithoutRampingRoundedToDFSGranularity;
double MaxDispclkRoundedDownToDFSGranularity;
if (ODMMode == dm_odm_combine_mode_4to1)
PixelClockAfterODM = PixelClock / 4;
else if (ODMMode == dm_odm_combine_mode_2to1)
PixelClockAfterODM = PixelClock / 2;
else
PixelClockAfterODM = PixelClock;
DISPCLKWithRampingRoundedToDFSGranularity = dml32_RoundToDFSGranularity(
PixelClockAfterODM * (1 + DISPCLKDPPCLKDSCCLKDownSpreading / 100)
* (1 + DISPCLKRampingMargin / 100), 1, DISPCLKDPPCLKVCOSpeed);
DISPCLKWithoutRampingRoundedToDFSGranularity = dml32_RoundToDFSGranularity(
PixelClockAfterODM * (1 + DISPCLKDPPCLKDSCCLKDownSpreading / 100), 1, DISPCLKDPPCLKVCOSpeed);
MaxDispclkRoundedDownToDFSGranularity = dml32_RoundToDFSGranularity(MaxDispclk, 0, DISPCLKDPPCLKVCOSpeed);
if (DISPCLKWithoutRampingRoundedToDFSGranularity > MaxDispclkRoundedDownToDFSGranularity)
RequiredDispclk = DISPCLKWithoutRampingRoundedToDFSGranularity;
else if (DISPCLKWithRampingRoundedToDFSGranularity > MaxDispclkRoundedDownToDFSGranularity)
RequiredDispclk = MaxDispclkRoundedDownToDFSGranularity;
else
RequiredDispclk = DISPCLKWithRampingRoundedToDFSGranularity;
return RequiredDispclk;
}
double dml32_RoundToDFSGranularity(double Clock, bool round_up, double VCOSpeed)
{
if (Clock <= 0.0)
return 0.0;
if (round_up)
return VCOSpeed * 4.0 / dml_floor(VCOSpeed * 4.0 / Clock, 1.0);
else
return VCOSpeed * 4.0 / dml_ceil(VCOSpeed * 4.0 / Clock, 1.0);
}
void dml32_CalculateOutputLink(
double PHYCLKPerState,
double PHYCLKD18PerState,
double PHYCLKD32PerState,
double Downspreading,
bool IsMainSurfaceUsingTheIndicatedTiming,
enum output_encoder_class Output,
enum output_format_class OutputFormat,
unsigned int HTotal,
unsigned int HActive,
double PixelClockBackEnd,
double ForcedOutputLinkBPP,
unsigned int DSCInputBitPerComponent,
unsigned int NumberOfDSCSlices,
double AudioSampleRate,
unsigned int AudioSampleLayout,
enum odm_combine_mode ODMModeNoDSC,
enum odm_combine_mode ODMModeDSC,
bool DSCEnable,
unsigned int OutputLinkDPLanes,
enum dm_output_link_dp_rate OutputLinkDPRate,
bool *RequiresDSC,
double *RequiresFEC,
double *OutBpp,
enum dm_output_type *OutputType,
enum dm_output_rate *OutputRate,
unsigned int *RequiredSlots)
{
bool LinkDSCEnable;
unsigned int dummy;
*RequiresDSC = false;
*RequiresFEC = false;
*OutBpp = 0;
*OutputType = dm_output_type_unknown;
*OutputRate = dm_output_rate_unknown;
if (IsMainSurfaceUsingTheIndicatedTiming) {
if (Output == dm_hdmi) {
*RequiresDSC = false;
*RequiresFEC = false;
*OutBpp = dml32_TruncToValidBPP(dml_min(600, PHYCLKPerState) * 10, 3, HTotal, HActive,
PixelClockBackEnd, ForcedOutputLinkBPP, false, Output, OutputFormat,
DSCInputBitPerComponent, NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, &dummy);
*OutputType = dm_output_type_hdmi;
} else if (Output == dm_dp || Output == dm_dp2p0 || Output == dm_edp) {
if (DSCEnable == true) {
*RequiresDSC = true;
LinkDSCEnable = true;
if (Output == dm_dp || Output == dm_dp2p0)
*RequiresFEC = true;
else
*RequiresFEC = false;
} else {
*RequiresDSC = false;
LinkDSCEnable = false;
if (Output == dm_dp2p0)
*RequiresFEC = true;
else
*RequiresFEC = false;
}
if (Output == dm_dp2p0) {
*OutBpp = 0;
if ((OutputLinkDPRate == dm_dp_rate_na || OutputLinkDPRate == dm_dp_rate_uhbr10) &&
PHYCLKD32PerState >= 10000 / 32) {
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 10000,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output, OutputFormat,
DSCInputBitPerComponent, NumberOfDSCSlices, AudioSampleRate,
AudioSampleLayout, ODMModeNoDSC, ODMModeDSC, RequiredSlots);
if (*OutBpp == 0 && PHYCLKD32PerState < 13500 / 32 && DSCEnable == true &&
ForcedOutputLinkBPP == 0) {
*RequiresDSC = true;
LinkDSCEnable = true;
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 10000,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent,
NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, RequiredSlots);
}
*OutputType = dm_output_type_dp2p0;
*OutputRate = dm_output_rate_dp_rate_uhbr10;
}
if ((OutputLinkDPRate == dm_dp_rate_na || OutputLinkDPRate == dm_dp_rate_uhbr13p5) &&
*OutBpp == 0 && PHYCLKD32PerState >= 13500 / 32) {
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 13500,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output, OutputFormat,
DSCInputBitPerComponent, NumberOfDSCSlices, AudioSampleRate,
AudioSampleLayout, ODMModeNoDSC, ODMModeDSC, RequiredSlots);
if (*OutBpp == 0 && PHYCLKD32PerState < 20000 / 32 && DSCEnable == true &&
ForcedOutputLinkBPP == 0) {
*RequiresDSC = true;
LinkDSCEnable = true;
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 13500,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent,
NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, RequiredSlots);
}
*OutputType = dm_output_type_dp2p0;
*OutputRate = dm_output_rate_dp_rate_uhbr13p5;
}
if ((OutputLinkDPRate == dm_dp_rate_na || OutputLinkDPRate == dm_dp_rate_uhbr20) &&
*OutBpp == 0 && PHYCLKD32PerState >= 20000 / 32) {
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 20000,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output, OutputFormat,
DSCInputBitPerComponent, NumberOfDSCSlices, AudioSampleRate,
AudioSampleLayout, ODMModeNoDSC, ODMModeDSC, RequiredSlots);
if (*OutBpp == 0 && DSCEnable == true && ForcedOutputLinkBPP == 0) {
*RequiresDSC = true;
LinkDSCEnable = true;
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 20000,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent,
NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, RequiredSlots);
}
*OutputType = dm_output_type_dp2p0;
*OutputRate = dm_output_rate_dp_rate_uhbr20;
}
} else {
*OutBpp = 0;
if ((OutputLinkDPRate == dm_dp_rate_na || OutputLinkDPRate == dm_dp_rate_hbr) &&
PHYCLKPerState >= 270) {
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 2700,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output, OutputFormat,
DSCInputBitPerComponent, NumberOfDSCSlices, AudioSampleRate,
AudioSampleLayout, ODMModeNoDSC, ODMModeDSC, RequiredSlots);
if (*OutBpp == 0 && PHYCLKPerState < 540 && DSCEnable == true &&
ForcedOutputLinkBPP == 0) {
*RequiresDSC = true;
LinkDSCEnable = true;
if (Output == dm_dp)
*RequiresFEC = true;
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 2700,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent,
NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, RequiredSlots);
}
*OutputType = (Output == dm_dp) ? dm_output_type_dp : dm_output_type_edp;
*OutputRate = dm_output_rate_dp_rate_hbr;
}
if ((OutputLinkDPRate == dm_dp_rate_na || OutputLinkDPRate == dm_dp_rate_hbr2) &&
*OutBpp == 0 && PHYCLKPerState >= 540) {
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 5400,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output, OutputFormat,
DSCInputBitPerComponent, NumberOfDSCSlices, AudioSampleRate,
AudioSampleLayout, ODMModeNoDSC, ODMModeDSC, RequiredSlots);
if (*OutBpp == 0 && PHYCLKPerState < 810 && DSCEnable == true &&
ForcedOutputLinkBPP == 0) {
*RequiresDSC = true;
LinkDSCEnable = true;
if (Output == dm_dp)
*RequiresFEC = true;
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 5400,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent,
NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, RequiredSlots);
}
*OutputType = (Output == dm_dp) ? dm_output_type_dp : dm_output_type_edp;
*OutputRate = dm_output_rate_dp_rate_hbr2;
}
if ((OutputLinkDPRate == dm_dp_rate_na || OutputLinkDPRate == dm_dp_rate_hbr3) && *OutBpp == 0 && PHYCLKPerState >= 810) {
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 8100,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent, NumberOfDSCSlices,
AudioSampleRate, AudioSampleLayout, ODMModeNoDSC, ODMModeDSC,
RequiredSlots);
if (*OutBpp == 0 && DSCEnable == true && ForcedOutputLinkBPP == 0) {
*RequiresDSC = true;
LinkDSCEnable = true;
if (Output == dm_dp)
*RequiresFEC = true;
*OutBpp = dml32_TruncToValidBPP((1 - Downspreading / 100) * 8100,
OutputLinkDPLanes, HTotal, HActive, PixelClockBackEnd,
ForcedOutputLinkBPP, LinkDSCEnable, Output,
OutputFormat, DSCInputBitPerComponent,
NumberOfDSCSlices, AudioSampleRate, AudioSampleLayout,
ODMModeNoDSC, ODMModeDSC, RequiredSlots);
}
*OutputType = (Output == dm_dp) ? dm_output_type_dp : dm_output_type_edp;
*OutputRate = dm_output_rate_dp_rate_hbr3;
}
}
}
}
}
void dml32_CalculateDPPCLK(
unsigned int NumberOfActiveSurfaces,
double DISPCLKDPPCLKDSCCLKDownSpreading,
double DISPCLKDPPCLKVCOSpeed,
double DPPCLKUsingSingleDPP[],
unsigned int DPPPerSurface[],
double *GlobalDPPCLK,
double Dppclk[])
{
unsigned int k;
*GlobalDPPCLK = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
Dppclk[k] = DPPCLKUsingSingleDPP[k] / DPPPerSurface[k] * (1 + DISPCLKDPPCLKDSCCLKDownSpreading / 100);
*GlobalDPPCLK = dml_max(*GlobalDPPCLK, Dppclk[k]);
}
*GlobalDPPCLK = dml32_RoundToDFSGranularity(*GlobalDPPCLK, 1, DISPCLKDPPCLKVCOSpeed);
for (k = 0; k < NumberOfActiveSurfaces; ++k)
Dppclk[k] = *GlobalDPPCLK / 255 * dml_ceil(Dppclk[k] * 255.0 / *GlobalDPPCLK, 1.0);
}
double dml32_TruncToValidBPP(
double LinkBitRate,
unsigned int Lanes,
unsigned int HTotal,
unsigned int HActive,
double PixelClock,
double DesiredBPP,
bool DSCEnable,
enum output_encoder_class Output,
enum output_format_class Format,
unsigned int DSCInputBitPerComponent,
unsigned int DSCSlices,
unsigned int AudioRate,
unsigned int AudioLayout,
enum odm_combine_mode ODMModeNoDSC,
enum odm_combine_mode ODMModeDSC,
unsigned int *RequiredSlots)
{
double MaxLinkBPP;
unsigned int MinDSCBPP;
double MaxDSCBPP;
unsigned int NonDSCBPP0;
unsigned int NonDSCBPP1;
unsigned int NonDSCBPP2;
if (Format == dm_420) {
NonDSCBPP0 = 12;
NonDSCBPP1 = 15;
NonDSCBPP2 = 18;
MinDSCBPP = 6;
MaxDSCBPP = 1.5 * DSCInputBitPerComponent - 1 / 16;
} else if (Format == dm_444) {
NonDSCBPP0 = 24;
NonDSCBPP1 = 30;
NonDSCBPP2 = 36;
MinDSCBPP = 8;
MaxDSCBPP = 3 * DSCInputBitPerComponent - 1.0 / 16;
} else {
if (Output == dm_hdmi) {
NonDSCBPP0 = 24;
NonDSCBPP1 = 24;
NonDSCBPP2 = 24;
} else {
NonDSCBPP0 = 16;
NonDSCBPP1 = 20;
NonDSCBPP2 = 24;
}
if (Format == dm_n422) {
MinDSCBPP = 7;
MaxDSCBPP = 2 * DSCInputBitPerComponent - 1.0 / 16.0;
} else {
MinDSCBPP = 8;
MaxDSCBPP = 3 * DSCInputBitPerComponent - 1.0 / 16.0;
}
}
if (Output == dm_dp2p0) {
MaxLinkBPP = LinkBitRate * Lanes / PixelClock * 128 / 132 * 383 / 384 * 65536 / 65540;
} else if (DSCEnable && Output == dm_dp) {
MaxLinkBPP = LinkBitRate / 10 * 8 * Lanes / PixelClock * (1 - 2.4 / 100);
} else {
MaxLinkBPP = LinkBitRate / 10 * 8 * Lanes / PixelClock;
}
if (DSCEnable) {
if (ODMModeDSC == dm_odm_combine_mode_4to1)
MaxLinkBPP = dml_min(MaxLinkBPP, 16);
else if (ODMModeDSC == dm_odm_combine_mode_2to1)
MaxLinkBPP = dml_min(MaxLinkBPP, 32);
else if (ODMModeDSC == dm_odm_split_mode_1to2)
MaxLinkBPP = 2 * MaxLinkBPP;
} else {
if (ODMModeNoDSC == dm_odm_combine_mode_4to1)
MaxLinkBPP = dml_min(MaxLinkBPP, 16);
else if (ODMModeNoDSC == dm_odm_combine_mode_2to1)
MaxLinkBPP = dml_min(MaxLinkBPP, 32);
else if (ODMModeNoDSC == dm_odm_split_mode_1to2)
MaxLinkBPP = 2 * MaxLinkBPP;
}
if (DesiredBPP == 0) {
if (DSCEnable) {
if (MaxLinkBPP < MinDSCBPP)
return BPP_INVALID;
else if (MaxLinkBPP >= MaxDSCBPP)
return MaxDSCBPP;
else
return dml_floor(16.0 * MaxLinkBPP, 1.0) / 16.0;
} else {
if (MaxLinkBPP >= NonDSCBPP2)
return NonDSCBPP2;
else if (MaxLinkBPP >= NonDSCBPP1)
return NonDSCBPP1;
else if (MaxLinkBPP >= NonDSCBPP0)
return 16.0;
else
return BPP_INVALID;
}
} else {
if (!((DSCEnable == false && (DesiredBPP == NonDSCBPP2 || DesiredBPP == NonDSCBPP1 ||
DesiredBPP <= NonDSCBPP0)) ||
(DSCEnable && DesiredBPP >= MinDSCBPP && DesiredBPP <= MaxDSCBPP)))
return BPP_INVALID;
else
return DesiredBPP;
}
*RequiredSlots = dml_ceil(DesiredBPP / MaxLinkBPP * 64, 1);
return BPP_INVALID;
}
double dml32_RequiredDTBCLK(
bool DSCEnable,
double PixelClock,
enum output_format_class OutputFormat,
double OutputBpp,
unsigned int DSCSlices,
unsigned int HTotal,
unsigned int HActive,
unsigned int AudioRate,
unsigned int AudioLayout)
{
double PixelWordRate;
double HCActive;
double HCBlank;
double AverageTribyteRate;
double HActiveTribyteRate;
if (DSCEnable != true)
return dml_max(PixelClock / 4.0 * OutputBpp / 24.0, 25.0);
PixelWordRate = PixelClock / (OutputFormat == dm_444 ? 1 : 2);
HCActive = dml_ceil(DSCSlices * dml_ceil(OutputBpp *
dml_ceil(HActive / DSCSlices, 1) / 8.0, 1) / 3.0, 1);
HCBlank = 64 + 32 *
dml_ceil(AudioRate * (AudioLayout == 1 ? 1 : 0.25) * HTotal / (PixelClock * 1000), 1);
AverageTribyteRate = PixelWordRate * (HCActive + HCBlank) / HTotal;
HActiveTribyteRate = PixelWordRate * HCActive / HActive;
return dml_max4(PixelWordRate / 4.0, AverageTribyteRate / 4.0, HActiveTribyteRate / 4.0, 25.0) * 1.002;
}
unsigned int dml32_DSCDelayRequirement(bool DSCEnabled,
enum odm_combine_mode ODMMode,
unsigned int DSCInputBitPerComponent,
double OutputBpp,
unsigned int HActive,
unsigned int HTotal,
unsigned int NumberOfDSCSlices,
enum output_format_class OutputFormat,
enum output_encoder_class Output,
double PixelClock,
double PixelClockBackEnd,
double dsc_delay_factor_wa)
{
unsigned int DSCDelayRequirement_val;
if (DSCEnabled == true && OutputBpp != 0) {
if (ODMMode == dm_odm_combine_mode_4to1) {
DSCDelayRequirement_val = 4 * (dml32_dscceComputeDelay(DSCInputBitPerComponent, OutputBpp,
dml_ceil(HActive / NumberOfDSCSlices, 1), NumberOfDSCSlices / 4,
OutputFormat, Output) + dml32_dscComputeDelay(OutputFormat, Output));
} else if (ODMMode == dm_odm_combine_mode_2to1) {
DSCDelayRequirement_val = 2 * (dml32_dscceComputeDelay(DSCInputBitPerComponent, OutputBpp,
dml_ceil(HActive / NumberOfDSCSlices, 1), NumberOfDSCSlices / 2,
OutputFormat, Output) + dml32_dscComputeDelay(OutputFormat, Output));
} else {
DSCDelayRequirement_val = dml32_dscceComputeDelay(DSCInputBitPerComponent, OutputBpp,
dml_ceil(HActive / NumberOfDSCSlices, 1), NumberOfDSCSlices,
OutputFormat, Output) + dml32_dscComputeDelay(OutputFormat, Output);
}
DSCDelayRequirement_val = DSCDelayRequirement_val + (HTotal - HActive) *
dml_ceil((double)DSCDelayRequirement_val / HActive, 1);
DSCDelayRequirement_val = DSCDelayRequirement_val * PixelClock / PixelClockBackEnd;
} else {
DSCDelayRequirement_val = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DSCEnabled = %d\n", __func__, DSCEnabled);
dml_print("DML::%s: OutputBpp = %f\n", __func__, OutputBpp);
dml_print("DML::%s: HActive = %d\n", __func__, HActive);
dml_print("DML::%s: OutputFormat = %d\n", __func__, OutputFormat);
dml_print("DML::%s: DSCInputBitPerComponent = %d\n", __func__, DSCInputBitPerComponent);
dml_print("DML::%s: NumberOfDSCSlices = %d\n", __func__, NumberOfDSCSlices);
dml_print("DML::%s: DSCDelayRequirement_val = %d\n", __func__, DSCDelayRequirement_val);
#endif
return dml_ceil(DSCDelayRequirement_val * dsc_delay_factor_wa, 1);
}
void dml32_CalculateSurfaceSizeInMall(
unsigned int NumberOfActiveSurfaces,
unsigned int MALLAllocatedForDCN,
enum dm_use_mall_for_static_screen_mode UseMALLForStaticScreen[],
enum dm_use_mall_for_pstate_change_mode UsesMALLForPStateChange[],
bool DCCEnable[],
bool ViewportStationary[],
unsigned int ViewportXStartY[],
unsigned int ViewportYStartY[],
unsigned int ViewportXStartC[],
unsigned int ViewportYStartC[],
unsigned int ViewportWidthY[],
unsigned int ViewportHeightY[],
unsigned int BytesPerPixelY[],
unsigned int ViewportWidthC[],
unsigned int ViewportHeightC[],
unsigned int BytesPerPixelC[],
unsigned int SurfaceWidthY[],
unsigned int SurfaceWidthC[],
unsigned int SurfaceHeightY[],
unsigned int SurfaceHeightC[],
unsigned int Read256BytesBlockWidthY[],
unsigned int Read256BytesBlockWidthC[],
unsigned int Read256BytesBlockHeightY[],
unsigned int Read256BytesBlockHeightC[],
unsigned int ReadBlockWidthY[],
unsigned int ReadBlockWidthC[],
unsigned int ReadBlockHeightY[],
unsigned int ReadBlockHeightC[],
unsigned int DCCMetaPitchY[],
unsigned int DCCMetaPitchC[],
unsigned int SurfaceSizeInMALL[],
bool *ExceededMALLSize)
{
unsigned int k;
unsigned int TotalSurfaceSizeInMALLForSS = 0;
unsigned int TotalSurfaceSizeInMALLForSubVP = 0;
unsigned int MALLAllocatedForDCNInBytes = MALLAllocatedForDCN * 1024 * 1024;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (ViewportStationary[k]) {
SurfaceSizeInMALL[k] = dml_min(dml_ceil(SurfaceWidthY[k], ReadBlockWidthY[k]),
dml_floor(ViewportXStartY[k] + ViewportWidthY[k] + ReadBlockWidthY[k] - 1,
ReadBlockWidthY[k]) - dml_floor(ViewportXStartY[k],
ReadBlockWidthY[k])) * dml_min(dml_ceil(SurfaceHeightY[k],
ReadBlockHeightY[k]), dml_floor(ViewportYStartY[k] +
ViewportHeightY[k] + ReadBlockHeightY[k] - 1, ReadBlockHeightY[k]) -
dml_floor(ViewportYStartY[k], ReadBlockHeightY[k])) * BytesPerPixelY[k];
if (ReadBlockWidthC[k] > 0) {
SurfaceSizeInMALL[k] = SurfaceSizeInMALL[k] +
dml_min(dml_ceil(SurfaceWidthC[k], ReadBlockWidthC[k]),
dml_floor(ViewportXStartC[k] + ViewportWidthC[k] +
ReadBlockWidthC[k] - 1, ReadBlockWidthC[k]) -
dml_floor(ViewportXStartC[k], ReadBlockWidthC[k])) *
dml_min(dml_ceil(SurfaceHeightC[k], ReadBlockHeightC[k]),
dml_floor(ViewportYStartC[k] + ViewportHeightC[k] +
ReadBlockHeightC[k] - 1, ReadBlockHeightC[k]) -
dml_floor(ViewportYStartC[k], ReadBlockHeightC[k])) *
BytesPerPixelC[k];
}
if (DCCEnable[k] == true) {
SurfaceSizeInMALL[k] = SurfaceSizeInMALL[k] +
(dml_min(dml_ceil(DCCMetaPitchY[k], 8 * Read256BytesBlockWidthY[k]),
dml_floor(ViewportXStartY[k] + ViewportWidthY[k] + 8 *
Read256BytesBlockWidthY[k] - 1, 8 * Read256BytesBlockWidthY[k])
- dml_floor(ViewportXStartY[k], 8 * Read256BytesBlockWidthY[k]))
* dml_min(dml_ceil(SurfaceHeightY[k], 8 *
Read256BytesBlockHeightY[k]), dml_floor(ViewportYStartY[k] +
ViewportHeightY[k] + 8 * Read256BytesBlockHeightY[k] - 1, 8 *
Read256BytesBlockHeightY[k]) - dml_floor(ViewportYStartY[k], 8 *
Read256BytesBlockHeightY[k])) * BytesPerPixelY[k] / 256) + (64 * 1024);
if (Read256BytesBlockWidthC[k] > 0) {
SurfaceSizeInMALL[k] = SurfaceSizeInMALL[k] +
dml_min(dml_ceil(DCCMetaPitchC[k], 8 *
Read256BytesBlockWidthC[k]),
dml_floor(ViewportXStartC[k] + ViewportWidthC[k] + 8
* Read256BytesBlockWidthC[k] - 1, 8 *
Read256BytesBlockWidthC[k]) -
dml_floor(ViewportXStartC[k], 8 *
Read256BytesBlockWidthC[k])) *
dml_min(dml_ceil(SurfaceHeightC[k], 8 *
Read256BytesBlockHeightC[k]),
dml_floor(ViewportYStartC[k] + ViewportHeightC[k] +
8 * Read256BytesBlockHeightC[k] - 1, 8 *
Read256BytesBlockHeightC[k]) -
dml_floor(ViewportYStartC[k], 8 *
Read256BytesBlockHeightC[k])) *
BytesPerPixelC[k] / 256;
}
}
} else {
SurfaceSizeInMALL[k] = dml_ceil(dml_min(SurfaceWidthY[k], ViewportWidthY[k] +
ReadBlockWidthY[k] - 1), ReadBlockWidthY[k]) *
dml_ceil(dml_min(SurfaceHeightY[k], ViewportHeightY[k] +
ReadBlockHeightY[k] - 1), ReadBlockHeightY[k]) *
BytesPerPixelY[k];
if (ReadBlockWidthC[k] > 0) {
SurfaceSizeInMALL[k] = SurfaceSizeInMALL[k] +
dml_ceil(dml_min(SurfaceWidthC[k], ViewportWidthC[k] +
ReadBlockWidthC[k] - 1), ReadBlockWidthC[k]) *
dml_ceil(dml_min(SurfaceHeightC[k], ViewportHeightC[k] +
ReadBlockHeightC[k] - 1), ReadBlockHeightC[k]) *
BytesPerPixelC[k];
}
if (DCCEnable[k] == true) {
SurfaceSizeInMALL[k] = SurfaceSizeInMALL[k] +
(dml_ceil(dml_min(DCCMetaPitchY[k], ViewportWidthY[k] + 8 *
Read256BytesBlockWidthY[k] - 1), 8 *
Read256BytesBlockWidthY[k]) *
dml_ceil(dml_min(SurfaceHeightY[k], ViewportHeightY[k] + 8 *
Read256BytesBlockHeightY[k] - 1), 8 *
Read256BytesBlockHeightY[k]) * BytesPerPixelY[k] / 256) + (64 * 1024);
if (Read256BytesBlockWidthC[k] > 0) {
SurfaceSizeInMALL[k] = SurfaceSizeInMALL[k] +
dml_ceil(dml_min(DCCMetaPitchC[k], ViewportWidthC[k] + 8 *
Read256BytesBlockWidthC[k] - 1), 8 *
Read256BytesBlockWidthC[k]) *
dml_ceil(dml_min(SurfaceHeightC[k], ViewportHeightC[k] + 8 *
Read256BytesBlockHeightC[k] - 1), 8 *
Read256BytesBlockHeightC[k]) *
BytesPerPixelC[k] / 256;
}
}
}
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UsesMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe)
TotalSurfaceSizeInMALLForSubVP = TotalSurfaceSizeInMALLForSubVP + SurfaceSizeInMALL[k];
else if (UseMALLForStaticScreen[k] == dm_use_mall_static_screen_enable)
TotalSurfaceSizeInMALLForSS = TotalSurfaceSizeInMALLForSS + SurfaceSizeInMALL[k];
}
*ExceededMALLSize = (TotalSurfaceSizeInMALLForSS > MALLAllocatedForDCNInBytes) ||
(TotalSurfaceSizeInMALLForSubVP > MALLAllocatedForDCNInBytes);
}
void dml32_CalculateVMRowAndSwath(
unsigned int NumberOfActiveSurfaces,
DmlPipe myPipe[],
unsigned int SurfaceSizeInMALL[],
unsigned int PTEBufferSizeInRequestsLuma,
unsigned int PTEBufferSizeInRequestsChroma,
unsigned int DCCMetaBufferSizeBytes,
enum dm_use_mall_for_static_screen_mode UseMALLForStaticScreen[],
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
unsigned int MALLAllocatedForDCN,
double SwathWidthY[],
double SwathWidthC[],
bool GPUVMEnable,
bool HostVMEnable,
unsigned int HostVMMaxNonCachedPageTableLevels,
unsigned int GPUVMMaxPageTableLevels,
unsigned int GPUVMMinPageSizeKBytes[],
unsigned int HostVMMinPageSize,
bool PTEBufferSizeNotExceeded[],
bool DCCMetaBufferSizeNotExceeded[],
unsigned int dpte_row_width_luma_ub[],
unsigned int dpte_row_width_chroma_ub[],
unsigned int dpte_row_height_luma[],
unsigned int dpte_row_height_chroma[],
unsigned int dpte_row_height_linear_luma[],
unsigned int dpte_row_height_linear_chroma[],
unsigned int meta_req_width[],
unsigned int meta_req_width_chroma[],
unsigned int meta_req_height[],
unsigned int meta_req_height_chroma[],
unsigned int meta_row_width[],
unsigned int meta_row_width_chroma[],
unsigned int meta_row_height[],
unsigned int meta_row_height_chroma[],
unsigned int vm_group_bytes[],
unsigned int dpte_group_bytes[],
unsigned int PixelPTEReqWidthY[],
unsigned int PixelPTEReqHeightY[],
unsigned int PTERequestSizeY[],
unsigned int PixelPTEReqWidthC[],
unsigned int PixelPTEReqHeightC[],
unsigned int PTERequestSizeC[],
unsigned int dpde0_bytes_per_frame_ub_l[],
unsigned int meta_pte_bytes_per_frame_ub_l[],
unsigned int dpde0_bytes_per_frame_ub_c[],
unsigned int meta_pte_bytes_per_frame_ub_c[],
double PrefetchSourceLinesY[],
double PrefetchSourceLinesC[],
double VInitPreFillY[],
double VInitPreFillC[],
unsigned int MaxNumSwathY[],
unsigned int MaxNumSwathC[],
double meta_row_bw[],
double dpte_row_bw[],
double PixelPTEBytesPerRow[],
double PDEAndMetaPTEBytesFrame[],
double MetaRowByte[],
bool use_one_row_for_frame[],
bool use_one_row_for_frame_flip[],
bool UsesMALLForStaticScreen[],
bool PTE_BUFFER_MODE[],
unsigned int BIGK_FRAGMENT_SIZE[])
{
unsigned int k;
unsigned int PTEBufferSizeInRequestsForLuma[DC__NUM_DPP__MAX];
unsigned int PTEBufferSizeInRequestsForChroma[DC__NUM_DPP__MAX];
unsigned int PDEAndMetaPTEBytesFrameY;
unsigned int PDEAndMetaPTEBytesFrameC;
unsigned int MetaRowByteY[DC__NUM_DPP__MAX];
unsigned int MetaRowByteC[DC__NUM_DPP__MAX];
unsigned int PixelPTEBytesPerRowY[DC__NUM_DPP__MAX];
unsigned int PixelPTEBytesPerRowC[DC__NUM_DPP__MAX];
unsigned int PixelPTEBytesPerRowY_one_row_per_frame[DC__NUM_DPP__MAX];
unsigned int PixelPTEBytesPerRowC_one_row_per_frame[DC__NUM_DPP__MAX];
unsigned int dpte_row_width_luma_ub_one_row_per_frame[DC__NUM_DPP__MAX];
unsigned int dpte_row_height_luma_one_row_per_frame[DC__NUM_DPP__MAX];
unsigned int dpte_row_width_chroma_ub_one_row_per_frame[DC__NUM_DPP__MAX];
unsigned int dpte_row_height_chroma_one_row_per_frame[DC__NUM_DPP__MAX];
bool one_row_per_frame_fits_in_buffer[DC__NUM_DPP__MAX];
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (HostVMEnable == true) {
vm_group_bytes[k] = 512;
dpte_group_bytes[k] = 512;
} else if (GPUVMEnable == true) {
vm_group_bytes[k] = 2048;
if (GPUVMMinPageSizeKBytes[k] >= 64 && IsVertical(myPipe[k].SourceRotation))
dpte_group_bytes[k] = 512;
else
dpte_group_bytes[k] = 2048;
} else {
vm_group_bytes[k] = 0;
dpte_group_bytes[k] = 0;
}
if (myPipe[k].SourcePixelFormat == dm_420_8 || myPipe[k].SourcePixelFormat == dm_420_10 ||
myPipe[k].SourcePixelFormat == dm_420_12 ||
myPipe[k].SourcePixelFormat == dm_rgbe_alpha) {
if ((myPipe[k].SourcePixelFormat == dm_420_10 || myPipe[k].SourcePixelFormat == dm_420_12) &&
!IsVertical(myPipe[k].SourceRotation)) {
PTEBufferSizeInRequestsForLuma[k] =
(PTEBufferSizeInRequestsLuma + PTEBufferSizeInRequestsChroma) / 2;
PTEBufferSizeInRequestsForChroma[k] = PTEBufferSizeInRequestsForLuma[k];
} else {
PTEBufferSizeInRequestsForLuma[k] = PTEBufferSizeInRequestsLuma;
PTEBufferSizeInRequestsForChroma[k] = PTEBufferSizeInRequestsChroma;
}
PDEAndMetaPTEBytesFrameC = dml32_CalculateVMAndRowBytes(
myPipe[k].ViewportStationary,
myPipe[k].DCCEnable,
myPipe[k].DPPPerSurface,
myPipe[k].BlockHeight256BytesC,
myPipe[k].BlockWidth256BytesC,
myPipe[k].SourcePixelFormat,
myPipe[k].SurfaceTiling,
myPipe[k].BytePerPixelC,
myPipe[k].SourceRotation,
SwathWidthC[k],
myPipe[k].ViewportHeightChroma,
myPipe[k].ViewportXStartC,
myPipe[k].ViewportYStartC,
GPUVMEnable,
HostVMEnable,
HostVMMaxNonCachedPageTableLevels,
GPUVMMaxPageTableLevels,
GPUVMMinPageSizeKBytes[k],
HostVMMinPageSize,
PTEBufferSizeInRequestsForChroma[k],
myPipe[k].PitchC,
myPipe[k].DCCMetaPitchC,
myPipe[k].BlockWidthC,
myPipe[k].BlockHeightC,
&MetaRowByteC[k],
&PixelPTEBytesPerRowC[k],
&dpte_row_width_chroma_ub[k],
&dpte_row_height_chroma[k],
&dpte_row_height_linear_chroma[k],
&PixelPTEBytesPerRowC_one_row_per_frame[k],
&dpte_row_width_chroma_ub_one_row_per_frame[k],
&dpte_row_height_chroma_one_row_per_frame[k],
&meta_req_width_chroma[k],
&meta_req_height_chroma[k],
&meta_row_width_chroma[k],
&meta_row_height_chroma[k],
&PixelPTEReqWidthC[k],
&PixelPTEReqHeightC[k],
&PTERequestSizeC[k],
&dpde0_bytes_per_frame_ub_c[k],
&meta_pte_bytes_per_frame_ub_c[k]);
PrefetchSourceLinesC[k] = dml32_CalculatePrefetchSourceLines(
myPipe[k].VRatioChroma,
myPipe[k].VTapsChroma,
myPipe[k].InterlaceEnable,
myPipe[k].ProgressiveToInterlaceUnitInOPP,
myPipe[k].SwathHeightC,
myPipe[k].SourceRotation,
myPipe[k].ViewportStationary,
SwathWidthC[k],
myPipe[k].ViewportHeightChroma,
myPipe[k].ViewportXStartC,
myPipe[k].ViewportYStartC,
&VInitPreFillC[k],
&MaxNumSwathC[k]);
} else {
PTEBufferSizeInRequestsForLuma[k] = PTEBufferSizeInRequestsLuma + PTEBufferSizeInRequestsChroma;
PTEBufferSizeInRequestsForChroma[k] = 0;
PixelPTEBytesPerRowC[k] = 0;
PDEAndMetaPTEBytesFrameC = 0;
MetaRowByteC[k] = 0;
MaxNumSwathC[k] = 0;
PrefetchSourceLinesC[k] = 0;
dpte_row_height_chroma_one_row_per_frame[k] = 0;
dpte_row_width_chroma_ub_one_row_per_frame[k] = 0;
PixelPTEBytesPerRowC_one_row_per_frame[k] = 0;
}
PDEAndMetaPTEBytesFrameY = dml32_CalculateVMAndRowBytes(
myPipe[k].ViewportStationary,
myPipe[k].DCCEnable,
myPipe[k].DPPPerSurface,
myPipe[k].BlockHeight256BytesY,
myPipe[k].BlockWidth256BytesY,
myPipe[k].SourcePixelFormat,
myPipe[k].SurfaceTiling,
myPipe[k].BytePerPixelY,
myPipe[k].SourceRotation,
SwathWidthY[k],
myPipe[k].ViewportHeight,
myPipe[k].ViewportXStart,
myPipe[k].ViewportYStart,
GPUVMEnable,
HostVMEnable,
HostVMMaxNonCachedPageTableLevels,
GPUVMMaxPageTableLevels,
GPUVMMinPageSizeKBytes[k],
HostVMMinPageSize,
PTEBufferSizeInRequestsForLuma[k],
myPipe[k].PitchY,
myPipe[k].DCCMetaPitchY,
myPipe[k].BlockWidthY,
myPipe[k].BlockHeightY,
&MetaRowByteY[k],
&PixelPTEBytesPerRowY[k],
&dpte_row_width_luma_ub[k],
&dpte_row_height_luma[k],
&dpte_row_height_linear_luma[k],
&PixelPTEBytesPerRowY_one_row_per_frame[k],
&dpte_row_width_luma_ub_one_row_per_frame[k],
&dpte_row_height_luma_one_row_per_frame[k],
&meta_req_width[k],
&meta_req_height[k],
&meta_row_width[k],
&meta_row_height[k],
&PixelPTEReqWidthY[k],
&PixelPTEReqHeightY[k],
&PTERequestSizeY[k],
&dpde0_bytes_per_frame_ub_l[k],
&meta_pte_bytes_per_frame_ub_l[k]);
PrefetchSourceLinesY[k] = dml32_CalculatePrefetchSourceLines(
myPipe[k].VRatio,
myPipe[k].VTaps,
myPipe[k].InterlaceEnable,
myPipe[k].ProgressiveToInterlaceUnitInOPP,
myPipe[k].SwathHeightY,
myPipe[k].SourceRotation,
myPipe[k].ViewportStationary,
SwathWidthY[k],
myPipe[k].ViewportHeight,
myPipe[k].ViewportXStart,
myPipe[k].ViewportYStart,
&VInitPreFillY[k],
&MaxNumSwathY[k]);
PDEAndMetaPTEBytesFrame[k] = PDEAndMetaPTEBytesFrameY + PDEAndMetaPTEBytesFrameC;
MetaRowByte[k] = MetaRowByteY[k] + MetaRowByteC[k];
if (PixelPTEBytesPerRowY[k] <= 64 * PTEBufferSizeInRequestsForLuma[k] &&
PixelPTEBytesPerRowC[k] <= 64 * PTEBufferSizeInRequestsForChroma[k]) {
PTEBufferSizeNotExceeded[k] = true;
} else {
PTEBufferSizeNotExceeded[k] = false;
}
one_row_per_frame_fits_in_buffer[k] = (PixelPTEBytesPerRowY_one_row_per_frame[k] <= 64 * 2 *
PTEBufferSizeInRequestsForLuma[k] &&
PixelPTEBytesPerRowC_one_row_per_frame[k] <= 64 * 2 * PTEBufferSizeInRequestsForChroma[k]);
}
dml32_CalculateMALLUseForStaticScreen(
NumberOfActiveSurfaces,
MALLAllocatedForDCN,
UseMALLForStaticScreen,
SurfaceSizeInMALL,
one_row_per_frame_fits_in_buffer,
UsesMALLForStaticScreen);
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
PTE_BUFFER_MODE[k] = myPipe[k].FORCE_ONE_ROW_FOR_FRAME || UsesMALLForStaticScreen[k] ||
(UseMALLForPStateChange[k] == dm_use_mall_pstate_change_sub_viewport) ||
(UseMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe) ||
(GPUVMMinPageSizeKBytes[k] > 64);
BIGK_FRAGMENT_SIZE[k] = dml_log2(GPUVMMinPageSizeKBytes[k] * 1024) - 12;
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, SurfaceSizeInMALL = %d\n", __func__, k, SurfaceSizeInMALL[k]);
dml_print("DML::%s: k=%d, UsesMALLForStaticScreen = %d\n", __func__, k, UsesMALLForStaticScreen[k]);
#endif
use_one_row_for_frame[k] = myPipe[k].FORCE_ONE_ROW_FOR_FRAME || UsesMALLForStaticScreen[k] ||
(UseMALLForPStateChange[k] == dm_use_mall_pstate_change_sub_viewport) ||
(UseMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe) ||
(GPUVMMinPageSizeKBytes[k] > 64 && IsVertical(myPipe[k].SourceRotation));
use_one_row_for_frame_flip[k] = use_one_row_for_frame[k] &&
!(UseMALLForPStateChange[k] == dm_use_mall_pstate_change_full_frame);
if (use_one_row_for_frame[k]) {
dpte_row_height_luma[k] = dpte_row_height_luma_one_row_per_frame[k];
dpte_row_width_luma_ub[k] = dpte_row_width_luma_ub_one_row_per_frame[k];
PixelPTEBytesPerRowY[k] = PixelPTEBytesPerRowY_one_row_per_frame[k];
dpte_row_height_chroma[k] = dpte_row_height_chroma_one_row_per_frame[k];
dpte_row_width_chroma_ub[k] = dpte_row_width_chroma_ub_one_row_per_frame[k];
PixelPTEBytesPerRowC[k] = PixelPTEBytesPerRowC_one_row_per_frame[k];
PTEBufferSizeNotExceeded[k] = one_row_per_frame_fits_in_buffer[k];
}
if (MetaRowByte[k] <= DCCMetaBufferSizeBytes)
DCCMetaBufferSizeNotExceeded[k] = true;
else
DCCMetaBufferSizeNotExceeded[k] = false;
PixelPTEBytesPerRow[k] = PixelPTEBytesPerRowY[k] + PixelPTEBytesPerRowC[k];
if (use_one_row_for_frame[k])
PixelPTEBytesPerRow[k] = PixelPTEBytesPerRow[k] / 2;
dml32_CalculateRowBandwidth(
GPUVMEnable,
myPipe[k].SourcePixelFormat,
myPipe[k].VRatio,
myPipe[k].VRatioChroma,
myPipe[k].DCCEnable,
myPipe[k].HTotal / myPipe[k].PixelClock,
MetaRowByteY[k], MetaRowByteC[k],
meta_row_height[k],
meta_row_height_chroma[k],
PixelPTEBytesPerRowY[k],
PixelPTEBytesPerRowC[k],
dpte_row_height_luma[k],
dpte_row_height_chroma[k],
&meta_row_bw[k],
&dpte_row_bw[k]);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, use_one_row_for_frame = %d\n", __func__, k, use_one_row_for_frame[k]);
dml_print("DML::%s: k=%d, use_one_row_for_frame_flip = %d\n",
__func__, k, use_one_row_for_frame_flip[k]);
dml_print("DML::%s: k=%d, UseMALLForPStateChange = %d\n",
__func__, k, UseMALLForPStateChange[k]);
dml_print("DML::%s: k=%d, dpte_row_height_luma = %d\n", __func__, k, dpte_row_height_luma[k]);
dml_print("DML::%s: k=%d, dpte_row_width_luma_ub = %d\n",
__func__, k, dpte_row_width_luma_ub[k]);
dml_print("DML::%s: k=%d, PixelPTEBytesPerRowY = %d\n", __func__, k, PixelPTEBytesPerRowY[k]);
dml_print("DML::%s: k=%d, dpte_row_height_chroma = %d\n",
__func__, k, dpte_row_height_chroma[k]);
dml_print("DML::%s: k=%d, dpte_row_width_chroma_ub = %d\n",
__func__, k, dpte_row_width_chroma_ub[k]);
dml_print("DML::%s: k=%d, PixelPTEBytesPerRowC = %d\n", __func__, k, PixelPTEBytesPerRowC[k]);
dml_print("DML::%s: k=%d, PixelPTEBytesPerRow = %d\n", __func__, k, PixelPTEBytesPerRow[k]);
dml_print("DML::%s: k=%d, PTEBufferSizeNotExceeded = %d\n",
__func__, k, PTEBufferSizeNotExceeded[k]);
dml_print("DML::%s: k=%d, PTE_BUFFER_MODE = %d\n", __func__, k, PTE_BUFFER_MODE[k]);
dml_print("DML::%s: k=%d, BIGK_FRAGMENT_SIZE = %d\n", __func__, k, BIGK_FRAGMENT_SIZE[k]);
#endif
}
}
unsigned int dml32_CalculateVMAndRowBytes(
bool ViewportStationary,
bool DCCEnable,
unsigned int NumberOfDPPs,
unsigned int BlockHeight256Bytes,
unsigned int BlockWidth256Bytes,
enum source_format_class SourcePixelFormat,
unsigned int SurfaceTiling,
unsigned int BytePerPixel,
enum dm_rotation_angle SourceRotation,
double SwathWidth,
unsigned int ViewportHeight,
unsigned int ViewportXStart,
unsigned int ViewportYStart,
bool GPUVMEnable,
bool HostVMEnable,
unsigned int HostVMMaxNonCachedPageTableLevels,
unsigned int GPUVMMaxPageTableLevels,
unsigned int GPUVMMinPageSizeKBytes,
unsigned int HostVMMinPageSize,
unsigned int PTEBufferSizeInRequests,
unsigned int Pitch,
unsigned int DCCMetaPitch,
unsigned int MacroTileWidth,
unsigned int MacroTileHeight,
unsigned int *MetaRowByte,
unsigned int *PixelPTEBytesPerRow,
unsigned int *dpte_row_width_ub,
unsigned int *dpte_row_height,
unsigned int *dpte_row_height_linear,
unsigned int *PixelPTEBytesPerRow_one_row_per_frame,
unsigned int *dpte_row_width_ub_one_row_per_frame,
unsigned int *dpte_row_height_one_row_per_frame,
unsigned int *MetaRequestWidth,
unsigned int *MetaRequestHeight,
unsigned int *meta_row_width,
unsigned int *meta_row_height,
unsigned int *PixelPTEReqWidth,
unsigned int *PixelPTEReqHeight,
unsigned int *PTERequestSize,
unsigned int *DPDE0BytesFrame,
unsigned int *MetaPTEBytesFrame)
{
unsigned int MPDEBytesFrame;
unsigned int DCCMetaSurfaceBytes;
unsigned int ExtraDPDEBytesFrame;
unsigned int PDEAndMetaPTEBytesFrame;
unsigned int HostVMDynamicLevels = 0;
unsigned int MacroTileSizeBytes;
unsigned int vp_height_meta_ub;
unsigned int vp_height_dpte_ub;
unsigned int PixelPTEReqWidth_linear = 0;
if (GPUVMEnable == true && HostVMEnable == true) {
if (HostVMMinPageSize < 2048)
HostVMDynamicLevels = HostVMMaxNonCachedPageTableLevels;
else if (HostVMMinPageSize >= 2048 && HostVMMinPageSize < 1048576)
HostVMDynamicLevels = dml_max(0, (int) HostVMMaxNonCachedPageTableLevels - 1);
else
HostVMDynamicLevels = dml_max(0, (int) HostVMMaxNonCachedPageTableLevels - 2);
}
*MetaRequestHeight = 8 * BlockHeight256Bytes;
*MetaRequestWidth = 8 * BlockWidth256Bytes;
if (SurfaceTiling == dm_sw_linear) {
*meta_row_height = 32;
*meta_row_width = dml_floor(ViewportXStart + SwathWidth + *MetaRequestWidth - 1, *MetaRequestWidth)
- dml_floor(ViewportXStart, *MetaRequestWidth);
} else if (!IsVertical(SourceRotation)) {
*meta_row_height = *MetaRequestHeight;
if (ViewportStationary && NumberOfDPPs == 1) {
*meta_row_width = dml_floor(ViewportXStart + SwathWidth + *MetaRequestWidth - 1,
*MetaRequestWidth) - dml_floor(ViewportXStart, *MetaRequestWidth);
} else {
*meta_row_width = dml_ceil(SwathWidth - 1, *MetaRequestWidth) + *MetaRequestWidth;
}
*MetaRowByte = *meta_row_width * *MetaRequestHeight * BytePerPixel / 256.0;
} else {
*meta_row_height = *MetaRequestWidth;
if (ViewportStationary && NumberOfDPPs == 1) {
*meta_row_width = dml_floor(ViewportYStart + ViewportHeight + *MetaRequestHeight - 1,
*MetaRequestHeight) - dml_floor(ViewportYStart, *MetaRequestHeight);
} else {
*meta_row_width = dml_ceil(SwathWidth - 1, *MetaRequestHeight) + *MetaRequestHeight;
}
*MetaRowByte = *meta_row_width * *MetaRequestWidth * BytePerPixel / 256.0;
}
if (ViewportStationary && (NumberOfDPPs == 1 || !IsVertical(SourceRotation))) {
vp_height_meta_ub = dml_floor(ViewportYStart + ViewportHeight + 64 * BlockHeight256Bytes - 1,
64 * BlockHeight256Bytes) - dml_floor(ViewportYStart, 64 * BlockHeight256Bytes);
} else if (!IsVertical(SourceRotation)) {
vp_height_meta_ub = dml_ceil(ViewportHeight - 1, 64 * BlockHeight256Bytes) + 64 * BlockHeight256Bytes;
} else {
vp_height_meta_ub = dml_ceil(SwathWidth - 1, 64 * BlockHeight256Bytes) + 64 * BlockHeight256Bytes;
}
DCCMetaSurfaceBytes = DCCMetaPitch * vp_height_meta_ub * BytePerPixel / 256.0;
if (GPUVMEnable == true) {
*MetaPTEBytesFrame = (dml_ceil((double) (DCCMetaSurfaceBytes - 4.0 * 1024.0) /
(8 * 4.0 * 1024), 1) + 1) * 64;
MPDEBytesFrame = 128 * (GPUVMMaxPageTableLevels - 1);
} else {
*MetaPTEBytesFrame = 0;
MPDEBytesFrame = 0;
}
if (DCCEnable != true) {
*MetaPTEBytesFrame = 0;
MPDEBytesFrame = 0;
*MetaRowByte = 0;
}
MacroTileSizeBytes = MacroTileWidth * BytePerPixel * MacroTileHeight;
if (GPUVMEnable == true && GPUVMMaxPageTableLevels > 1) {
if (ViewportStationary && (NumberOfDPPs == 1 || !IsVertical(SourceRotation))) {
vp_height_dpte_ub = dml_floor(ViewportYStart + ViewportHeight +
MacroTileHeight - 1, MacroTileHeight) -
dml_floor(ViewportYStart, MacroTileHeight);
} else if (!IsVertical(SourceRotation)) {
vp_height_dpte_ub = dml_ceil(ViewportHeight - 1, MacroTileHeight) + MacroTileHeight;
} else {
vp_height_dpte_ub = dml_ceil(SwathWidth - 1, MacroTileHeight) + MacroTileHeight;
}
*DPDE0BytesFrame = 64 * (dml_ceil((Pitch * vp_height_dpte_ub * BytePerPixel - MacroTileSizeBytes) /
(8 * 2097152), 1) + 1);
ExtraDPDEBytesFrame = 128 * (GPUVMMaxPageTableLevels - 2);
} else {
*DPDE0BytesFrame = 0;
ExtraDPDEBytesFrame = 0;
vp_height_dpte_ub = 0;
}
PDEAndMetaPTEBytesFrame = *MetaPTEBytesFrame + MPDEBytesFrame + *DPDE0BytesFrame + ExtraDPDEBytesFrame;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DCCEnable = %d\n", __func__, DCCEnable);
dml_print("DML::%s: GPUVMEnable = %d\n", __func__, GPUVMEnable);
dml_print("DML::%s: SwModeLinear = %d\n", __func__, SurfaceTiling == dm_sw_linear);
dml_print("DML::%s: BytePerPixel = %d\n", __func__, BytePerPixel);
dml_print("DML::%s: GPUVMMaxPageTableLevels = %d\n", __func__, GPUVMMaxPageTableLevels);
dml_print("DML::%s: BlockHeight256Bytes = %d\n", __func__, BlockHeight256Bytes);
dml_print("DML::%s: BlockWidth256Bytes = %d\n", __func__, BlockWidth256Bytes);
dml_print("DML::%s: MacroTileHeight = %d\n", __func__, MacroTileHeight);
dml_print("DML::%s: MacroTileWidth = %d\n", __func__, MacroTileWidth);
dml_print("DML::%s: MetaPTEBytesFrame = %d\n", __func__, *MetaPTEBytesFrame);
dml_print("DML::%s: MPDEBytesFrame = %d\n", __func__, MPDEBytesFrame);
dml_print("DML::%s: DPDE0BytesFrame = %d\n", __func__, *DPDE0BytesFrame);
dml_print("DML::%s: ExtraDPDEBytesFrame= %d\n", __func__, ExtraDPDEBytesFrame);
dml_print("DML::%s: PDEAndMetaPTEBytesFrame = %d\n", __func__, PDEAndMetaPTEBytesFrame);
dml_print("DML::%s: ViewportHeight = %d\n", __func__, ViewportHeight);
dml_print("DML::%s: SwathWidth = %d\n", __func__, SwathWidth);
dml_print("DML::%s: vp_height_dpte_ub = %d\n", __func__, vp_height_dpte_ub);
#endif
if (HostVMEnable == true)
PDEAndMetaPTEBytesFrame = PDEAndMetaPTEBytesFrame * (1 + 8 * HostVMDynamicLevels);
if (SurfaceTiling == dm_sw_linear) {
*PixelPTEReqHeight = 1;
*PixelPTEReqWidth = GPUVMMinPageSizeKBytes * 1024 * 8 / BytePerPixel;
PixelPTEReqWidth_linear = GPUVMMinPageSizeKBytes * 1024 * 8 / BytePerPixel;
*PTERequestSize = 64;
} else if (GPUVMMinPageSizeKBytes == 4) {
*PixelPTEReqHeight = 16 * BlockHeight256Bytes;
*PixelPTEReqWidth = 16 * BlockWidth256Bytes;
*PTERequestSize = 128;
} else {
*PixelPTEReqHeight = MacroTileHeight;
*PixelPTEReqWidth = 8 * 1024 * GPUVMMinPageSizeKBytes / (MacroTileHeight * BytePerPixel);
*PTERequestSize = 64;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: GPUVMMinPageSizeKBytes = %d\n", __func__, GPUVMMinPageSizeKBytes);
dml_print("DML::%s: PDEAndMetaPTEBytesFrame = %d (after HostVM factor)\n", __func__, PDEAndMetaPTEBytesFrame);
dml_print("DML::%s: PixelPTEReqHeight = %d\n", __func__, *PixelPTEReqHeight);
dml_print("DML::%s: PixelPTEReqWidth = %d\n", __func__, *PixelPTEReqWidth);
dml_print("DML::%s: PixelPTEReqWidth_linear = %d\n", __func__, PixelPTEReqWidth_linear);
dml_print("DML::%s: PTERequestSize = %d\n", __func__, *PTERequestSize);
dml_print("DML::%s: Pitch = %d\n", __func__, Pitch);
#endif
*dpte_row_height_one_row_per_frame = vp_height_dpte_ub;
*dpte_row_width_ub_one_row_per_frame = (dml_ceil(((double)Pitch * (double)*dpte_row_height_one_row_per_frame /
(double) *PixelPTEReqHeight - 1) / (double) *PixelPTEReqWidth, 1) + 1) *
(double) *PixelPTEReqWidth;
*PixelPTEBytesPerRow_one_row_per_frame = *dpte_row_width_ub_one_row_per_frame / *PixelPTEReqWidth *
*PTERequestSize;
if (SurfaceTiling == dm_sw_linear) {
*dpte_row_height = dml_min(128, 1 << (unsigned int) dml_floor(dml_log2(PTEBufferSizeInRequests *
*PixelPTEReqWidth / Pitch), 1));
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: dpte_row_height = %d (1)\n", __func__,
PTEBufferSizeInRequests * *PixelPTEReqWidth / Pitch);
dml_print("DML::%s: dpte_row_height = %f (2)\n", __func__,
dml_log2(PTEBufferSizeInRequests * *PixelPTEReqWidth / Pitch));
dml_print("DML::%s: dpte_row_height = %f (3)\n", __func__,
dml_floor(dml_log2(PTEBufferSizeInRequests * *PixelPTEReqWidth / Pitch), 1));
dml_print("DML::%s: dpte_row_height = %d (4)\n", __func__,
1 << (unsigned int) dml_floor(dml_log2(PTEBufferSizeInRequests *
*PixelPTEReqWidth / Pitch), 1));
dml_print("DML::%s: dpte_row_height = %d\n", __func__, *dpte_row_height);
#endif
*dpte_row_width_ub = dml_ceil(((double) Pitch * (double) *dpte_row_height - 1),
(double) *PixelPTEReqWidth) + *PixelPTEReqWidth;
*PixelPTEBytesPerRow = *dpte_row_width_ub / (double)*PixelPTEReqWidth * (double)*PTERequestSize;
*dpte_row_height_linear = 1 << (unsigned int) dml_floor(dml_log2(PTEBufferSizeInRequests *
PixelPTEReqWidth_linear / Pitch), 1);
if (*dpte_row_height_linear > 128)
*dpte_row_height_linear = 128;
} else if (!IsVertical(SourceRotation)) {
*dpte_row_height = *PixelPTEReqHeight;
if (GPUVMMinPageSizeKBytes > 64) {
*dpte_row_width_ub = (dml_ceil((Pitch * *dpte_row_height / *PixelPTEReqHeight - 1) /
*PixelPTEReqWidth, 1) + 1) * *PixelPTEReqWidth;
} else if (ViewportStationary && (NumberOfDPPs == 1)) {
*dpte_row_width_ub = dml_floor(ViewportXStart + SwathWidth +
*PixelPTEReqWidth - 1, *PixelPTEReqWidth) -
dml_floor(ViewportXStart, *PixelPTEReqWidth);
} else {
*dpte_row_width_ub = (dml_ceil((SwathWidth - 1) / *PixelPTEReqWidth, 1) + 1) *
*PixelPTEReqWidth;
}
*PixelPTEBytesPerRow = *dpte_row_width_ub / *PixelPTEReqWidth * *PTERequestSize;
} else {
*dpte_row_height = dml_min(*PixelPTEReqWidth, MacroTileWidth);
if (ViewportStationary && (NumberOfDPPs == 1)) {
*dpte_row_width_ub = dml_floor(ViewportYStart + ViewportHeight + *PixelPTEReqHeight - 1,
*PixelPTEReqHeight) - dml_floor(ViewportYStart, *PixelPTEReqHeight);
} else {
*dpte_row_width_ub = (dml_ceil((SwathWidth - 1) / *PixelPTEReqHeight, 1) + 1)
* *PixelPTEReqHeight;
}
*PixelPTEBytesPerRow = *dpte_row_width_ub / *PixelPTEReqHeight * *PTERequestSize;
}
if (GPUVMEnable != true)
*PixelPTEBytesPerRow = 0;
if (HostVMEnable == true)
*PixelPTEBytesPerRow = *PixelPTEBytesPerRow * (1 + 8 * HostVMDynamicLevels);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: GPUVMMinPageSizeKBytes = %d\n", __func__, GPUVMMinPageSizeKBytes);
dml_print("DML::%s: dpte_row_height = %d\n", __func__, *dpte_row_height);
dml_print("DML::%s: dpte_row_height_linear = %d\n", __func__, *dpte_row_height_linear);
dml_print("DML::%s: dpte_row_width_ub = %d\n", __func__, *dpte_row_width_ub);
dml_print("DML::%s: PixelPTEBytesPerRow = %d\n", __func__, *PixelPTEBytesPerRow);
dml_print("DML::%s: PTEBufferSizeInRequests = %d\n", __func__, PTEBufferSizeInRequests);
dml_print("DML::%s: dpte_row_height_one_row_per_frame = %d\n", __func__, *dpte_row_height_one_row_per_frame);
dml_print("DML::%s: dpte_row_width_ub_one_row_per_frame = %d\n",
__func__, *dpte_row_width_ub_one_row_per_frame);
dml_print("DML::%s: PixelPTEBytesPerRow_one_row_per_frame = %d\n",
__func__, *PixelPTEBytesPerRow_one_row_per_frame);
dml_print("DML: vm_bytes = meta_pte_bytes_per_frame (per_pipe) = MetaPTEBytesFrame = : %i\n",
*MetaPTEBytesFrame);
#endif
return PDEAndMetaPTEBytesFrame;
}
double dml32_CalculatePrefetchSourceLines(
double VRatio,
unsigned int VTaps,
bool Interlace,
bool ProgressiveToInterlaceUnitInOPP,
unsigned int SwathHeight,
enum dm_rotation_angle SourceRotation,
bool ViewportStationary,
double SwathWidth,
unsigned int ViewportHeight,
unsigned int ViewportXStart,
unsigned int ViewportYStart,
double *VInitPreFill,
unsigned int *MaxNumSwath)
{
unsigned int vp_start_rot;
unsigned int sw0_tmp;
unsigned int MaxPartialSwath;
double numLines;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VRatio = %f\n", __func__, VRatio);
dml_print("DML::%s: VTaps = %d\n", __func__, VTaps);
dml_print("DML::%s: ViewportXStart = %d\n", __func__, ViewportXStart);
dml_print("DML::%s: ViewportYStart = %d\n", __func__, ViewportYStart);
dml_print("DML::%s: ViewportStationary = %d\n", __func__, ViewportStationary);
dml_print("DML::%s: SwathHeight = %d\n", __func__, SwathHeight);
#endif
if (ProgressiveToInterlaceUnitInOPP)
*VInitPreFill = dml_floor((VRatio + (double) VTaps + 1) / 2.0, 1);
else
*VInitPreFill = dml_floor((VRatio + (double) VTaps + 1 + Interlace * 0.5 * VRatio) / 2.0, 1);
if (ViewportStationary) {
if (SourceRotation == dm_rotation_180 || SourceRotation == dm_rotation_180m) {
vp_start_rot = SwathHeight -
(((unsigned int) (ViewportYStart + ViewportHeight - 1) % SwathHeight) + 1);
} else if (SourceRotation == dm_rotation_270 || SourceRotation == dm_rotation_90m) {
vp_start_rot = ViewportXStart;
} else if (SourceRotation == dm_rotation_90 || SourceRotation == dm_rotation_270m) {
vp_start_rot = SwathHeight -
(((unsigned int)(ViewportYStart + SwathWidth - 1) % SwathHeight) + 1);
} else {
vp_start_rot = ViewportYStart;
}
sw0_tmp = SwathHeight - (vp_start_rot % SwathHeight);
if (sw0_tmp < *VInitPreFill)
*MaxNumSwath = dml_ceil((*VInitPreFill - sw0_tmp) / SwathHeight, 1) + 1;
else
*MaxNumSwath = 1;
MaxPartialSwath = dml_max(1, (unsigned int) (vp_start_rot + *VInitPreFill - 1) % SwathHeight);
} else {
*MaxNumSwath = dml_ceil((*VInitPreFill - 1.0) / SwathHeight, 1) + 1;
if (*VInitPreFill > 1)
MaxPartialSwath = dml_max(1, (unsigned int) (*VInitPreFill - 2) % SwathHeight);
else
MaxPartialSwath = dml_max(1, (unsigned int) (*VInitPreFill + SwathHeight - 2) % SwathHeight);
}
numLines = *MaxNumSwath * SwathHeight + MaxPartialSwath;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: vp_start_rot = %d\n", __func__, vp_start_rot);
dml_print("DML::%s: VInitPreFill = %d\n", __func__, *VInitPreFill);
dml_print("DML::%s: MaxPartialSwath = %d\n", __func__, MaxPartialSwath);
dml_print("DML::%s: MaxNumSwath = %d\n", __func__, *MaxNumSwath);
dml_print("DML::%s: Prefetch source lines = %3.2f\n", __func__, numLines);
#endif
return numLines;
}
void dml32_CalculateMALLUseForStaticScreen(
unsigned int NumberOfActiveSurfaces,
unsigned int MALLAllocatedForDCNFinal,
enum dm_use_mall_for_static_screen_mode *UseMALLForStaticScreen,
unsigned int SurfaceSizeInMALL[],
bool one_row_per_frame_fits_in_buffer[],
bool UsesMALLForStaticScreen[])
{
unsigned int k;
unsigned int SurfaceToAddToMALL;
bool CanAddAnotherSurfaceToMALL;
unsigned int TotalSurfaceSizeInMALL;
TotalSurfaceSizeInMALL = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
UsesMALLForStaticScreen[k] = (UseMALLForStaticScreen[k] == dm_use_mall_static_screen_enable);
if (UsesMALLForStaticScreen[k])
TotalSurfaceSizeInMALL = TotalSurfaceSizeInMALL + SurfaceSizeInMALL[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, UsesMALLForStaticScreen = %d\n", __func__, k, UsesMALLForStaticScreen[k]);
dml_print("DML::%s: k=%d, TotalSurfaceSizeInMALL = %d\n", __func__, k, TotalSurfaceSizeInMALL);
#endif
}
SurfaceToAddToMALL = 0;
CanAddAnotherSurfaceToMALL = true;
while (CanAddAnotherSurfaceToMALL) {
CanAddAnotherSurfaceToMALL = false;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (TotalSurfaceSizeInMALL + SurfaceSizeInMALL[k] <= MALLAllocatedForDCNFinal * 1024 * 1024 &&
!UsesMALLForStaticScreen[k] &&
UseMALLForStaticScreen[k] != dm_use_mall_static_screen_disable &&
one_row_per_frame_fits_in_buffer[k] &&
(!CanAddAnotherSurfaceToMALL ||
SurfaceSizeInMALL[k] < SurfaceSizeInMALL[SurfaceToAddToMALL])) {
CanAddAnotherSurfaceToMALL = true;
SurfaceToAddToMALL = k;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, UseMALLForStaticScreen = %d (dis, en, optimize)\n",
__func__, k, UseMALLForStaticScreen[k]);
#endif
}
}
if (CanAddAnotherSurfaceToMALL) {
UsesMALLForStaticScreen[SurfaceToAddToMALL] = true;
TotalSurfaceSizeInMALL = TotalSurfaceSizeInMALL + SurfaceSizeInMALL[SurfaceToAddToMALL];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: SurfaceToAddToMALL = %d\n", __func__, SurfaceToAddToMALL);
dml_print("DML::%s: TotalSurfaceSizeInMALL = %d\n", __func__, TotalSurfaceSizeInMALL);
#endif
}
}
}
void dml32_CalculateRowBandwidth(
bool GPUVMEnable,
enum source_format_class SourcePixelFormat,
double VRatio,
double VRatioChroma,
bool DCCEnable,
double LineTime,
unsigned int MetaRowByteLuma,
unsigned int MetaRowByteChroma,
unsigned int meta_row_height_luma,
unsigned int meta_row_height_chroma,
unsigned int PixelPTEBytesPerRowLuma,
unsigned int PixelPTEBytesPerRowChroma,
unsigned int dpte_row_height_luma,
unsigned int dpte_row_height_chroma,
double *meta_row_bw,
double *dpte_row_bw)
{
if (DCCEnable != true) {
*meta_row_bw = 0;
} else if (SourcePixelFormat == dm_420_8 || SourcePixelFormat == dm_420_10 || SourcePixelFormat == dm_420_12 ||
SourcePixelFormat == dm_rgbe_alpha) {
*meta_row_bw = VRatio * MetaRowByteLuma / (meta_row_height_luma * LineTime) + VRatioChroma *
MetaRowByteChroma / (meta_row_height_chroma * LineTime);
} else {
*meta_row_bw = VRatio * MetaRowByteLuma / (meta_row_height_luma * LineTime);
}
if (GPUVMEnable != true) {
*dpte_row_bw = 0;
} else if (SourcePixelFormat == dm_420_8 || SourcePixelFormat == dm_420_10 || SourcePixelFormat == dm_420_12 ||
SourcePixelFormat == dm_rgbe_alpha) {
*dpte_row_bw = VRatio * PixelPTEBytesPerRowLuma / (dpte_row_height_luma * LineTime) +
VRatioChroma * PixelPTEBytesPerRowChroma / (dpte_row_height_chroma * LineTime);
} else {
*dpte_row_bw = VRatio * PixelPTEBytesPerRowLuma / (dpte_row_height_luma * LineTime);
}
}
double dml32_CalculateUrgentLatency(
double UrgentLatencyPixelDataOnly,
double UrgentLatencyPixelMixedWithVMData,
double UrgentLatencyVMDataOnly,
bool DoUrgentLatencyAdjustment,
double UrgentLatencyAdjustmentFabricClockComponent,
double UrgentLatencyAdjustmentFabricClockReference,
double FabricClock)
{
double ret;
ret = dml_max3(UrgentLatencyPixelDataOnly, UrgentLatencyPixelMixedWithVMData, UrgentLatencyVMDataOnly);
if (DoUrgentLatencyAdjustment == true) {
ret = ret + UrgentLatencyAdjustmentFabricClockComponent *
(UrgentLatencyAdjustmentFabricClockReference / FabricClock - 1);
}
return ret;
}
void dml32_CalculateUrgentBurstFactor(
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange,
unsigned int swath_width_luma_ub,
unsigned int swath_width_chroma_ub,
unsigned int SwathHeightY,
unsigned int SwathHeightC,
double LineTime,
double UrgentLatency,
double CursorBufferSize,
unsigned int CursorWidth,
unsigned int CursorBPP,
double VRatio,
double VRatioC,
double BytePerPixelInDETY,
double BytePerPixelInDETC,
unsigned int DETBufferSizeY,
unsigned int DETBufferSizeC,
double *UrgentBurstFactorCursor,
double *UrgentBurstFactorLuma,
double *UrgentBurstFactorChroma,
bool *NotEnoughUrgentLatencyHiding)
{
double LinesInDETLuma;
double LinesInDETChroma;
unsigned int LinesInCursorBuffer;
double CursorBufferSizeInTime;
double DETBufferSizeInTimeLuma;
double DETBufferSizeInTimeChroma;
*NotEnoughUrgentLatencyHiding = 0;
if (CursorWidth > 0) {
LinesInCursorBuffer = 1 << (unsigned int) dml_floor(dml_log2(CursorBufferSize * 1024.0 /
(CursorWidth * CursorBPP / 8.0)), 1.0);
if (VRatio > 0) {
CursorBufferSizeInTime = LinesInCursorBuffer * LineTime / VRatio;
if (CursorBufferSizeInTime - UrgentLatency <= 0) {
*NotEnoughUrgentLatencyHiding = 1;
*UrgentBurstFactorCursor = 0;
} else {
*UrgentBurstFactorCursor = CursorBufferSizeInTime /
(CursorBufferSizeInTime - UrgentLatency);
}
} else {
*UrgentBurstFactorCursor = 1;
}
}
LinesInDETLuma = (UseMALLForPStateChange == dm_use_mall_pstate_change_phantom_pipe ? 1024*1024 :
DETBufferSizeY) / BytePerPixelInDETY / swath_width_luma_ub;
if (VRatio > 0) {
DETBufferSizeInTimeLuma = dml_floor(LinesInDETLuma, SwathHeightY) * LineTime / VRatio;
if (DETBufferSizeInTimeLuma - UrgentLatency <= 0) {
*NotEnoughUrgentLatencyHiding = 1;
*UrgentBurstFactorLuma = 0;
} else {
*UrgentBurstFactorLuma = DETBufferSizeInTimeLuma / (DETBufferSizeInTimeLuma - UrgentLatency);
}
} else {
*UrgentBurstFactorLuma = 1;
}
if (BytePerPixelInDETC > 0) {
LinesInDETChroma = (UseMALLForPStateChange == dm_use_mall_pstate_change_phantom_pipe ?
1024 * 1024 : DETBufferSizeC) / BytePerPixelInDETC
/ swath_width_chroma_ub;
if (VRatio > 0) {
DETBufferSizeInTimeChroma = dml_floor(LinesInDETChroma, SwathHeightC) * LineTime / VRatio;
if (DETBufferSizeInTimeChroma - UrgentLatency <= 0) {
*NotEnoughUrgentLatencyHiding = 1;
*UrgentBurstFactorChroma = 0;
} else {
*UrgentBurstFactorChroma = DETBufferSizeInTimeChroma
/ (DETBufferSizeInTimeChroma - UrgentLatency);
}
} else {
*UrgentBurstFactorChroma = 1;
}
}
}
void dml32_CalculateDCFCLKDeepSleep(
unsigned int NumberOfActiveSurfaces,
unsigned int BytePerPixelY[],
unsigned int BytePerPixelC[],
double VRatio[],
double VRatioChroma[],
double SwathWidthY[],
double SwathWidthC[],
unsigned int DPPPerSurface[],
double HRatio[],
double HRatioChroma[],
double PixelClock[],
double PSCL_THROUGHPUT[],
double PSCL_THROUGHPUT_CHROMA[],
double Dppclk[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
unsigned int ReturnBusWidth,
double *DCFClkDeepSleep)
{
unsigned int k;
double DisplayPipeLineDeliveryTimeLuma;
double DisplayPipeLineDeliveryTimeChroma;
double DCFClkDeepSleepPerSurface[DC__NUM_DPP__MAX];
double ReadBandwidth = 0.0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (VRatio[k] <= 1) {
DisplayPipeLineDeliveryTimeLuma = SwathWidthY[k] * DPPPerSurface[k] / HRatio[k]
/ PixelClock[k];
} else {
DisplayPipeLineDeliveryTimeLuma = SwathWidthY[k] / PSCL_THROUGHPUT[k] / Dppclk[k];
}
if (BytePerPixelC[k] == 0) {
DisplayPipeLineDeliveryTimeChroma = 0;
} else {
if (VRatioChroma[k] <= 1) {
DisplayPipeLineDeliveryTimeChroma = SwathWidthC[k] *
DPPPerSurface[k] / HRatioChroma[k] / PixelClock[k];
} else {
DisplayPipeLineDeliveryTimeChroma = SwathWidthC[k] / PSCL_THROUGHPUT_CHROMA[k]
/ Dppclk[k];
}
}
if (BytePerPixelC[k] > 0) {
DCFClkDeepSleepPerSurface[k] = dml_max(__DML_MIN_DCFCLK_FACTOR__ * SwathWidthY[k] *
BytePerPixelY[k] / 32.0 / DisplayPipeLineDeliveryTimeLuma,
__DML_MIN_DCFCLK_FACTOR__ * SwathWidthC[k] * BytePerPixelC[k] /
32.0 / DisplayPipeLineDeliveryTimeChroma);
} else {
DCFClkDeepSleepPerSurface[k] = __DML_MIN_DCFCLK_FACTOR__ * SwathWidthY[k] * BytePerPixelY[k] /
64.0 / DisplayPipeLineDeliveryTimeLuma;
}
DCFClkDeepSleepPerSurface[k] = dml_max(DCFClkDeepSleepPerSurface[k], PixelClock[k] / 16);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, PixelClock = %f\n", __func__, k, PixelClock[k]);
dml_print("DML::%s: k=%d, DCFClkDeepSleepPerSurface = %f\n", __func__, k, DCFClkDeepSleepPerSurface[k]);
#endif
}
for (k = 0; k < NumberOfActiveSurfaces; ++k)
ReadBandwidth = ReadBandwidth + ReadBandwidthLuma[k] + ReadBandwidthChroma[k];
*DCFClkDeepSleep = dml_max(8.0, __DML_MIN_DCFCLK_FACTOR__ * ReadBandwidth / (double) ReturnBusWidth);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: __DML_MIN_DCFCLK_FACTOR__ = %f\n", __func__, __DML_MIN_DCFCLK_FACTOR__);
dml_print("DML::%s: ReadBandwidth = %f\n", __func__, ReadBandwidth);
dml_print("DML::%s: ReturnBusWidth = %d\n", __func__, ReturnBusWidth);
dml_print("DML::%s: DCFClkDeepSleep = %f\n", __func__, *DCFClkDeepSleep);
#endif
for (k = 0; k < NumberOfActiveSurfaces; ++k)
*DCFClkDeepSleep = dml_max(*DCFClkDeepSleep, DCFClkDeepSleepPerSurface[k]);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DCFClkDeepSleep = %f (final)\n", __func__, *DCFClkDeepSleep);
#endif
}
double dml32_CalculateWriteBackDelay(
enum source_format_class WritebackPixelFormat,
double WritebackHRatio,
double WritebackVRatio,
unsigned int WritebackVTaps,
unsigned int WritebackDestinationWidth,
unsigned int WritebackDestinationHeight,
unsigned int WritebackSourceHeight,
unsigned int HTotal)
{
double CalculateWriteBackDelay;
double Line_length;
double Output_lines_last_notclamped;
double WritebackVInit;
WritebackVInit = (WritebackVRatio + WritebackVTaps + 1) / 2;
Line_length = dml_max((double) WritebackDestinationWidth,
dml_ceil((double)WritebackDestinationWidth / 6.0, 1.0) * WritebackVTaps);
Output_lines_last_notclamped = WritebackDestinationHeight - 1 -
dml_ceil(((double)WritebackSourceHeight -
(double) WritebackVInit) / (double)WritebackVRatio, 1.0);
if (Output_lines_last_notclamped < 0) {
CalculateWriteBackDelay = 0;
} else {
CalculateWriteBackDelay = Output_lines_last_notclamped * Line_length +
(HTotal - WritebackDestinationWidth) + 80;
}
return CalculateWriteBackDelay;
}
void dml32_UseMinimumDCFCLK(
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
bool DRRDisplay[],
bool SynchronizeDRRDisplaysForUCLKPStateChangeFinal,
unsigned int MaxInterDCNTileRepeaters,
unsigned int MaxPrefetchMode,
double DRAMClockChangeLatencyFinal,
double FCLKChangeLatency,
double SREnterPlusExitTime,
unsigned int ReturnBusWidth,
unsigned int RoundTripPingLatencyCycles,
unsigned int ReorderingBytes,
unsigned int PixelChunkSizeInKByte,
unsigned int MetaChunkSize,
bool GPUVMEnable,
unsigned int GPUVMMaxPageTableLevels,
bool HostVMEnable,
unsigned int NumberOfActiveSurfaces,
double HostVMMinPageSize,
unsigned int HostVMMaxNonCachedPageTableLevels,
bool DynamicMetadataVMEnabled,
bool ImmediateFlipRequirement,
bool ProgressiveToInterlaceUnitInOPP,
double MaxAveragePercentOfIdealSDPPortBWDisplayCanUseInNormalSystemOperation,
double PercentOfIdealSDPPortBWReceivedAfterUrgLatency,
unsigned int VTotal[],
unsigned int VActive[],
unsigned int DynamicMetadataTransmittedBytes[],
unsigned int DynamicMetadataLinesBeforeActiveRequired[],
bool Interlace[],
double RequiredDPPCLKPerSurface[][2][DC__NUM_DPP__MAX],
double RequiredDISPCLK[][2],
double UrgLatency[],
unsigned int NoOfDPP[][2][DC__NUM_DPP__MAX],
double ProjectedDCFClkDeepSleep[][2],
double MaximumVStartup[][2][DC__NUM_DPP__MAX],
unsigned int TotalNumberOfActiveDPP[][2],
unsigned int TotalNumberOfDCCActiveDPP[][2],
unsigned int dpte_group_bytes[],
double PrefetchLinesY[][2][DC__NUM_DPP__MAX],
double PrefetchLinesC[][2][DC__NUM_DPP__MAX],
unsigned int swath_width_luma_ub_all_states[][2][DC__NUM_DPP__MAX],
unsigned int swath_width_chroma_ub_all_states[][2][DC__NUM_DPP__MAX],
unsigned int BytePerPixelY[],
unsigned int BytePerPixelC[],
unsigned int HTotal[],
double PixelClock[],
double PDEAndMetaPTEBytesPerFrame[][2][DC__NUM_DPP__MAX],
double DPTEBytesPerRow[][2][DC__NUM_DPP__MAX],
double MetaRowBytes[][2][DC__NUM_DPP__MAX],
bool DynamicMetadataEnable[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
double DCFCLKPerState[],
double DCFCLKState[][2])
{
unsigned int i, j, k;
unsigned int dummy1;
double dummy2, dummy3;
double NormalEfficiency;
double TotalMaxPrefetchFlipDPTERowBandwidth[DC__VOLTAGE_STATES][2];
NormalEfficiency = PercentOfIdealSDPPortBWReceivedAfterUrgLatency / 100.0;
for (i = 0; i < DC__VOLTAGE_STATES; ++i) {
for (j = 0; j <= 1; ++j) {
double PixelDCFCLKCyclesRequiredInPrefetch[DC__NUM_DPP__MAX];
double PrefetchPixelLinesTime[DC__NUM_DPP__MAX];
double DCFCLKRequiredForPeakBandwidthPerSurface[DC__NUM_DPP__MAX];
double DynamicMetadataVMExtraLatency[DC__NUM_DPP__MAX];
double MinimumTWait = 0.0;
double DPTEBandwidth;
double DCFCLKRequiredForAverageBandwidth;
unsigned int ExtraLatencyBytes;
double ExtraLatencyCycles;
double DCFCLKRequiredForPeakBandwidth;
unsigned int NoOfDPPState[DC__NUM_DPP__MAX];
double MinimumTvmPlus2Tr0;
TotalMaxPrefetchFlipDPTERowBandwidth[i][j] = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
TotalMaxPrefetchFlipDPTERowBandwidth[i][j] = TotalMaxPrefetchFlipDPTERowBandwidth[i][j]
+ NoOfDPP[i][j][k] * DPTEBytesPerRow[i][j][k]
/ (15.75 * HTotal[k] / PixelClock[k]);
}
for (k = 0; k <= NumberOfActiveSurfaces - 1; ++k)
NoOfDPPState[k] = NoOfDPP[i][j][k];
DPTEBandwidth = TotalMaxPrefetchFlipDPTERowBandwidth[i][j];
DCFCLKRequiredForAverageBandwidth = dml_max(ProjectedDCFClkDeepSleep[i][j], DPTEBandwidth / NormalEfficiency / ReturnBusWidth);
ExtraLatencyBytes = dml32_CalculateExtraLatencyBytes(ReorderingBytes,
TotalNumberOfActiveDPP[i][j], PixelChunkSizeInKByte,
TotalNumberOfDCCActiveDPP[i][j], MetaChunkSize, GPUVMEnable, HostVMEnable,
NumberOfActiveSurfaces, NoOfDPPState, dpte_group_bytes, 1, HostVMMinPageSize,
HostVMMaxNonCachedPageTableLevels);
ExtraLatencyCycles = RoundTripPingLatencyCycles + __DML_ARB_TO_RET_DELAY__
+ ExtraLatencyBytes / NormalEfficiency / ReturnBusWidth;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
double DCFCLKCyclesRequiredInPrefetch;
double PrefetchTime;
PixelDCFCLKCyclesRequiredInPrefetch[k] = (PrefetchLinesY[i][j][k]
* swath_width_luma_ub_all_states[i][j][k] * BytePerPixelY[k]
+ PrefetchLinesC[i][j][k] * swath_width_chroma_ub_all_states[i][j][k]
* BytePerPixelC[k]) / NormalEfficiency
/ ReturnBusWidth;
DCFCLKCyclesRequiredInPrefetch = 2 * ExtraLatencyCycles / NoOfDPPState[k]
+ PDEAndMetaPTEBytesPerFrame[i][j][k] / NormalEfficiency
/ NormalEfficiency / ReturnBusWidth
* (GPUVMMaxPageTableLevels > 2 ? 1 : 0)
+ 2 * DPTEBytesPerRow[i][j][k] / NormalEfficiency / NormalEfficiency
/ ReturnBusWidth
+ 2 * MetaRowBytes[i][j][k] / NormalEfficiency / ReturnBusWidth
+ PixelDCFCLKCyclesRequiredInPrefetch[k];
PrefetchPixelLinesTime[k] = dml_max(PrefetchLinesY[i][j][k], PrefetchLinesC[i][j][k])
* HTotal[k] / PixelClock[k];
DynamicMetadataVMExtraLatency[k] = (GPUVMEnable == true &&
DynamicMetadataEnable[k] == true && DynamicMetadataVMEnabled == true) ?
UrgLatency[i] * GPUVMMaxPageTableLevels *
(HostVMEnable == true ? HostVMMaxNonCachedPageTableLevels + 1 : 1) : 0;
MinimumTWait = dml32_CalculateTWait(MaxPrefetchMode,
UseMALLForPStateChange[k],
SynchronizeDRRDisplaysForUCLKPStateChangeFinal,
DRRDisplay[k],
DRAMClockChangeLatencyFinal,
FCLKChangeLatency,
UrgLatency[i],
SREnterPlusExitTime);
PrefetchTime = (MaximumVStartup[i][j][k] - 1) * HTotal[k] / PixelClock[k] -
MinimumTWait - UrgLatency[i] *
((GPUVMMaxPageTableLevels <= 2 ? GPUVMMaxPageTableLevels :
GPUVMMaxPageTableLevels - 2) * (HostVMEnable == true ?
HostVMMaxNonCachedPageTableLevels + 1 : 1) - 1) -
DynamicMetadataVMExtraLatency[k];
if (PrefetchTime > 0) {
double ExpectedVRatioPrefetch;
ExpectedVRatioPrefetch = PrefetchPixelLinesTime[k] / (PrefetchTime *
PixelDCFCLKCyclesRequiredInPrefetch[k] /
DCFCLKCyclesRequiredInPrefetch);
DCFCLKRequiredForPeakBandwidthPerSurface[k] = NoOfDPPState[k] *
PixelDCFCLKCyclesRequiredInPrefetch[k] /
PrefetchPixelLinesTime[k] *
dml_max(1.0, ExpectedVRatioPrefetch) *
dml_max(1.0, ExpectedVRatioPrefetch / 4);
if (HostVMEnable == true || ImmediateFlipRequirement == true) {
DCFCLKRequiredForPeakBandwidthPerSurface[k] =
DCFCLKRequiredForPeakBandwidthPerSurface[k] +
NoOfDPPState[k] * DPTEBandwidth / NormalEfficiency /
NormalEfficiency / ReturnBusWidth;
}
} else {
DCFCLKRequiredForPeakBandwidthPerSurface[k] = DCFCLKPerState[i];
}
if (DynamicMetadataEnable[k] == true) {
double TSetupPipe;
double TdmbfPipe;
double TdmsksPipe;
double TdmecPipe;
double AllowedTimeForUrgentExtraLatency;
dml32_CalculateVUpdateAndDynamicMetadataParameters(
MaxInterDCNTileRepeaters,
RequiredDPPCLKPerSurface[i][j][k],
RequiredDISPCLK[i][j],
ProjectedDCFClkDeepSleep[i][j],
PixelClock[k],
HTotal[k],
VTotal[k] - VActive[k],
DynamicMetadataTransmittedBytes[k],
DynamicMetadataLinesBeforeActiveRequired[k],
Interlace[k],
ProgressiveToInterlaceUnitInOPP,
&TSetupPipe,
&TdmbfPipe,
&TdmecPipe,
&TdmsksPipe,
&dummy1,
&dummy2,
&dummy3);
AllowedTimeForUrgentExtraLatency = MaximumVStartup[i][j][k] * HTotal[k] /
PixelClock[k] - MinimumTWait - TSetupPipe - TdmbfPipe -
TdmecPipe - TdmsksPipe - DynamicMetadataVMExtraLatency[k];
if (AllowedTimeForUrgentExtraLatency > 0)
DCFCLKRequiredForPeakBandwidthPerSurface[k] =
dml_max(DCFCLKRequiredForPeakBandwidthPerSurface[k],
ExtraLatencyCycles / AllowedTimeForUrgentExtraLatency);
else
DCFCLKRequiredForPeakBandwidthPerSurface[k] = DCFCLKPerState[i];
}
}
DCFCLKRequiredForPeakBandwidth = 0;
for (k = 0; k <= NumberOfActiveSurfaces - 1; ++k) {
DCFCLKRequiredForPeakBandwidth = DCFCLKRequiredForPeakBandwidth +
DCFCLKRequiredForPeakBandwidthPerSurface[k];
}
MinimumTvmPlus2Tr0 = UrgLatency[i] * (GPUVMEnable == true ?
(HostVMEnable == true ? (GPUVMMaxPageTableLevels + 2) *
(HostVMMaxNonCachedPageTableLevels + 1) - 1 : GPUVMMaxPageTableLevels + 1) : 0);
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
double MaximumTvmPlus2Tr0PlusTsw;
MaximumTvmPlus2Tr0PlusTsw = (MaximumVStartup[i][j][k] - 2) * HTotal[k] /
PixelClock[k] - MinimumTWait - DynamicMetadataVMExtraLatency[k];
if (MaximumTvmPlus2Tr0PlusTsw <= MinimumTvmPlus2Tr0 + PrefetchPixelLinesTime[k] / 4) {
DCFCLKRequiredForPeakBandwidth = DCFCLKPerState[i];
} else {
DCFCLKRequiredForPeakBandwidth = dml_max3(DCFCLKRequiredForPeakBandwidth,
2 * ExtraLatencyCycles / (MaximumTvmPlus2Tr0PlusTsw -
MinimumTvmPlus2Tr0 -
PrefetchPixelLinesTime[k] / 4),
(2 * ExtraLatencyCycles +
PixelDCFCLKCyclesRequiredInPrefetch[k]) /
(MaximumTvmPlus2Tr0PlusTsw - MinimumTvmPlus2Tr0));
}
}
DCFCLKState[i][j] = dml_min(DCFCLKPerState[i], 1.05 *
dml_max(DCFCLKRequiredForAverageBandwidth, DCFCLKRequiredForPeakBandwidth));
}
}
}
unsigned int dml32_CalculateExtraLatencyBytes(unsigned int ReorderingBytes,
unsigned int TotalNumberOfActiveDPP,
unsigned int PixelChunkSizeInKByte,
unsigned int TotalNumberOfDCCActiveDPP,
unsigned int MetaChunkSize,
bool GPUVMEnable,
bool HostVMEnable,
unsigned int NumberOfActiveSurfaces,
unsigned int NumberOfDPP[],
unsigned int dpte_group_bytes[],
double HostVMInefficiencyFactor,
double HostVMMinPageSize,
unsigned int HostVMMaxNonCachedPageTableLevels)
{
unsigned int k;
double ret;
unsigned int HostVMDynamicLevels;
if (GPUVMEnable == true && HostVMEnable == true) {
if (HostVMMinPageSize < 2048)
HostVMDynamicLevels = HostVMMaxNonCachedPageTableLevels;
else if (HostVMMinPageSize >= 2048 && HostVMMinPageSize < 1048576)
HostVMDynamicLevels = dml_max(0, (int) HostVMMaxNonCachedPageTableLevels - 1);
else
HostVMDynamicLevels = dml_max(0, (int) HostVMMaxNonCachedPageTableLevels - 2);
} else {
HostVMDynamicLevels = 0;
}
ret = ReorderingBytes + (TotalNumberOfActiveDPP * PixelChunkSizeInKByte +
TotalNumberOfDCCActiveDPP * MetaChunkSize) * 1024.0;
if (GPUVMEnable == true) {
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
ret = ret + NumberOfDPP[k] * dpte_group_bytes[k] *
(1 + 8 * HostVMDynamicLevels) * HostVMInefficiencyFactor;
}
}
return ret;
}
void dml32_CalculateVUpdateAndDynamicMetadataParameters(
unsigned int MaxInterDCNTileRepeaters,
double Dppclk,
double Dispclk,
double DCFClkDeepSleep,
double PixelClock,
unsigned int HTotal,
unsigned int VBlank,
unsigned int DynamicMetadataTransmittedBytes,
unsigned int DynamicMetadataLinesBeforeActiveRequired,
unsigned int InterlaceEnable,
bool ProgressiveToInterlaceUnitInOPP,
double *TSetup,
double *Tdmbf,
double *Tdmec,
double *Tdmsks,
unsigned int *VUpdateOffsetPix,
double *VUpdateWidthPix,
double *VReadyOffsetPix)
{
double TotalRepeaterDelayTime;
TotalRepeaterDelayTime = MaxInterDCNTileRepeaters * (2 / Dppclk + 3 / Dispclk);
*VUpdateWidthPix =
dml_ceil((14.0 / DCFClkDeepSleep + 12.0 / Dppclk + TotalRepeaterDelayTime) * PixelClock, 1.0);
*VReadyOffsetPix = dml_ceil(dml_max(150.0 / Dppclk,
TotalRepeaterDelayTime + 20.0 / DCFClkDeepSleep + 10.0 / Dppclk) * PixelClock, 1.0);
*VUpdateOffsetPix = dml_ceil(HTotal / 4.0, 1.0);
*TSetup = (*VUpdateOffsetPix + *VUpdateWidthPix + *VReadyOffsetPix) / PixelClock;
*Tdmbf = DynamicMetadataTransmittedBytes / 4.0 / Dispclk;
*Tdmec = HTotal / PixelClock;
if (DynamicMetadataLinesBeforeActiveRequired == 0)
*Tdmsks = VBlank * HTotal / PixelClock / 2.0;
else
*Tdmsks = DynamicMetadataLinesBeforeActiveRequired * HTotal / PixelClock;
if (InterlaceEnable == 1 && ProgressiveToInterlaceUnitInOPP == false)
*Tdmsks = *Tdmsks / 2;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VUpdateWidthPix = %d\n", __func__, *VUpdateWidthPix);
dml_print("DML::%s: VReadyOffsetPix = %d\n", __func__, *VReadyOffsetPix);
dml_print("DML::%s: VUpdateOffsetPix = %d\n", __func__, *VUpdateOffsetPix);
dml_print("DML::%s: DynamicMetadataLinesBeforeActiveRequired = %d\n",
__func__, DynamicMetadataLinesBeforeActiveRequired);
dml_print("DML::%s: VBlank = %d\n", __func__, VBlank);
dml_print("DML::%s: HTotal = %d\n", __func__, HTotal);
dml_print("DML::%s: PixelClock = %f\n", __func__, PixelClock);
dml_print("DML::%s: Tdmsks = %f\n", __func__, *Tdmsks);
#endif
}
double dml32_CalculateTWait(
unsigned int PrefetchMode,
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange,
bool SynchronizeDRRDisplaysForUCLKPStateChangeFinal,
bool DRRDisplay,
double DRAMClockChangeLatency,
double FCLKChangeLatency,
double UrgentLatency,
double SREnterPlusExitTime)
{
double TWait = 0.0;
if (PrefetchMode == 0 &&
!(UseMALLForPStateChange == dm_use_mall_pstate_change_full_frame) &&
!(UseMALLForPStateChange == dm_use_mall_pstate_change_sub_viewport) &&
!(UseMALLForPStateChange == dm_use_mall_pstate_change_phantom_pipe) &&
!(SynchronizeDRRDisplaysForUCLKPStateChangeFinal && DRRDisplay)) {
TWait = dml_max3(DRAMClockChangeLatency + UrgentLatency, SREnterPlusExitTime, UrgentLatency);
} else if (PrefetchMode <= 1 && !(UseMALLForPStateChange == dm_use_mall_pstate_change_phantom_pipe)) {
TWait = dml_max3(FCLKChangeLatency + UrgentLatency, SREnterPlusExitTime, UrgentLatency);
} else if (PrefetchMode <= 2 && !(UseMALLForPStateChange == dm_use_mall_pstate_change_phantom_pipe)) {
TWait = dml_max(SREnterPlusExitTime, UrgentLatency);
} else {
TWait = UrgentLatency;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: PrefetchMode = %d\n", __func__, PrefetchMode);
dml_print("DML::%s: TWait = %f\n", __func__, TWait);
#endif
return TWait;
}
double dml32_get_return_bw_mbps(const soc_bounding_box_st *soc,
const int VoltageLevel,
const bool HostVMEnable,
const double DCFCLK,
const double FabricClock,
const double DRAMSpeed)
{
double ReturnBW = 0.;
double IdealSDPPortBandwidth = soc->return_bus_width_bytes * DCFCLK;
double IdealFabricBandwidth = FabricClock * soc->fabric_datapath_to_dcn_data_return_bytes;
double IdealDRAMBandwidth = DRAMSpeed * soc->num_chans * soc->dram_channel_width_bytes;
double PixelDataOnlyReturnBW = dml_min3(IdealSDPPortBandwidth * soc->pct_ideal_sdp_bw_after_urgent / 100,
IdealFabricBandwidth * soc->pct_ideal_fabric_bw_after_urgent / 100,
IdealDRAMBandwidth * (VoltageLevel < 2 ? soc->pct_ideal_dram_bw_after_urgent_strobe :
soc->pct_ideal_dram_sdp_bw_after_urgent_pixel_only) / 100);
double PixelMixedWithVMDataReturnBW = dml_min3(IdealSDPPortBandwidth * soc->pct_ideal_sdp_bw_after_urgent / 100,
IdealFabricBandwidth * soc->pct_ideal_fabric_bw_after_urgent / 100,
IdealDRAMBandwidth * (VoltageLevel < 2 ? soc->pct_ideal_dram_bw_after_urgent_strobe :
soc->pct_ideal_dram_sdp_bw_after_urgent_pixel_only) / 100);
if (HostVMEnable != true)
ReturnBW = PixelDataOnlyReturnBW;
else
ReturnBW = PixelMixedWithVMDataReturnBW;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VoltageLevel = %d\n", __func__, VoltageLevel);
dml_print("DML::%s: HostVMEnable = %d\n", __func__, HostVMEnable);
dml_print("DML::%s: DCFCLK = %f\n", __func__, DCFCLK);
dml_print("DML::%s: FabricClock = %f\n", __func__, FabricClock);
dml_print("DML::%s: DRAMSpeed = %f\n", __func__, DRAMSpeed);
dml_print("DML::%s: IdealSDPPortBandwidth = %f\n", __func__, IdealSDPPortBandwidth);
dml_print("DML::%s: IdealFabricBandwidth = %f\n", __func__, IdealFabricBandwidth);
dml_print("DML::%s: IdealDRAMBandwidth = %f\n", __func__, IdealDRAMBandwidth);
dml_print("DML::%s: PixelDataOnlyReturnBW = %f\n", __func__, PixelDataOnlyReturnBW);
dml_print("DML::%s: PixelMixedWithVMDataReturnBW = %f\n", __func__, PixelMixedWithVMDataReturnBW);
dml_print("DML::%s: ReturnBW = %f MBps\n", __func__, ReturnBW);
#endif
return ReturnBW;
}
double dml32_get_return_bw_mbps_vm_only(const soc_bounding_box_st *soc,
const int VoltageLevel,
const double DCFCLK,
const double FabricClock,
const double DRAMSpeed)
{
double VMDataOnlyReturnBW = dml_min3(
soc->return_bus_width_bytes * DCFCLK * soc->pct_ideal_sdp_bw_after_urgent / 100.0,
FabricClock * soc->fabric_datapath_to_dcn_data_return_bytes
* soc->pct_ideal_sdp_bw_after_urgent / 100.0,
DRAMSpeed * soc->num_chans * soc->dram_channel_width_bytes
* (VoltageLevel < 2 ?
soc->pct_ideal_dram_bw_after_urgent_strobe :
soc->pct_ideal_dram_sdp_bw_after_urgent_vm_only) / 100.0);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VoltageLevel = %d\n", __func__, VoltageLevel);
dml_print("DML::%s: DCFCLK = %f\n", __func__, DCFCLK);
dml_print("DML::%s: FabricClock = %f\n", __func__, FabricClock);
dml_print("DML::%s: DRAMSpeed = %f\n", __func__, DRAMSpeed);
dml_print("DML::%s: VMDataOnlyReturnBW = %f\n", __func__, VMDataOnlyReturnBW);
#endif
return VMDataOnlyReturnBW;
}
double dml32_CalculateExtraLatency(
unsigned int RoundTripPingLatencyCycles,
unsigned int ReorderingBytes,
double DCFCLK,
unsigned int TotalNumberOfActiveDPP,
unsigned int PixelChunkSizeInKByte,
unsigned int TotalNumberOfDCCActiveDPP,
unsigned int MetaChunkSize,
double ReturnBW,
bool GPUVMEnable,
bool HostVMEnable,
unsigned int NumberOfActiveSurfaces,
unsigned int NumberOfDPP[],
unsigned int dpte_group_bytes[],
double HostVMInefficiencyFactor,
double HostVMMinPageSize,
unsigned int HostVMMaxNonCachedPageTableLevels)
{
double ExtraLatencyBytes;
double ExtraLatency;
ExtraLatencyBytes = dml32_CalculateExtraLatencyBytes(
ReorderingBytes,
TotalNumberOfActiveDPP,
PixelChunkSizeInKByte,
TotalNumberOfDCCActiveDPP,
MetaChunkSize,
GPUVMEnable,
HostVMEnable,
NumberOfActiveSurfaces,
NumberOfDPP,
dpte_group_bytes,
HostVMInefficiencyFactor,
HostVMMinPageSize,
HostVMMaxNonCachedPageTableLevels);
ExtraLatency = (RoundTripPingLatencyCycles + __DML_ARB_TO_RET_DELAY__) / DCFCLK + ExtraLatencyBytes / ReturnBW;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: RoundTripPingLatencyCycles=%d\n", __func__, RoundTripPingLatencyCycles);
dml_print("DML::%s: DCFCLK=%f\n", __func__, DCFCLK);
dml_print("DML::%s: ExtraLatencyBytes=%f\n", __func__, ExtraLatencyBytes);
dml_print("DML::%s: ReturnBW=%f\n", __func__, ReturnBW);
dml_print("DML::%s: ExtraLatency=%f\n", __func__, ExtraLatency);
#endif
return ExtraLatency;
}
bool dml32_CalculatePrefetchSchedule(
struct vba_vars_st *v,
unsigned int k,
double HostVMInefficiencyFactor,
DmlPipe *myPipe,
unsigned int DSCDelay,
unsigned int DPP_RECOUT_WIDTH,
unsigned int VStartup,
unsigned int MaxVStartup,
double UrgentLatency,
double UrgentExtraLatency,
double TCalc,
unsigned int PDEAndMetaPTEBytesFrame,
unsigned int MetaRowByte,
unsigned int PixelPTEBytesPerRow,
double PrefetchSourceLinesY,
unsigned int SwathWidthY,
unsigned int VInitPreFillY,
unsigned int MaxNumSwathY,
double PrefetchSourceLinesC,
unsigned int SwathWidthC,
unsigned int VInitPreFillC,
unsigned int MaxNumSwathC,
unsigned int swath_width_luma_ub,
unsigned int swath_width_chroma_ub,
unsigned int SwathHeightY,
unsigned int SwathHeightC,
double TWait,
double TPreReq,
double *DSTXAfterScaler,
double *DSTYAfterScaler,
double *DestinationLinesForPrefetch,
double *PrefetchBandwidth,
double *DestinationLinesToRequestVMInVBlank,
double *DestinationLinesToRequestRowInVBlank,
double *VRatioPrefetchY,
double *VRatioPrefetchC,
double *RequiredPrefetchPixDataBWLuma,
double *RequiredPrefetchPixDataBWChroma,
bool *NotEnoughTimeForDynamicMetadata,
double *Tno_bw,
double *prefetch_vmrow_bw,
double *Tdmdl_vm,
double *Tdmdl,
double *TSetup,
unsigned int *VUpdateOffsetPix,
double *VUpdateWidthPix,
double *VReadyOffsetPix)
{
double DPPCLKDelaySubtotalPlusCNVCFormater = v->DPPCLKDelaySubtotal + v->DPPCLKDelayCNVCFormater;
bool MyError = false;
unsigned int DPPCycles, DISPCLKCycles;
double DSTTotalPixelsAfterScaler;
double LineTime;
double dst_y_prefetch_equ;
double prefetch_bw_oto;
double Tvm_oto;
double Tr0_oto;
double Tvm_oto_lines;
double Tr0_oto_lines;
double dst_y_prefetch_oto;
double TimeForFetchingMetaPTE = 0;
double TimeForFetchingRowInVBlank = 0;
double LinesToRequestPrefetchPixelData = 0;
double LinesForPrefetchBandwidth = 0;
unsigned int HostVMDynamicLevelsTrips;
double trip_to_mem;
double Tvm_trips;
double Tr0_trips;
double Tvm_trips_rounded;
double Tr0_trips_rounded;
double Lsw_oto;
double Tpre_rounded;
double prefetch_bw_equ;
double Tvm_equ;
double Tr0_equ;
double Tdmbf;
double Tdmec;
double Tdmsks;
double prefetch_sw_bytes;
double bytes_pp;
double dep_bytes;
unsigned int max_vratio_pre = v->MaxVRatioPre;
double min_Lsw;
double Tsw_est1 = 0;
double Tsw_est3 = 0;
if (v->GPUVMEnable == true && v->HostVMEnable == true)
HostVMDynamicLevelsTrips = v->HostVMMaxNonCachedPageTableLevels;
else
HostVMDynamicLevelsTrips = 0;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: v->GPUVMEnable = %d\n", __func__, v->GPUVMEnable);
dml_print("DML::%s: v->GPUVMMaxPageTableLevels = %d\n", __func__, v->GPUVMMaxPageTableLevels);
dml_print("DML::%s: DCCEnable = %d\n", __func__, myPipe->DCCEnable);
dml_print("DML::%s: v->HostVMEnable=%d HostVMInefficiencyFactor=%f\n",
__func__, v->HostVMEnable, HostVMInefficiencyFactor);
#endif
dml32_CalculateVUpdateAndDynamicMetadataParameters(
v->MaxInterDCNTileRepeaters,
myPipe->Dppclk,
myPipe->Dispclk,
myPipe->DCFClkDeepSleep,
myPipe->PixelClock,
myPipe->HTotal,
myPipe->VBlank,
v->DynamicMetadataTransmittedBytes[k],
v->DynamicMetadataLinesBeforeActiveRequired[k],
myPipe->InterlaceEnable,
myPipe->ProgressiveToInterlaceUnitInOPP,
TSetup,
&Tdmbf,
&Tdmec,
&Tdmsks,
VUpdateOffsetPix,
VUpdateWidthPix,
VReadyOffsetPix);
LineTime = myPipe->HTotal / myPipe->PixelClock;
trip_to_mem = UrgentLatency;
Tvm_trips = UrgentExtraLatency + trip_to_mem * (v->GPUVMMaxPageTableLevels * (HostVMDynamicLevelsTrips + 1) - 1);
if (v->DynamicMetadataVMEnabled == true)
*Tdmdl = TWait + Tvm_trips + trip_to_mem;
else
*Tdmdl = TWait + UrgentExtraLatency;
#ifdef __DML_VBA_ALLOW_DELTA__
if (v->DynamicMetadataEnable[k] == false)
*Tdmdl = 0.0;
#endif
if (v->DynamicMetadataEnable[k] == true) {
if (VStartup * LineTime < *TSetup + *Tdmdl + Tdmbf + Tdmec + Tdmsks) {
*NotEnoughTimeForDynamicMetadata = true;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: Not Enough Time for Dynamic Meta!\n", __func__);
dml_print("DML::%s: Tdmbf: %fus - time for dmd transfer from dchub to dio output buffer\n",
__func__, Tdmbf);
dml_print("DML::%s: Tdmec: %fus - time dio takes to transfer dmd\n", __func__, Tdmec);
dml_print("DML::%s: Tdmsks: %fus - time before active dmd must complete transmission at dio\n",
__func__, Tdmsks);
dml_print("DML::%s: Tdmdl: %fus - time for fabric to become ready and fetch dmd\n",
__func__, *Tdmdl);
#endif
} else {
*NotEnoughTimeForDynamicMetadata = false;
}
} else {
*NotEnoughTimeForDynamicMetadata = false;
}
*Tdmdl_vm = (v->DynamicMetadataEnable[k] == true && v->DynamicMetadataVMEnabled == true &&
v->GPUVMEnable == true ? TWait + Tvm_trips : 0);
if (myPipe->ScalerEnabled)
DPPCycles = DPPCLKDelaySubtotalPlusCNVCFormater + v->DPPCLKDelaySCL;
else
DPPCycles = DPPCLKDelaySubtotalPlusCNVCFormater + v->DPPCLKDelaySCLLBOnly;
DPPCycles = DPPCycles + myPipe->NumberOfCursors * v->DPPCLKDelayCNVCCursor;
DISPCLKCycles = v->DISPCLKDelaySubtotal;
if (myPipe->Dppclk == 0.0 || myPipe->Dispclk == 0.0)
return true;
*DSTXAfterScaler = DPPCycles * myPipe->PixelClock / myPipe->Dppclk + DISPCLKCycles *
myPipe->PixelClock / myPipe->Dispclk + DSCDelay;
*DSTXAfterScaler = *DSTXAfterScaler + (myPipe->ODMMode != dm_odm_combine_mode_disabled ? 18 : 0)
+ (myPipe->DPPPerSurface - 1) * DPP_RECOUT_WIDTH
+ ((myPipe->ODMMode == dm_odm_split_mode_1to2 || myPipe->ODMMode == dm_odm_mode_mso_1to2) ?
myPipe->HActive / 2 : 0)
+ ((myPipe->ODMMode == dm_odm_mode_mso_1to4) ? myPipe->HActive * 3 / 4 : 0);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DPPCycles: %d\n", __func__, DPPCycles);
dml_print("DML::%s: PixelClock: %f\n", __func__, myPipe->PixelClock);
dml_print("DML::%s: Dppclk: %f\n", __func__, myPipe->Dppclk);
dml_print("DML::%s: DISPCLKCycles: %d\n", __func__, DISPCLKCycles);
dml_print("DML::%s: DISPCLK: %f\n", __func__, myPipe->Dispclk);
dml_print("DML::%s: DSCDelay: %d\n", __func__, DSCDelay);
dml_print("DML::%s: ODMMode: %d\n", __func__, myPipe->ODMMode);
dml_print("DML::%s: DPP_RECOUT_WIDTH: %d\n", __func__, DPP_RECOUT_WIDTH);
dml_print("DML::%s: DSTXAfterScaler: %d\n", __func__, *DSTXAfterScaler);
#endif
if (v->OutputFormat[k] == dm_420 || (myPipe->InterlaceEnable && myPipe->ProgressiveToInterlaceUnitInOPP))
*DSTYAfterScaler = 1;
else
*DSTYAfterScaler = 0;
DSTTotalPixelsAfterScaler = *DSTYAfterScaler * myPipe->HTotal + *DSTXAfterScaler;
*DSTYAfterScaler = dml_floor(DSTTotalPixelsAfterScaler / myPipe->HTotal, 1);
*DSTXAfterScaler = DSTTotalPixelsAfterScaler - ((double) (*DSTYAfterScaler * myPipe->HTotal));
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DSTXAfterScaler: %d (final)\n", __func__, *DSTXAfterScaler);
dml_print("DML::%s: DSTYAfterScaler: %d (final)\n", __func__, *DSTYAfterScaler);
#endif
MyError = false;
Tr0_trips = trip_to_mem * (HostVMDynamicLevelsTrips + 1);
if (v->GPUVMEnable == true) {
Tvm_trips_rounded = dml_ceil(4.0 * Tvm_trips / LineTime, 1.0) / 4.0 * LineTime;
Tr0_trips_rounded = dml_ceil(4.0 * Tr0_trips / LineTime, 1.0) / 4.0 * LineTime;
if (v->GPUVMMaxPageTableLevels >= 3) {
*Tno_bw = UrgentExtraLatency + trip_to_mem *
(double) ((v->GPUVMMaxPageTableLevels - 2) * (HostVMDynamicLevelsTrips + 1) - 1);
} else if (v->GPUVMMaxPageTableLevels == 1 && myPipe->DCCEnable != true) {
Tr0_trips_rounded = dml_ceil(4.0 * UrgentExtraLatency / LineTime, 1.0) /
4.0 * LineTime;
*Tno_bw = UrgentExtraLatency;
} else {
*Tno_bw = 0;
}
} else if (myPipe->DCCEnable == true) {
Tvm_trips_rounded = LineTime / 4.0;
Tr0_trips_rounded = dml_ceil(4.0 * Tr0_trips / LineTime, 1.0) / 4.0 * LineTime;
*Tno_bw = 0;
} else {
Tvm_trips_rounded = LineTime / 4.0;
Tr0_trips_rounded = LineTime / 2.0;
*Tno_bw = 0;
}
Tvm_trips_rounded = dml_max(Tvm_trips_rounded, LineTime / 4.0);
Tr0_trips_rounded = dml_max(Tr0_trips_rounded, LineTime / 4.0);
if (myPipe->SourcePixelFormat == dm_420_8 || myPipe->SourcePixelFormat == dm_420_10
|| myPipe->SourcePixelFormat == dm_420_12) {
bytes_pp = myPipe->BytePerPixelY + myPipe->BytePerPixelC / 4;
} else {
bytes_pp = myPipe->BytePerPixelY + myPipe->BytePerPixelC;
}
prefetch_sw_bytes = PrefetchSourceLinesY * swath_width_luma_ub * myPipe->BytePerPixelY
+ PrefetchSourceLinesC * swath_width_chroma_ub * myPipe->BytePerPixelC;
prefetch_bw_oto = dml_max(bytes_pp * myPipe->PixelClock / myPipe->DPPPerSurface,
prefetch_sw_bytes / (dml_max(PrefetchSourceLinesY, PrefetchSourceLinesC) * LineTime));
min_Lsw = dml_max(PrefetchSourceLinesY, PrefetchSourceLinesC) / max_vratio_pre;
min_Lsw = dml_max(min_Lsw, 1.0);
Lsw_oto = dml_ceil(4.0 * dml_max(prefetch_sw_bytes / prefetch_bw_oto / LineTime, min_Lsw), 1.0) / 4.0;
if (v->GPUVMEnable == true) {
Tvm_oto = dml_max3(
Tvm_trips,
*Tno_bw + PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor / prefetch_bw_oto,
LineTime / 4.0);
} else
Tvm_oto = LineTime / 4.0;
if ((v->GPUVMEnable == true || myPipe->DCCEnable == true)) {
Tr0_oto = dml_max4(
Tr0_trips,
(MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor) / prefetch_bw_oto,
(LineTime - Tvm_oto)/2.0,
LineTime / 4.0);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: Tr0_oto max0 = %f\n", __func__,
(MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor) / prefetch_bw_oto);
dml_print("DML::%s: Tr0_oto max1 = %f\n", __func__, Tr0_trips);
dml_print("DML::%s: Tr0_oto max2 = %f\n", __func__, LineTime - Tvm_oto);
dml_print("DML::%s: Tr0_oto max3 = %f\n", __func__, LineTime / 4);
#endif
} else
Tr0_oto = (LineTime - Tvm_oto) / 2.0;
Tvm_oto_lines = dml_ceil(4.0 * Tvm_oto / LineTime, 1) / 4.0;
Tr0_oto_lines = dml_ceil(4.0 * Tr0_oto / LineTime, 1) / 4.0;
dst_y_prefetch_oto = Tvm_oto_lines + 2 * Tr0_oto_lines + Lsw_oto;
dst_y_prefetch_equ = VStartup - (*TSetup + dml_max(TWait + TCalc, *Tdmdl)) / LineTime -
(*DSTYAfterScaler + (double) *DSTXAfterScaler / (double) myPipe->HTotal);
dst_y_prefetch_equ = dml_min(dst_y_prefetch_equ, __DML_VBA_MAX_DST_Y_PRE__);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: HTotal = %d\n", __func__, myPipe->HTotal);
dml_print("DML::%s: min_Lsw = %f\n", __func__, min_Lsw);
dml_print("DML::%s: *Tno_bw = %f\n", __func__, *Tno_bw);
dml_print("DML::%s: UrgentExtraLatency = %f\n", __func__, UrgentExtraLatency);
dml_print("DML::%s: trip_to_mem = %f\n", __func__, trip_to_mem);
dml_print("DML::%s: BytePerPixelY = %d\n", __func__, myPipe->BytePerPixelY);
dml_print("DML::%s: PrefetchSourceLinesY = %f\n", __func__, PrefetchSourceLinesY);
dml_print("DML::%s: swath_width_luma_ub = %d\n", __func__, swath_width_luma_ub);
dml_print("DML::%s: BytePerPixelC = %d\n", __func__, myPipe->BytePerPixelC);
dml_print("DML::%s: PrefetchSourceLinesC = %f\n", __func__, PrefetchSourceLinesC);
dml_print("DML::%s: swath_width_chroma_ub = %d\n", __func__, swath_width_chroma_ub);
dml_print("DML::%s: prefetch_sw_bytes = %f\n", __func__, prefetch_sw_bytes);
dml_print("DML::%s: bytes_pp = %f\n", __func__, bytes_pp);
dml_print("DML::%s: PDEAndMetaPTEBytesFrame = %d\n", __func__, PDEAndMetaPTEBytesFrame);
dml_print("DML::%s: MetaRowByte = %d\n", __func__, MetaRowByte);
dml_print("DML::%s: PixelPTEBytesPerRow = %d\n", __func__, PixelPTEBytesPerRow);
dml_print("DML::%s: HostVMInefficiencyFactor = %f\n", __func__, HostVMInefficiencyFactor);
dml_print("DML::%s: Tvm_trips = %f\n", __func__, Tvm_trips);
dml_print("DML::%s: Tr0_trips = %f\n", __func__, Tr0_trips);
dml_print("DML::%s: prefetch_bw_oto = %f\n", __func__, prefetch_bw_oto);
dml_print("DML::%s: Tr0_oto = %f\n", __func__, Tr0_oto);
dml_print("DML::%s: Tvm_oto = %f\n", __func__, Tvm_oto);
dml_print("DML::%s: Tvm_oto_lines = %f\n", __func__, Tvm_oto_lines);
dml_print("DML::%s: Tr0_oto_lines = %f\n", __func__, Tr0_oto_lines);
dml_print("DML::%s: Lsw_oto = %f\n", __func__, Lsw_oto);
dml_print("DML::%s: dst_y_prefetch_oto = %f\n", __func__, dst_y_prefetch_oto);
dml_print("DML::%s: dst_y_prefetch_equ = %f\n", __func__, dst_y_prefetch_equ);
#endif
dst_y_prefetch_equ = dml_floor(4.0 * (dst_y_prefetch_equ + 0.125), 1) / 4.0;
Tpre_rounded = dst_y_prefetch_equ * LineTime;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: dst_y_prefetch_equ: %f (after round)\n", __func__, dst_y_prefetch_equ);
dml_print("DML::%s: LineTime: %f\n", __func__, LineTime);
dml_print("DML::%s: VStartup: %d\n", __func__, VStartup);
dml_print("DML::%s: Tvstartup: %fus - time between vstartup and first pixel of active\n",
__func__, VStartup * LineTime);
dml_print("DML::%s: TSetup: %fus - time from vstartup to vready\n", __func__, *TSetup);
dml_print("DML::%s: TCalc: %fus - time for calculations in dchub starting at vready\n", __func__, TCalc);
dml_print("DML::%s: Tdmbf: %fus - time for dmd transfer from dchub to dio output buffer\n", __func__, Tdmbf);
dml_print("DML::%s: Tdmec: %fus - time dio takes to transfer dmd\n", __func__, Tdmec);
dml_print("DML::%s: Tdmdl_vm: %fus - time for vm stages of dmd\n", __func__, *Tdmdl_vm);
dml_print("DML::%s: Tdmdl: %fus - time for fabric to become ready and fetch dmd\n", __func__, *Tdmdl);
dml_print("DML::%s: DSTYAfterScaler: %d lines - number of lines of pipeline and buffer delay after scaler\n",
__func__, *DSTYAfterScaler);
#endif
dep_bytes = dml_max(PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor,
MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor);
if (prefetch_sw_bytes < dep_bytes)
prefetch_sw_bytes = 2 * dep_bytes;
*PrefetchBandwidth = 0;
*DestinationLinesToRequestVMInVBlank = 0;
*DestinationLinesToRequestRowInVBlank = 0;
*VRatioPrefetchY = 0;
*VRatioPrefetchC = 0;
*RequiredPrefetchPixDataBWLuma = 0;
if (dst_y_prefetch_equ > 1 &&
(Tpre_rounded >= TPreReq || dst_y_prefetch_equ == __DML_VBA_MAX_DST_Y_PRE__)) {
double PrefetchBandwidth1;
double PrefetchBandwidth2;
double PrefetchBandwidth3;
double PrefetchBandwidth4;
if (Tpre_rounded - *Tno_bw > 0) {
PrefetchBandwidth1 = (PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor + 2 * MetaRowByte
+ 2 * PixelPTEBytesPerRow * HostVMInefficiencyFactor
+ prefetch_sw_bytes) / (Tpre_rounded - *Tno_bw);
Tsw_est1 = prefetch_sw_bytes / PrefetchBandwidth1;
} else
PrefetchBandwidth1 = 0;
if (VStartup == MaxVStartup && (Tsw_est1 / LineTime < min_Lsw)
&& Tpre_rounded - min_Lsw * LineTime - 0.75 * LineTime - *Tno_bw > 0) {
PrefetchBandwidth1 = (PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor + 2 * MetaRowByte
+ 2 * PixelPTEBytesPerRow * HostVMInefficiencyFactor)
/ (Tpre_rounded - min_Lsw * LineTime - 0.75 * LineTime - *Tno_bw);
}
if (Tpre_rounded - *Tno_bw - 2 * Tr0_trips_rounded > 0)
PrefetchBandwidth2 = (PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor + prefetch_sw_bytes) /
(Tpre_rounded - *Tno_bw - 2 * Tr0_trips_rounded);
else
PrefetchBandwidth2 = 0;
if (Tpre_rounded - Tvm_trips_rounded > 0) {
PrefetchBandwidth3 = (2 * MetaRowByte + 2 * PixelPTEBytesPerRow * HostVMInefficiencyFactor
+ prefetch_sw_bytes) / (Tpre_rounded - Tvm_trips_rounded);
Tsw_est3 = prefetch_sw_bytes / PrefetchBandwidth3;
} else
PrefetchBandwidth3 = 0;
if (VStartup == MaxVStartup &&
(Tsw_est3 / LineTime < min_Lsw) && Tpre_rounded - min_Lsw * LineTime - 0.75 *
LineTime - Tvm_trips_rounded > 0) {
PrefetchBandwidth3 = (2 * MetaRowByte + 2 * PixelPTEBytesPerRow * HostVMInefficiencyFactor)
/ (Tpre_rounded - min_Lsw * LineTime - 0.75 * LineTime - Tvm_trips_rounded);
}
if (Tpre_rounded - Tvm_trips_rounded - 2 * Tr0_trips_rounded > 0) {
PrefetchBandwidth4 = prefetch_sw_bytes /
(Tpre_rounded - Tvm_trips_rounded - 2 * Tr0_trips_rounded);
} else {
PrefetchBandwidth4 = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: Tpre_rounded: %f\n", __func__, Tpre_rounded);
dml_print("DML::%s: Tno_bw: %f\n", __func__, *Tno_bw);
dml_print("DML::%s: Tvm_trips_rounded: %f\n", __func__, Tvm_trips_rounded);
dml_print("DML::%s: Tsw_est1: %f\n", __func__, Tsw_est1);
dml_print("DML::%s: Tsw_est3: %f\n", __func__, Tsw_est3);
dml_print("DML::%s: PrefetchBandwidth1: %f\n", __func__, PrefetchBandwidth1);
dml_print("DML::%s: PrefetchBandwidth2: %f\n", __func__, PrefetchBandwidth2);
dml_print("DML::%s: PrefetchBandwidth3: %f\n", __func__, PrefetchBandwidth3);
dml_print("DML::%s: PrefetchBandwidth4: %f\n", __func__, PrefetchBandwidth4);
#endif
{
bool Case1OK;
bool Case2OK;
bool Case3OK;
if (PrefetchBandwidth1 > 0) {
if (*Tno_bw + PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor / PrefetchBandwidth1
>= Tvm_trips_rounded
&& (MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor)
/ PrefetchBandwidth1 >= Tr0_trips_rounded) {
Case1OK = true;
} else {
Case1OK = false;
}
} else {
Case1OK = false;
}
if (PrefetchBandwidth2 > 0) {
if (*Tno_bw + PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor / PrefetchBandwidth2
>= Tvm_trips_rounded
&& (MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor)
/ PrefetchBandwidth2 < Tr0_trips_rounded) {
Case2OK = true;
} else {
Case2OK = false;
}
} else {
Case2OK = false;
}
if (PrefetchBandwidth3 > 0) {
if (*Tno_bw + PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor / PrefetchBandwidth3 <
Tvm_trips_rounded && (MetaRowByte + PixelPTEBytesPerRow *
HostVMInefficiencyFactor) / PrefetchBandwidth3 >=
Tr0_trips_rounded) {
Case3OK = true;
} else {
Case3OK = false;
}
} else {
Case3OK = false;
}
if (Case1OK)
prefetch_bw_equ = PrefetchBandwidth1;
else if (Case2OK)
prefetch_bw_equ = PrefetchBandwidth2;
else if (Case3OK)
prefetch_bw_equ = PrefetchBandwidth3;
else
prefetch_bw_equ = PrefetchBandwidth4;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: Case1OK: %d\n", __func__, Case1OK);
dml_print("DML::%s: Case2OK: %d\n", __func__, Case2OK);
dml_print("DML::%s: Case3OK: %d\n", __func__, Case3OK);
dml_print("DML::%s: prefetch_bw_equ: %f\n", __func__, prefetch_bw_equ);
#endif
if (prefetch_bw_equ > 0) {
if (v->GPUVMEnable == true) {
Tvm_equ = dml_max3(*Tno_bw + PDEAndMetaPTEBytesFrame *
HostVMInefficiencyFactor / prefetch_bw_equ,
Tvm_trips, LineTime / 4);
} else {
Tvm_equ = LineTime / 4;
}
if ((v->GPUVMEnable == true || myPipe->DCCEnable == true)) {
Tr0_equ = dml_max4((MetaRowByte + PixelPTEBytesPerRow *
HostVMInefficiencyFactor) / prefetch_bw_equ, Tr0_trips,
(LineTime - Tvm_equ) / 2, LineTime / 4);
} else {
Tr0_equ = (LineTime - Tvm_equ) / 2;
}
} else {
Tvm_equ = 0;
Tr0_equ = 0;
#ifdef __DML_VBA_DEBUG__
dml_print("DML: prefetch_bw_equ equals 0! %s:%d\n", __FILE__, __LINE__);
#endif
}
}
if (dst_y_prefetch_oto < dst_y_prefetch_equ) {
if (dst_y_prefetch_oto * LineTime < TPreReq) {
*DestinationLinesForPrefetch = dst_y_prefetch_equ;
} else {
*DestinationLinesForPrefetch = dst_y_prefetch_oto;
}
TimeForFetchingMetaPTE = Tvm_oto;
TimeForFetchingRowInVBlank = Tr0_oto;
*PrefetchBandwidth = prefetch_bw_oto;
LinesForPrefetchBandwidth = dst_y_prefetch_oto;
} else {
*DestinationLinesForPrefetch = dst_y_prefetch_equ;
TimeForFetchingMetaPTE = Tvm_equ;
TimeForFetchingRowInVBlank = Tr0_equ;
*PrefetchBandwidth = prefetch_bw_equ;
LinesForPrefetchBandwidth = dst_y_prefetch_equ;
}
*DestinationLinesToRequestVMInVBlank = dml_ceil(4.0 * TimeForFetchingMetaPTE / LineTime, 1.0) / 4.0;
*DestinationLinesToRequestRowInVBlank =
dml_ceil(4.0 * TimeForFetchingRowInVBlank / LineTime, 1.0) / 4.0;
LinesToRequestPrefetchPixelData = LinesForPrefetchBandwidth -
*DestinationLinesToRequestVMInVBlank - 2 * *DestinationLinesToRequestRowInVBlank;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DestinationLinesForPrefetch = %f\n", __func__, *DestinationLinesForPrefetch);
dml_print("DML::%s: DestinationLinesToRequestVMInVBlank = %f\n",
__func__, *DestinationLinesToRequestVMInVBlank);
dml_print("DML::%s: TimeForFetchingRowInVBlank = %f\n", __func__, TimeForFetchingRowInVBlank);
dml_print("DML::%s: LineTime = %f\n", __func__, LineTime);
dml_print("DML::%s: DestinationLinesToRequestRowInVBlank = %f\n",
__func__, *DestinationLinesToRequestRowInVBlank);
dml_print("DML::%s: PrefetchSourceLinesY = %f\n", __func__, PrefetchSourceLinesY);
dml_print("DML::%s: LinesToRequestPrefetchPixelData = %f\n", __func__, LinesToRequestPrefetchPixelData);
#endif
if (LinesToRequestPrefetchPixelData >= 1 && prefetch_bw_equ > 0) {
*VRatioPrefetchY = (double) PrefetchSourceLinesY / LinesToRequestPrefetchPixelData;
*VRatioPrefetchY = dml_max(*VRatioPrefetchY, 1.0);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VRatioPrefetchY = %f\n", __func__, *VRatioPrefetchY);
dml_print("DML::%s: SwathHeightY = %d\n", __func__, SwathHeightY);
dml_print("DML::%s: VInitPreFillY = %d\n", __func__, VInitPreFillY);
#endif
if ((SwathHeightY > 4) && (VInitPreFillY > 3)) {
if (LinesToRequestPrefetchPixelData > (VInitPreFillY - 3.0) / 2.0) {
*VRatioPrefetchY =
dml_max((double) PrefetchSourceLinesY /
LinesToRequestPrefetchPixelData,
(double) MaxNumSwathY * SwathHeightY /
(LinesToRequestPrefetchPixelData -
(VInitPreFillY - 3.0) / 2.0));
*VRatioPrefetchY = dml_max(*VRatioPrefetchY, 1.0);
} else {
MyError = true;
*VRatioPrefetchY = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VRatioPrefetchY = %f\n", __func__, *VRatioPrefetchY);
dml_print("DML::%s: PrefetchSourceLinesY = %f\n", __func__, PrefetchSourceLinesY);
dml_print("DML::%s: MaxNumSwathY = %d\n", __func__, MaxNumSwathY);
#endif
}
*VRatioPrefetchC = (double) PrefetchSourceLinesC / LinesToRequestPrefetchPixelData;
*VRatioPrefetchC = dml_max(*VRatioPrefetchC, 1.0);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VRatioPrefetchC = %f\n", __func__, *VRatioPrefetchC);
dml_print("DML::%s: SwathHeightC = %d\n", __func__, SwathHeightC);
dml_print("DML::%s: VInitPreFillC = %d\n", __func__, VInitPreFillC);
#endif
if ((SwathHeightC > 4)) {
if (LinesToRequestPrefetchPixelData > (VInitPreFillC - 3.0) / 2.0) {
*VRatioPrefetchC =
dml_max(*VRatioPrefetchC,
(double) MaxNumSwathC * SwathHeightC /
(LinesToRequestPrefetchPixelData -
(VInitPreFillC - 3.0) / 2.0));
*VRatioPrefetchC = dml_max(*VRatioPrefetchC, 1.0);
} else {
MyError = true;
*VRatioPrefetchC = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VRatioPrefetchC = %f\n", __func__, *VRatioPrefetchC);
dml_print("DML::%s: PrefetchSourceLinesC = %f\n", __func__, PrefetchSourceLinesC);
dml_print("DML::%s: MaxNumSwathC = %d\n", __func__, MaxNumSwathC);
#endif
}
*RequiredPrefetchPixDataBWLuma = (double) PrefetchSourceLinesY
/ LinesToRequestPrefetchPixelData * myPipe->BytePerPixelY * swath_width_luma_ub
/ LineTime;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: BytePerPixelY = %d\n", __func__, myPipe->BytePerPixelY);
dml_print("DML::%s: swath_width_luma_ub = %d\n", __func__, swath_width_luma_ub);
dml_print("DML::%s: LineTime = %f\n", __func__, LineTime);
dml_print("DML::%s: RequiredPrefetchPixDataBWLuma = %f\n",
__func__, *RequiredPrefetchPixDataBWLuma);
#endif
*RequiredPrefetchPixDataBWChroma = (double) PrefetchSourceLinesC /
LinesToRequestPrefetchPixelData
* myPipe->BytePerPixelC
* swath_width_chroma_ub / LineTime;
} else {
MyError = true;
#ifdef __DML_VBA_DEBUG__
dml_print("DML:%s: MyErr set. LinesToRequestPrefetchPixelData: %f, should be > 0\n",
__func__, LinesToRequestPrefetchPixelData);
#endif
*VRatioPrefetchY = 0;
*VRatioPrefetchC = 0;
*RequiredPrefetchPixDataBWLuma = 0;
*RequiredPrefetchPixDataBWChroma = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML: Tpre: %fus - sum of time to request meta pte, 2 x data pte + meta data, swaths\n",
(double)LinesToRequestPrefetchPixelData * LineTime +
2.0*TimeForFetchingRowInVBlank + TimeForFetchingMetaPTE);
dml_print("DML: Tvm: %fus - time to fetch page tables for meta surface\n", TimeForFetchingMetaPTE);
dml_print("DML: To: %fus - time for propagation from scaler to optc\n",
(*DSTYAfterScaler + ((double) (*DSTXAfterScaler) / (double) myPipe->HTotal)) * LineTime);
dml_print("DML: Tvstartup - TSetup - Tcalc - Twait - Tpre - To > 0\n");
dml_print("DML: Tslack(pre): %fus - time left over in schedule\n", VStartup * LineTime -
TimeForFetchingMetaPTE - 2*TimeForFetchingRowInVBlank - (*DSTYAfterScaler +
((double) (*DSTXAfterScaler) / (double) myPipe->HTotal)) * LineTime - TWait - TCalc - *TSetup);
dml_print("DML: row_bytes = dpte_row_bytes (per_pipe) = PixelPTEBytesPerRow = : %d\n",
PixelPTEBytesPerRow);
#endif
} else {
MyError = true;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MyErr set, dst_y_prefetch_equ = %f (should be > 1)\n",
__func__, dst_y_prefetch_equ);
#endif
}
{
double prefetch_vm_bw;
double prefetch_row_bw;
if (PDEAndMetaPTEBytesFrame == 0) {
prefetch_vm_bw = 0;
} else if (*DestinationLinesToRequestVMInVBlank > 0) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: PDEAndMetaPTEBytesFrame = %d\n", __func__, PDEAndMetaPTEBytesFrame);
dml_print("DML::%s: HostVMInefficiencyFactor = %f\n", __func__, HostVMInefficiencyFactor);
dml_print("DML::%s: DestinationLinesToRequestVMInVBlank = %f\n",
__func__, *DestinationLinesToRequestVMInVBlank);
dml_print("DML::%s: LineTime = %f\n", __func__, LineTime);
#endif
prefetch_vm_bw = PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor /
(*DestinationLinesToRequestVMInVBlank * LineTime);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: prefetch_vm_bw = %f\n", __func__, prefetch_vm_bw);
#endif
} else {
prefetch_vm_bw = 0;
MyError = true;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MyErr set. DestinationLinesToRequestVMInVBlank=%f (should be > 0)\n",
__func__, *DestinationLinesToRequestVMInVBlank);
#endif
}
if (MetaRowByte + PixelPTEBytesPerRow == 0) {
prefetch_row_bw = 0;
} else if (*DestinationLinesToRequestRowInVBlank > 0) {
prefetch_row_bw = (MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor) /
(*DestinationLinesToRequestRowInVBlank * LineTime);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MetaRowByte = %d\n", __func__, MetaRowByte);
dml_print("DML::%s: PixelPTEBytesPerRow = %d\n", __func__, PixelPTEBytesPerRow);
dml_print("DML::%s: DestinationLinesToRequestRowInVBlank = %f\n",
__func__, *DestinationLinesToRequestRowInVBlank);
dml_print("DML::%s: prefetch_row_bw = %f\n", __func__, prefetch_row_bw);
#endif
} else {
prefetch_row_bw = 0;
MyError = true;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MyErr set. DestinationLinesToRequestRowInVBlank=%f (should be > 0)\n",
__func__, *DestinationLinesToRequestRowInVBlank);
#endif
}
*prefetch_vmrow_bw = dml_max(prefetch_vm_bw, prefetch_row_bw);
}
if (MyError) {
*PrefetchBandwidth = 0;
TimeForFetchingMetaPTE = 0;
TimeForFetchingRowInVBlank = 0;
*DestinationLinesToRequestVMInVBlank = 0;
*DestinationLinesToRequestRowInVBlank = 0;
*DestinationLinesForPrefetch = 0;
LinesToRequestPrefetchPixelData = 0;
*VRatioPrefetchY = 0;
*VRatioPrefetchC = 0;
*RequiredPrefetchPixDataBWLuma = 0;
*RequiredPrefetchPixDataBWChroma = 0;
}
return MyError;
}
void dml32_CalculateFlipSchedule(
double HostVMInefficiencyFactor,
double UrgentExtraLatency,
double UrgentLatency,
unsigned int GPUVMMaxPageTableLevels,
bool HostVMEnable,
unsigned int HostVMMaxNonCachedPageTableLevels,
bool GPUVMEnable,
double HostVMMinPageSize,
double PDEAndMetaPTEBytesPerFrame,
double MetaRowBytes,
double DPTEBytesPerRow,
double BandwidthAvailableForImmediateFlip,
unsigned int TotImmediateFlipBytes,
enum source_format_class SourcePixelFormat,
double LineTime,
double VRatio,
double VRatioChroma,
double Tno_bw,
bool DCCEnable,
unsigned int dpte_row_height,
unsigned int meta_row_height,
unsigned int dpte_row_height_chroma,
unsigned int meta_row_height_chroma,
bool use_one_row_for_frame_flip,
double *DestinationLinesToRequestVMInImmediateFlip,
double *DestinationLinesToRequestRowInImmediateFlip,
double *final_flip_bw,
bool *ImmediateFlipSupportedForPipe)
{
double min_row_time = 0.0;
unsigned int HostVMDynamicLevelsTrips;
double TimeForFetchingMetaPTEImmediateFlip;
double TimeForFetchingRowInVBlankImmediateFlip;
double ImmediateFlipBW = 1.0;
if (GPUVMEnable == true && HostVMEnable == true)
HostVMDynamicLevelsTrips = HostVMMaxNonCachedPageTableLevels;
else
HostVMDynamicLevelsTrips = 0;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: TotImmediateFlipBytes = %d\n", __func__, TotImmediateFlipBytes);
dml_print("DML::%s: BandwidthAvailableForImmediateFlip = %f\n", __func__, BandwidthAvailableForImmediateFlip);
#endif
if (TotImmediateFlipBytes > 0) {
if (use_one_row_for_frame_flip) {
ImmediateFlipBW = (PDEAndMetaPTEBytesPerFrame + MetaRowBytes + 2 * DPTEBytesPerRow) *
BandwidthAvailableForImmediateFlip / TotImmediateFlipBytes;
} else {
ImmediateFlipBW = (PDEAndMetaPTEBytesPerFrame + MetaRowBytes + DPTEBytesPerRow) *
BandwidthAvailableForImmediateFlip / TotImmediateFlipBytes;
}
if (GPUVMEnable == true) {
TimeForFetchingMetaPTEImmediateFlip = dml_max3(Tno_bw + PDEAndMetaPTEBytesPerFrame *
HostVMInefficiencyFactor / ImmediateFlipBW,
UrgentExtraLatency + UrgentLatency *
(GPUVMMaxPageTableLevels * (HostVMDynamicLevelsTrips + 1) - 1),
LineTime / 4.0);
} else {
TimeForFetchingMetaPTEImmediateFlip = 0;
}
if ((GPUVMEnable == true || DCCEnable == true)) {
TimeForFetchingRowInVBlankImmediateFlip = dml_max3(
(MetaRowBytes + DPTEBytesPerRow * HostVMInefficiencyFactor) / ImmediateFlipBW,
UrgentLatency * (HostVMDynamicLevelsTrips + 1), LineTime / 4.0);
} else {
TimeForFetchingRowInVBlankImmediateFlip = 0;
}
*DestinationLinesToRequestVMInImmediateFlip =
dml_ceil(4.0 * (TimeForFetchingMetaPTEImmediateFlip / LineTime), 1.0) / 4.0;
*DestinationLinesToRequestRowInImmediateFlip =
dml_ceil(4.0 * (TimeForFetchingRowInVBlankImmediateFlip / LineTime), 1.0) / 4.0;
if (GPUVMEnable == true) {
*final_flip_bw = dml_max(PDEAndMetaPTEBytesPerFrame * HostVMInefficiencyFactor /
(*DestinationLinesToRequestVMInImmediateFlip * LineTime),
(MetaRowBytes + DPTEBytesPerRow * HostVMInefficiencyFactor) /
(*DestinationLinesToRequestRowInImmediateFlip * LineTime));
} else if ((GPUVMEnable == true || DCCEnable == true)) {
*final_flip_bw = (MetaRowBytes + DPTEBytesPerRow * HostVMInefficiencyFactor) /
(*DestinationLinesToRequestRowInImmediateFlip * LineTime);
} else {
*final_flip_bw = 0;
}
} else {
TimeForFetchingMetaPTEImmediateFlip = 0;
TimeForFetchingRowInVBlankImmediateFlip = 0;
*DestinationLinesToRequestVMInImmediateFlip = 0;
*DestinationLinesToRequestRowInImmediateFlip = 0;
*final_flip_bw = 0;
}
if (SourcePixelFormat == dm_420_8 || SourcePixelFormat == dm_420_10 || SourcePixelFormat == dm_rgbe_alpha) {
if (GPUVMEnable == true && DCCEnable != true) {
min_row_time = dml_min(dpte_row_height *
LineTime / VRatio, dpte_row_height_chroma * LineTime / VRatioChroma);
} else if (GPUVMEnable != true && DCCEnable == true) {
min_row_time = dml_min(meta_row_height *
LineTime / VRatio, meta_row_height_chroma * LineTime / VRatioChroma);
} else {
min_row_time = dml_min4(dpte_row_height * LineTime / VRatio, meta_row_height *
LineTime / VRatio, dpte_row_height_chroma * LineTime /
VRatioChroma, meta_row_height_chroma * LineTime / VRatioChroma);
}
} else {
if (GPUVMEnable == true && DCCEnable != true) {
min_row_time = dpte_row_height * LineTime / VRatio;
} else if (GPUVMEnable != true && DCCEnable == true) {
min_row_time = meta_row_height * LineTime / VRatio;
} else {
min_row_time =
dml_min(dpte_row_height * LineTime / VRatio, meta_row_height * LineTime / VRatio);
}
}
if (*DestinationLinesToRequestVMInImmediateFlip >= 32 || *DestinationLinesToRequestRowInImmediateFlip >= 16
|| TimeForFetchingMetaPTEImmediateFlip + 2 * TimeForFetchingRowInVBlankImmediateFlip
> min_row_time) {
*ImmediateFlipSupportedForPipe = false;
} else {
*ImmediateFlipSupportedForPipe = true;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: GPUVMEnable = %d\n", __func__, GPUVMEnable);
dml_print("DML::%s: DCCEnable = %d\n", __func__, DCCEnable);
dml_print("DML::%s: DestinationLinesToRequestVMInImmediateFlip = %f\n",
__func__, *DestinationLinesToRequestVMInImmediateFlip);
dml_print("DML::%s: DestinationLinesToRequestRowInImmediateFlip = %f\n",
__func__, *DestinationLinesToRequestRowInImmediateFlip);
dml_print("DML::%s: TimeForFetchingMetaPTEImmediateFlip = %f\n", __func__, TimeForFetchingMetaPTEImmediateFlip);
dml_print("DML::%s: TimeForFetchingRowInVBlankImmediateFlip = %f\n",
__func__, TimeForFetchingRowInVBlankImmediateFlip);
dml_print("DML::%s: min_row_time = %f\n", __func__, min_row_time);
dml_print("DML::%s: ImmediateFlipSupportedForPipe = %d\n", __func__, *ImmediateFlipSupportedForPipe);
#endif
}
void dml32_CalculateWatermarksMALLUseAndDRAMSpeedChangeSupport(
struct vba_vars_st *v,
unsigned int PrefetchMode,
double DCFCLK,
double ReturnBW,
SOCParametersList mmSOCParameters,
double SOCCLK,
double DCFClkDeepSleep,
unsigned int DETBufferSizeY[],
unsigned int DETBufferSizeC[],
unsigned int SwathHeightY[],
unsigned int SwathHeightC[],
double SwathWidthY[],
double SwathWidthC[],
unsigned int DPPPerSurface[],
double BytePerPixelDETY[],
double BytePerPixelDETC[],
double DSTXAfterScaler[],
double DSTYAfterScaler[],
bool UnboundedRequestEnabled,
unsigned int CompressedBufferSizeInkByte,
enum clock_change_support *DRAMClockChangeSupport,
double MaxActiveDRAMClockChangeLatencySupported[],
unsigned int SubViewportLinesNeededInMALL[],
enum dm_fclock_change_support *FCLKChangeSupport,
double *MinActiveFCLKChangeLatencySupported,
bool *USRRetrainingSupport,
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];
v->Watermark.UrgentWatermark = mmSOCParameters.UrgentLatency + mmSOCParameters.ExtraLatency;
v->Watermark.USRRetrainingWatermark = mmSOCParameters.UrgentLatency + mmSOCParameters.ExtraLatency
+ mmSOCParameters.USRRetrainingLatency + mmSOCParameters.SMNLatency;
v->Watermark.DRAMClockChangeWatermark = mmSOCParameters.DRAMClockChangeLatency + v->Watermark.UrgentWatermark;
v->Watermark.FCLKChangeWatermark = mmSOCParameters.FCLKChangeLatency + v->Watermark.UrgentWatermark;
v->Watermark.StutterExitWatermark = mmSOCParameters.SRExitTime + mmSOCParameters.ExtraLatency
+ 10 / DCFClkDeepSleep;
v->Watermark.StutterEnterPlusExitWatermark = mmSOCParameters.SREnterPlusExitTime + mmSOCParameters.ExtraLatency
+ 10 / DCFClkDeepSleep;
v->Watermark.Z8StutterExitWatermark = mmSOCParameters.SRExitZ8Time + mmSOCParameters.ExtraLatency
+ 10 / DCFClkDeepSleep;
v->Watermark.Z8StutterEnterPlusExitWatermark = mmSOCParameters.SREnterPlusExitZ8Time
+ mmSOCParameters.ExtraLatency + 10 / DCFClkDeepSleep;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: UrgentLatency = %f\n", __func__, mmSOCParameters.UrgentLatency);
dml_print("DML::%s: ExtraLatency = %f\n", __func__, mmSOCParameters.ExtraLatency);
dml_print("DML::%s: DRAMClockChangeLatency = %f\n", __func__, mmSOCParameters.DRAMClockChangeLatency);
dml_print("DML::%s: UrgentWatermark = %f\n", __func__, v->Watermark.UrgentWatermark);
dml_print("DML::%s: USRRetrainingWatermark = %f\n", __func__, v->Watermark.USRRetrainingWatermark);
dml_print("DML::%s: DRAMClockChangeWatermark = %f\n", __func__, v->Watermark.DRAMClockChangeWatermark);
dml_print("DML::%s: FCLKChangeWatermark = %f\n", __func__, v->Watermark.FCLKChangeWatermark);
dml_print("DML::%s: StutterExitWatermark = %f\n", __func__, v->Watermark.StutterExitWatermark);
dml_print("DML::%s: StutterEnterPlusExitWatermark = %f\n", __func__, v->Watermark.StutterEnterPlusExitWatermark);
dml_print("DML::%s: Z8StutterExitWatermark = %f\n", __func__, v->Watermark.Z8StutterExitWatermark);
dml_print("DML::%s: Z8StutterEnterPlusExitWatermark = %f\n",
__func__, v->Watermark.Z8StutterEnterPlusExitWatermark);
#endif
TotalActiveWriteback = 0;
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
if (v->WritebackEnable[k] == true)
TotalActiveWriteback = TotalActiveWriteback + 1;
}
if (TotalActiveWriteback <= 1) {
v->Watermark.WritebackUrgentWatermark = mmSOCParameters.WritebackLatency;
} else {
v->Watermark.WritebackUrgentWatermark = mmSOCParameters.WritebackLatency
+ v->WritebackChunkSize * 1024.0 / 32.0 / SOCCLK;
}
if (v->USRRetrainingRequiredFinal)
v->Watermark.WritebackDRAMClockChangeWatermark = v->Watermark.WritebackDRAMClockChangeWatermark
+ mmSOCParameters.USRRetrainingLatency;
if (TotalActiveWriteback <= 1) {
v->Watermark.WritebackDRAMClockChangeWatermark = mmSOCParameters.DRAMClockChangeLatency
+ mmSOCParameters.WritebackLatency;
v->Watermark.WritebackFCLKChangeWatermark = mmSOCParameters.FCLKChangeLatency
+ mmSOCParameters.WritebackLatency;
} else {
v->Watermark.WritebackDRAMClockChangeWatermark = mmSOCParameters.DRAMClockChangeLatency
+ mmSOCParameters.WritebackLatency + v->WritebackChunkSize * 1024.0 / 32.0 / SOCCLK;
v->Watermark.WritebackFCLKChangeWatermark = mmSOCParameters.FCLKChangeLatency
+ mmSOCParameters.WritebackLatency + v->WritebackChunkSize * 1024 / 32 / SOCCLK;
}
if (v->USRRetrainingRequiredFinal)
v->Watermark.WritebackDRAMClockChangeWatermark = v->Watermark.WritebackDRAMClockChangeWatermark
+ mmSOCParameters.USRRetrainingLatency;
if (v->USRRetrainingRequiredFinal)
v->Watermark.WritebackFCLKChangeWatermark = v->Watermark.WritebackFCLKChangeWatermark
+ mmSOCParameters.USRRetrainingLatency;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: WritebackDRAMClockChangeWatermark = %f\n",
__func__, v->Watermark.WritebackDRAMClockChangeWatermark);
dml_print("DML::%s: WritebackFCLKChangeWatermark = %f\n", __func__, v->Watermark.WritebackFCLKChangeWatermark);
dml_print("DML::%s: WritebackUrgentWatermark = %f\n", __func__, v->Watermark.WritebackUrgentWatermark);
dml_print("DML::%s: v->USRRetrainingRequiredFinal = %d\n", __func__, v->USRRetrainingRequiredFinal);
dml_print("DML::%s: USRRetrainingLatency = %f\n", __func__, mmSOCParameters.USRRetrainingLatency);
#endif
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
TotalPixelBW = TotalPixelBW + DPPPerSurface[k] * (SwathWidthY[k] * BytePerPixelDETY[k] * v->VRatio[k] +
SwathWidthC[k] * BytePerPixelDETC[k] * v->VRatioChroma[k]) / (v->HTotal[k] / v->PixelClock[k]);
}
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
LBLatencyHidingSourceLinesY[k] = dml_min((double) v->MaxLineBufferLines, dml_floor(v->LineBufferSizeFinal / v->LBBitPerPixel[k] / (SwathWidthY[k] / dml_max(v->HRatio[k], 1.0)), 1)) - (v->vtaps[k] - 1);
LBLatencyHidingSourceLinesC[k] = dml_min((double) v->MaxLineBufferLines, dml_floor(v->LineBufferSizeFinal / v->LBBitPerPixel[k] / (SwathWidthC[k] / dml_max(v->HRatioChroma[k], 1.0)), 1)) - (v->VTAPsChroma[k] - 1);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, v->MaxLineBufferLines = %d\n", __func__, k, v->MaxLineBufferLines);
dml_print("DML::%s: k=%d, v->LineBufferSizeFinal = %d\n", __func__, k, v->LineBufferSizeFinal);
dml_print("DML::%s: k=%d, v->LBBitPerPixel = %d\n", __func__, k, v->LBBitPerPixel[k]);
dml_print("DML::%s: k=%d, v->HRatio = %f\n", __func__, k, v->HRatio[k]);
dml_print("DML::%s: k=%d, v->vtaps = %d\n", __func__, k, v->vtaps[k]);
#endif
EffectiveLBLatencyHidingY = LBLatencyHidingSourceLinesY[k] / v->VRatio[k] * (v->HTotal[k] / v->PixelClock[k]);
EffectiveLBLatencyHidingC = LBLatencyHidingSourceLinesC[k] / v->VRatioChroma[k] * (v->HTotal[k] / v->PixelClock[k]);
EffectiveDETBufferSizeY = DETBufferSizeY[k];
if (UnboundedRequestEnabled) {
EffectiveDETBufferSizeY = EffectiveDETBufferSizeY
+ CompressedBufferSizeInkByte * 1024
* (SwathWidthY[k] * BytePerPixelDETY[k] * v->VRatio[k])
/ (v->HTotal[k] / v->PixelClock[k]) / TotalPixelBW;
}
LinesInDETY[k] = (double) EffectiveDETBufferSizeY / BytePerPixelDETY[k] / SwathWidthY[k];
LinesInDETYRoundedDownToSwath[k] = dml_floor(LinesInDETY[k], SwathHeightY[k]);
FullDETBufferingTimeY = LinesInDETYRoundedDownToSwath[k] * (v->HTotal[k] / v->PixelClock[k]) / v->VRatio[k];
ActiveClockChangeLatencyHidingY = EffectiveLBLatencyHidingY + FullDETBufferingTimeY
- (DSTXAfterScaler[k] / v->HTotal[k] + DSTYAfterScaler[k]) * v->HTotal[k] / v->PixelClock[k];
if (v->NumberOfActiveSurfaces > 1) {
ActiveClockChangeLatencyHidingY = ActiveClockChangeLatencyHidingY
- (1.0 - 1.0 / v->NumberOfActiveSurfaces) * SwathHeightY[k] * v->HTotal[k]
/ v->PixelClock[k] / v->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] * (v->HTotal[k] / v->PixelClock[k])
/ v->VRatioChroma[k];
ActiveClockChangeLatencyHidingC = EffectiveLBLatencyHidingC + FullDETBufferingTimeC
- (DSTXAfterScaler[k] / v->HTotal[k] + DSTYAfterScaler[k]) * v->HTotal[k]
/ v->PixelClock[k];
if (v->NumberOfActiveSurfaces > 1) {
ActiveClockChangeLatencyHidingC = ActiveClockChangeLatencyHidingC
- (1 - 1 / v->NumberOfActiveSurfaces) * SwathHeightC[k] * v->HTotal[k]
/ v->PixelClock[k] / v->VRatioChroma[k];
}
ActiveClockChangeLatencyHiding = dml_min(ActiveClockChangeLatencyHidingY,
ActiveClockChangeLatencyHidingC);
} else {
ActiveClockChangeLatencyHiding = ActiveClockChangeLatencyHidingY;
}
ActiveDRAMClockChangeLatencyMargin[k] = ActiveClockChangeLatencyHiding - v->Watermark.UrgentWatermark
- v->Watermark.DRAMClockChangeWatermark;
ActiveFCLKChangeLatencyMargin[k] = ActiveClockChangeLatencyHiding - v->Watermark.UrgentWatermark
- v->Watermark.FCLKChangeWatermark;
USRRetrainingLatencyMargin[k] = ActiveClockChangeLatencyHiding - v->Watermark.USRRetrainingWatermark;
if (v->WritebackEnable[k]) {
WritebackLatencyHiding = v->WritebackInterfaceBufferSize * 1024
/ (v->WritebackDestinationWidth[k] * v->WritebackDestinationHeight[k]
/ (v->WritebackSourceHeight[k] * v->HTotal[k] / v->PixelClock[k]) * 4);
if (v->WritebackPixelFormat[k] == dm_444_64)
WritebackLatencyHiding = WritebackLatencyHiding / 2;
WritebackDRAMClockChangeLatencyMargin = WritebackLatencyHiding
- v->Watermark.WritebackDRAMClockChangeWatermark;
WritebackFCLKChangeLatencyMargin = WritebackLatencyHiding
- v->Watermark.WritebackFCLKChangeWatermark;
ActiveDRAMClockChangeLatencyMargin[k] = dml_min(ActiveDRAMClockChangeLatencyMargin[k],
WritebackFCLKChangeLatencyMargin);
ActiveFCLKChangeLatencyMargin[k] = dml_min(ActiveFCLKChangeLatencyMargin[k],
WritebackDRAMClockChangeLatencyMargin);
}
MaxActiveDRAMClockChangeLatencySupported[k] =
(v->UsesMALLForPStateChange[k] == dm_use_mall_pstate_change_phantom_pipe) ?
0 :
(ActiveDRAMClockChangeLatencyMargin[k]
+ mmSOCParameters.DRAMClockChangeLatency);
}
for (i = 0; i < v->NumberOfActiveSurfaces; ++i) {
for (j = 0; j < v->NumberOfActiveSurfaces; ++j) {
if (i == j ||
(v->BlendingAndTiming[i] == i && v->BlendingAndTiming[j] == i) ||
(v->BlendingAndTiming[j] == j && v->BlendingAndTiming[i] == j) ||
(v->BlendingAndTiming[i] == v->BlendingAndTiming[j] && v->BlendingAndTiming[i] != i) ||
(v->SynchronizeTimingsFinal && v->PixelClock[i] == v->PixelClock[j] &&
v->HTotal[i] == v->HTotal[j] && v->VTotal[i] == v->VTotal[j] &&
v->VActive[i] == v->VActive[j]) || (v->SynchronizeDRRDisplaysForUCLKPStateChangeFinal &&
(v->DRRDisplay[i] || v->DRRDisplay[j]))) {
SynchronizedSurfaces[i][j] = true;
} else {
SynchronizedSurfaces[i][j] = false;
}
}
}
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
if ((v->UsesMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) &&
(!FoundFirstSurfaceWithMinActiveFCLKChangeMargin ||
ActiveFCLKChangeLatencyMargin[k] < MinActiveFCLKChangeMargin)) {
FoundFirstSurfaceWithMinActiveFCLKChangeMargin = true;
MinActiveFCLKChangeMargin = ActiveFCLKChangeLatencyMargin[k];
SurfaceWithMinActiveFCLKChangeMargin = k;
}
}
*MinActiveFCLKChangeLatencySupported = MinActiveFCLKChangeMargin + mmSOCParameters.FCLKChangeLatency;
SameTimingForFCLKChange = true;
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
if (!SynchronizedSurfaces[k][SurfaceWithMinActiveFCLKChangeMargin]) {
if ((v->UsesMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) &&
(SameTimingForFCLKChange ||
ActiveFCLKChangeLatencyMargin[k] <
SecondMinActiveFCLKChangeMarginOneDisplayInVBLank)) {
SecondMinActiveFCLKChangeMarginOneDisplayInVBLank = ActiveFCLKChangeLatencyMargin[k];
}
SameTimingForFCLKChange = false;
}
}
if (MinActiveFCLKChangeMargin > 0) {
*FCLKChangeSupport = dm_fclock_change_vactive;
} else if ((SameTimingForFCLKChange || SecondMinActiveFCLKChangeMarginOneDisplayInVBLank > 0) &&
(PrefetchMode <= 1)) {
*FCLKChangeSupport = dm_fclock_change_vblank;
} else {
*FCLKChangeSupport = dm_fclock_change_unsupported;
}
*USRRetrainingSupport = true;
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
if ((v->UsesMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) &&
(USRRetrainingLatencyMargin[k] < 0)) {
*USRRetrainingSupport = false;
}
}
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
if (v->UsesMALLForPStateChange[k] != dm_use_mall_pstate_change_full_frame &&
v->UsesMALLForPStateChange[k] != dm_use_mall_pstate_change_sub_viewport &&
v->UsesMALLForPStateChange[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;
}
}
}
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
if (v->UsesMALLForPStateChange[k] == dm_use_mall_pstate_change_full_frame)
DRAMClockChangeMethod = 1;
else if (v->UsesMALLForPStateChange[k] == dm_use_mall_pstate_change_sub_viewport)
DRAMClockChangeMethod = 2;
}
if (DRAMClockChangeMethod == 0) {
if (DRAMClockChangeSupportNumber == 0)
*DRAMClockChangeSupport = dm_dram_clock_change_vactive;
else if (DRAMClockChangeSupportNumber == 1)
*DRAMClockChangeSupport = dm_dram_clock_change_vblank;
else
*DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
} else if (DRAMClockChangeMethod == 1) {
if (DRAMClockChangeSupportNumber == 0)
*DRAMClockChangeSupport = dm_dram_clock_change_vactive_w_mall_full_frame;
else if (DRAMClockChangeSupportNumber == 1)
*DRAMClockChangeSupport = dm_dram_clock_change_vblank_w_mall_full_frame;
else
*DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
} else {
if (DRAMClockChangeSupportNumber == 0)
*DRAMClockChangeSupport = dm_dram_clock_change_vactive_w_mall_sub_vp;
else if (DRAMClockChangeSupportNumber == 1)
*DRAMClockChangeSupport = dm_dram_clock_change_vblank_w_mall_sub_vp;
else
*DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
}
for (k = 0; k < v->NumberOfActiveSurfaces; ++k) {
unsigned int dst_y_pstate;
unsigned int src_y_pstate_l;
unsigned int src_y_pstate_c;
unsigned int src_y_ahead_l, src_y_ahead_c, sub_vp_lines_l, sub_vp_lines_c;
dst_y_pstate = dml_ceil((mmSOCParameters.DRAMClockChangeLatency + mmSOCParameters.UrgentLatency) / (v->HTotal[k] / v->PixelClock[k]), 1);
src_y_pstate_l = dml_ceil(dst_y_pstate * v->VRatio[k], SwathHeightY[k]);
src_y_ahead_l = dml_floor(DETBufferSizeY[k] / BytePerPixelDETY[k] / SwathWidthY[k], SwathHeightY[k]) + LBLatencyHidingSourceLinesY[k];
sub_vp_lines_l = src_y_pstate_l + src_y_ahead_l + v->meta_row_height[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, DETBufferSizeY = %d\n", __func__, k, DETBufferSizeY[k]);
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, 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);
dml_print("DML::%s: k=%d, v->meta_row_height = %d\n", __func__, k, v->meta_row_height[k]);
dml_print("DML::%s: k=%d, sub_vp_lines_l = %d\n", __func__, k, sub_vp_lines_l);
#endif
SubViewportLinesNeededInMALL[k] = sub_vp_lines_l;
if (BytePerPixelDETC[k] > 0) {
src_y_pstate_c = dml_ceil(dst_y_pstate * v->VRatioChroma[k], SwathHeightC[k]);
src_y_ahead_c = dml_floor(DETBufferSizeC[k] / BytePerPixelDETC[k] / SwathWidthC[k], SwathHeightC[k]) + LBLatencyHidingSourceLinesC[k];
sub_vp_lines_c = src_y_pstate_c + src_y_ahead_c + v->meta_row_height_chroma[k];
SubViewportLinesNeededInMALL[k] = dml_max(sub_vp_lines_l, sub_vp_lines_c);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d, src_y_pstate_c = %d\n", __func__, k, src_y_pstate_c);
dml_print("DML::%s: k=%d, src_y_ahead_c = %d\n", __func__, k, src_y_ahead_c);
dml_print("DML::%s: k=%d, v->meta_row_height_chroma = %d\n", __func__, k, v->meta_row_height_chroma[k]);
dml_print("DML::%s: k=%d, sub_vp_lines_c = %d\n", __func__, k, sub_vp_lines_c);
#endif
}
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DRAMClockChangeSupport = %d\n", __func__, *DRAMClockChangeSupport);
dml_print("DML::%s: FCLKChangeSupport = %d\n", __func__, *FCLKChangeSupport);
dml_print("DML::%s: MinActiveFCLKChangeLatencySupported = %f\n",
__func__, *MinActiveFCLKChangeLatencySupported);
dml_print("DML::%s: USRRetrainingSupport = %d\n", __func__, *USRRetrainingSupport);
#endif
}
double dml32_CalculateWriteBackDISPCLK(
enum source_format_class WritebackPixelFormat,
double PixelClock,
double WritebackHRatio,
double WritebackVRatio,
unsigned int WritebackHTaps,
unsigned int WritebackVTaps,
unsigned int WritebackSourceWidth,
unsigned int WritebackDestinationWidth,
unsigned int HTotal,
unsigned int WritebackLineBufferSize,
double DISPCLKDPPCLKVCOSpeed)
{
double DISPCLK_H, DISPCLK_V, DISPCLK_HB;
DISPCLK_H = PixelClock * dml_ceil(WritebackHTaps / 8.0, 1) / WritebackHRatio;
DISPCLK_V = PixelClock * (WritebackVTaps * dml_ceil(WritebackDestinationWidth / 6.0, 1) + 8.0) / HTotal;
DISPCLK_HB = PixelClock * WritebackVTaps * (WritebackDestinationWidth *
WritebackVTaps - WritebackLineBufferSize / 57.0) / 6.0 / WritebackSourceWidth;
return dml32_RoundToDFSGranularity(dml_max3(DISPCLK_H, DISPCLK_V, DISPCLK_HB), 1, DISPCLKDPPCLKVCOSpeed);
}
void dml32_CalculateMinAndMaxPrefetchMode(
enum dm_prefetch_modes AllowForPStateChangeOrStutterInVBlankFinal,
unsigned int *MinPrefetchMode,
unsigned int *MaxPrefetchMode)
{
if (AllowForPStateChangeOrStutterInVBlankFinal == dm_prefetch_support_none) {
*MinPrefetchMode = 3;
*MaxPrefetchMode = 3;
} else if (AllowForPStateChangeOrStutterInVBlankFinal == dm_prefetch_support_stutter) {
*MinPrefetchMode = 2;
*MaxPrefetchMode = 2;
} else if (AllowForPStateChangeOrStutterInVBlankFinal == dm_prefetch_support_fclk_and_stutter) {
*MinPrefetchMode = 1;
*MaxPrefetchMode = 1;
} else if (AllowForPStateChangeOrStutterInVBlankFinal == dm_prefetch_support_uclk_fclk_and_stutter) {
*MinPrefetchMode = 0;
*MaxPrefetchMode = 0;
} else if (AllowForPStateChangeOrStutterInVBlankFinal ==
dm_prefetch_support_uclk_fclk_and_stutter_if_possible) {
*MinPrefetchMode = 0;
*MaxPrefetchMode = 3;
} else {
*MinPrefetchMode = 0;
*MaxPrefetchMode = 3;
}
}
void dml32_CalculatePixelDeliveryTimes(
unsigned int NumberOfActiveSurfaces,
double VRatio[],
double VRatioChroma[],
double VRatioPrefetchY[],
double VRatioPrefetchC[],
unsigned int swath_width_luma_ub[],
unsigned int swath_width_chroma_ub[],
unsigned int DPPPerSurface[],
double HRatio[],
double HRatioChroma[],
double PixelClock[],
double PSCL_THROUGHPUT[],
double PSCL_THROUGHPUT_CHROMA[],
double Dppclk[],
unsigned int BytePerPixelC[],
enum dm_rotation_angle SourceRotation[],
unsigned int NumberOfCursors[],
unsigned int CursorWidth[][DC__NUM_CURSOR__MAX],
unsigned int CursorBPP[][DC__NUM_CURSOR__MAX],
unsigned int BlockWidth256BytesY[],
unsigned int BlockHeight256BytesY[],
unsigned int BlockWidth256BytesC[],
unsigned int BlockHeight256BytesC[],
double DisplayPipeLineDeliveryTimeLuma[],
double DisplayPipeLineDeliveryTimeChroma[],
double DisplayPipeLineDeliveryTimeLumaPrefetch[],
double DisplayPipeLineDeliveryTimeChromaPrefetch[],
double DisplayPipeRequestDeliveryTimeLuma[],
double DisplayPipeRequestDeliveryTimeChroma[],
double DisplayPipeRequestDeliveryTimeLumaPrefetch[],
double DisplayPipeRequestDeliveryTimeChromaPrefetch[],
double CursorRequestDeliveryTime[],
double CursorRequestDeliveryTimePrefetch[])
{
double req_per_swath_ub;
unsigned int k;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d : HRatio = %f\n", __func__, k, HRatio[k]);
dml_print("DML::%s: k=%d : VRatio = %f\n", __func__, k, VRatio[k]);
dml_print("DML::%s: k=%d : HRatioChroma = %f\n", __func__, k, HRatioChroma[k]);
dml_print("DML::%s: k=%d : VRatioChroma = %f\n", __func__, k, VRatioChroma[k]);
dml_print("DML::%s: k=%d : swath_width_luma_ub = %d\n", __func__, k, swath_width_luma_ub[k]);
dml_print("DML::%s: k=%d : swath_width_chroma_ub = %d\n", __func__, k, swath_width_chroma_ub[k]);
dml_print("DML::%s: k=%d : PSCL_THROUGHPUT = %f\n", __func__, k, PSCL_THROUGHPUT[k]);
dml_print("DML::%s: k=%d : PSCL_THROUGHPUT_CHROMA = %f\n", __func__, k, PSCL_THROUGHPUT_CHROMA[k]);
dml_print("DML::%s: k=%d : DPPPerSurface = %d\n", __func__, k, DPPPerSurface[k]);
dml_print("DML::%s: k=%d : PixelClock = %f\n", __func__, k, PixelClock[k]);
dml_print("DML::%s: k=%d : Dppclk = %f\n", __func__, k, Dppclk[k]);
#endif
if (VRatio[k] <= 1) {
DisplayPipeLineDeliveryTimeLuma[k] =
swath_width_luma_ub[k] * DPPPerSurface[k] / HRatio[k] / PixelClock[k];
} else {
DisplayPipeLineDeliveryTimeLuma[k] = swath_width_luma_ub[k] / PSCL_THROUGHPUT[k] / Dppclk[k];
}
if (BytePerPixelC[k] == 0) {
DisplayPipeLineDeliveryTimeChroma[k] = 0;
} else {
if (VRatioChroma[k] <= 1) {
DisplayPipeLineDeliveryTimeChroma[k] =
swath_width_chroma_ub[k] * DPPPerSurface[k] / HRatioChroma[k] / PixelClock[k];
} else {
DisplayPipeLineDeliveryTimeChroma[k] =
swath_width_chroma_ub[k] / PSCL_THROUGHPUT_CHROMA[k] / Dppclk[k];
}
}
if (VRatioPrefetchY[k] <= 1) {
DisplayPipeLineDeliveryTimeLumaPrefetch[k] =
swath_width_luma_ub[k] * DPPPerSurface[k] / HRatio[k] / PixelClock[k];
} else {
DisplayPipeLineDeliveryTimeLumaPrefetch[k] =
swath_width_luma_ub[k] / PSCL_THROUGHPUT[k] / Dppclk[k];
}
if (BytePerPixelC[k] == 0) {
DisplayPipeLineDeliveryTimeChromaPrefetch[k] = 0;
} else {
if (VRatioPrefetchC[k] <= 1) {
DisplayPipeLineDeliveryTimeChromaPrefetch[k] = swath_width_chroma_ub[k] *
DPPPerSurface[k] / HRatioChroma[k] / PixelClock[k];
} else {
DisplayPipeLineDeliveryTimeChromaPrefetch[k] =
swath_width_chroma_ub[k] / PSCL_THROUGHPUT_CHROMA[k] / Dppclk[k];
}
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d : DisplayPipeLineDeliveryTimeLuma = %f\n",
__func__, k, DisplayPipeLineDeliveryTimeLuma[k]);
dml_print("DML::%s: k=%d : DisplayPipeLineDeliveryTimeLumaPrefetch = %f\n",
__func__, k, DisplayPipeLineDeliveryTimeLumaPrefetch[k]);
dml_print("DML::%s: k=%d : DisplayPipeLineDeliveryTimeChroma = %f\n",
__func__, k, DisplayPipeLineDeliveryTimeChroma[k]);
dml_print("DML::%s: k=%d : DisplayPipeLineDeliveryTimeChromaPrefetch = %f\n",
__func__, k, DisplayPipeLineDeliveryTimeChromaPrefetch[k]);
#endif
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (!IsVertical(SourceRotation[k]))
req_per_swath_ub = swath_width_luma_ub[k] / BlockWidth256BytesY[k];
else
req_per_swath_ub = swath_width_luma_ub[k] / BlockHeight256BytesY[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d : req_per_swath_ub = %f (Luma)\n", __func__, k, req_per_swath_ub);
#endif
DisplayPipeRequestDeliveryTimeLuma[k] = DisplayPipeLineDeliveryTimeLuma[k] / req_per_swath_ub;
DisplayPipeRequestDeliveryTimeLumaPrefetch[k] =
DisplayPipeLineDeliveryTimeLumaPrefetch[k] / req_per_swath_ub;
if (BytePerPixelC[k] == 0) {
DisplayPipeRequestDeliveryTimeChroma[k] = 0;
DisplayPipeRequestDeliveryTimeChromaPrefetch[k] = 0;
} else {
if (!IsVertical(SourceRotation[k]))
req_per_swath_ub = swath_width_chroma_ub[k] / BlockWidth256BytesC[k];
else
req_per_swath_ub = swath_width_chroma_ub[k] / BlockHeight256BytesC[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d : req_per_swath_ub = %f (Chroma)\n", __func__, k, req_per_swath_ub);
#endif
DisplayPipeRequestDeliveryTimeChroma[k] =
DisplayPipeLineDeliveryTimeChroma[k] / req_per_swath_ub;
DisplayPipeRequestDeliveryTimeChromaPrefetch[k] =
DisplayPipeLineDeliveryTimeChromaPrefetch[k] / req_per_swath_ub;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d : DisplayPipeRequestDeliveryTimeLuma = %f\n",
__func__, k, DisplayPipeRequestDeliveryTimeLuma[k]);
dml_print("DML::%s: k=%d : DisplayPipeRequestDeliveryTimeLumaPrefetch = %f\n",
__func__, k, DisplayPipeRequestDeliveryTimeLumaPrefetch[k]);
dml_print("DML::%s: k=%d : DisplayPipeRequestDeliveryTimeChroma = %f\n",
__func__, k, DisplayPipeRequestDeliveryTimeChroma[k]);
dml_print("DML::%s: k=%d : DisplayPipeRequestDeliveryTimeChromaPrefetch = %f\n",
__func__, k, DisplayPipeRequestDeliveryTimeChromaPrefetch[k]);
#endif
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
unsigned int cursor_req_per_width;
cursor_req_per_width = dml_ceil((double) CursorWidth[k][0] * (double) CursorBPP[k][0] /
256.0 / 8.0, 1.0);
if (NumberOfCursors[k] > 0) {
if (VRatio[k] <= 1) {
CursorRequestDeliveryTime[k] = (double) CursorWidth[k][0] /
HRatio[k] / PixelClock[k] / cursor_req_per_width;
} else {
CursorRequestDeliveryTime[k] = (double) CursorWidth[k][0] /
PSCL_THROUGHPUT[k] / Dppclk[k] / cursor_req_per_width;
}
if (VRatioPrefetchY[k] <= 1) {
CursorRequestDeliveryTimePrefetch[k] = (double) CursorWidth[k][0] /
HRatio[k] / PixelClock[k] / cursor_req_per_width;
} else {
CursorRequestDeliveryTimePrefetch[k] = (double) CursorWidth[k][0] /
PSCL_THROUGHPUT[k] / Dppclk[k] / cursor_req_per_width;
}
} else {
CursorRequestDeliveryTime[k] = 0;
CursorRequestDeliveryTimePrefetch[k] = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%d : NumberOfCursors = %d\n",
__func__, k, NumberOfCursors[k]);
dml_print("DML::%s: k=%d : CursorRequestDeliveryTime = %f\n",
__func__, k, CursorRequestDeliveryTime[k]);
dml_print("DML::%s: k=%d : CursorRequestDeliveryTimePrefetch = %f\n",
__func__, k, CursorRequestDeliveryTimePrefetch[k]);
#endif
}
}
void dml32_CalculateMetaAndPTETimes(
bool use_one_row_for_frame[],
unsigned int NumberOfActiveSurfaces,
bool GPUVMEnable,
unsigned int MetaChunkSize,
unsigned int MinMetaChunkSizeBytes,
unsigned int HTotal[],
double VRatio[],
double VRatioChroma[],
double DestinationLinesToRequestRowInVBlank[],
double DestinationLinesToRequestRowInImmediateFlip[],
bool DCCEnable[],
double PixelClock[],
unsigned int BytePerPixelY[],
unsigned int BytePerPixelC[],
enum dm_rotation_angle SourceRotation[],
unsigned int dpte_row_height[],
unsigned int dpte_row_height_chroma[],
unsigned int meta_row_width[],
unsigned int meta_row_width_chroma[],
unsigned int meta_row_height[],
unsigned int meta_row_height_chroma[],
unsigned int meta_req_width[],
unsigned int meta_req_width_chroma[],
unsigned int meta_req_height[],
unsigned int meta_req_height_chroma[],
unsigned int dpte_group_bytes[],
unsigned int PTERequestSizeY[],
unsigned int PTERequestSizeC[],
unsigned int PixelPTEReqWidthY[],
unsigned int PixelPTEReqHeightY[],
unsigned int PixelPTEReqWidthC[],
unsigned int PixelPTEReqHeightC[],
unsigned int dpte_row_width_luma_ub[],
unsigned int dpte_row_width_chroma_ub[],
double DST_Y_PER_PTE_ROW_NOM_L[],
double DST_Y_PER_PTE_ROW_NOM_C[],
double DST_Y_PER_META_ROW_NOM_L[],
double DST_Y_PER_META_ROW_NOM_C[],
double TimePerMetaChunkNominal[],
double TimePerChromaMetaChunkNominal[],
double TimePerMetaChunkVBlank[],
double TimePerChromaMetaChunkVBlank[],
double TimePerMetaChunkFlip[],
double TimePerChromaMetaChunkFlip[],
double time_per_pte_group_nom_luma[],
double time_per_pte_group_vblank_luma[],
double time_per_pte_group_flip_luma[],
double time_per_pte_group_nom_chroma[],
double time_per_pte_group_vblank_chroma[],
double time_per_pte_group_flip_chroma[])
{
unsigned int meta_chunk_width;
unsigned int min_meta_chunk_width;
unsigned int meta_chunk_per_row_int;
unsigned int meta_row_remainder;
unsigned int meta_chunk_threshold;
unsigned int meta_chunks_per_row_ub;
unsigned int meta_chunk_width_chroma;
unsigned int min_meta_chunk_width_chroma;
unsigned int meta_chunk_per_row_int_chroma;
unsigned int meta_row_remainder_chroma;
unsigned int meta_chunk_threshold_chroma;
unsigned int meta_chunks_per_row_ub_chroma;
unsigned int dpte_group_width_luma;
unsigned int dpte_groups_per_row_luma_ub;
unsigned int dpte_group_width_chroma;
unsigned int dpte_groups_per_row_chroma_ub;
unsigned int k;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
DST_Y_PER_PTE_ROW_NOM_L[k] = dpte_row_height[k] / VRatio[k];
if (BytePerPixelC[k] == 0)
DST_Y_PER_PTE_ROW_NOM_C[k] = 0;
else
DST_Y_PER_PTE_ROW_NOM_C[k] = dpte_row_height_chroma[k] / VRatioChroma[k];
DST_Y_PER_META_ROW_NOM_L[k] = meta_row_height[k] / VRatio[k];
if (BytePerPixelC[k] == 0)
DST_Y_PER_META_ROW_NOM_C[k] = 0;
else
DST_Y_PER_META_ROW_NOM_C[k] = meta_row_height_chroma[k] / VRatioChroma[k];
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (DCCEnable[k] == true) {
meta_chunk_width = MetaChunkSize * 1024 * 256 / BytePerPixelY[k] / meta_row_height[k];
min_meta_chunk_width = MinMetaChunkSizeBytes * 256 / BytePerPixelY[k] / meta_row_height[k];
meta_chunk_per_row_int = meta_row_width[k] / meta_chunk_width;
meta_row_remainder = meta_row_width[k] % meta_chunk_width;
if (!IsVertical(SourceRotation[k]))
meta_chunk_threshold = 2 * min_meta_chunk_width - meta_req_width[k];
else
meta_chunk_threshold = 2 * min_meta_chunk_width - meta_req_height[k];
if (meta_row_remainder <= meta_chunk_threshold)
meta_chunks_per_row_ub = meta_chunk_per_row_int + 1;
else
meta_chunks_per_row_ub = meta_chunk_per_row_int + 2;
TimePerMetaChunkNominal[k] = meta_row_height[k] / VRatio[k] *
HTotal[k] / PixelClock[k] / meta_chunks_per_row_ub;
TimePerMetaChunkVBlank[k] = DestinationLinesToRequestRowInVBlank[k] *
HTotal[k] / PixelClock[k] / meta_chunks_per_row_ub;
TimePerMetaChunkFlip[k] = DestinationLinesToRequestRowInImmediateFlip[k] *
HTotal[k] / PixelClock[k] / meta_chunks_per_row_ub;
if (BytePerPixelC[k] == 0) {
TimePerChromaMetaChunkNominal[k] = 0;
TimePerChromaMetaChunkVBlank[k] = 0;
TimePerChromaMetaChunkFlip[k] = 0;
} else {
meta_chunk_width_chroma = MetaChunkSize * 1024 * 256 / BytePerPixelC[k] /
meta_row_height_chroma[k];
min_meta_chunk_width_chroma = MinMetaChunkSizeBytes * 256 / BytePerPixelC[k] /
meta_row_height_chroma[k];
meta_chunk_per_row_int_chroma = (double) meta_row_width_chroma[k] /
meta_chunk_width_chroma;
meta_row_remainder_chroma = meta_row_width_chroma[k] % meta_chunk_width_chroma;
if (!IsVertical(SourceRotation[k])) {
meta_chunk_threshold_chroma = 2 * min_meta_chunk_width_chroma -
meta_req_width_chroma[k];
} else {
meta_chunk_threshold_chroma = 2 * min_meta_chunk_width_chroma -
meta_req_height_chroma[k];
}
if (meta_row_remainder_chroma <= meta_chunk_threshold_chroma)
meta_chunks_per_row_ub_chroma = meta_chunk_per_row_int_chroma + 1;
else
meta_chunks_per_row_ub_chroma = meta_chunk_per_row_int_chroma + 2;
TimePerChromaMetaChunkNominal[k] = meta_row_height_chroma[k] / VRatioChroma[k] *
HTotal[k] / PixelClock[k] / meta_chunks_per_row_ub_chroma;
TimePerChromaMetaChunkVBlank[k] = DestinationLinesToRequestRowInVBlank[k] *
HTotal[k] / PixelClock[k] / meta_chunks_per_row_ub_chroma;
TimePerChromaMetaChunkFlip[k] = DestinationLinesToRequestRowInImmediateFlip[k] *
HTotal[k] / PixelClock[k] / meta_chunks_per_row_ub_chroma;
}
} else {
TimePerMetaChunkNominal[k] = 0;
TimePerMetaChunkVBlank[k] = 0;
TimePerMetaChunkFlip[k] = 0;
TimePerChromaMetaChunkNominal[k] = 0;
TimePerChromaMetaChunkVBlank[k] = 0;
TimePerChromaMetaChunkFlip[k] = 0;
}
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (GPUVMEnable == true) {
if (!IsVertical(SourceRotation[k])) {
dpte_group_width_luma = (double) dpte_group_bytes[k] /
(double) PTERequestSizeY[k] * PixelPTEReqWidthY[k];
} else {
dpte_group_width_luma = (double) dpte_group_bytes[k] /
(double) PTERequestSizeY[k] * PixelPTEReqHeightY[k];
}
if (use_one_row_for_frame[k]) {
dpte_groups_per_row_luma_ub = dml_ceil((double) dpte_row_width_luma_ub[k] /
(double) dpte_group_width_luma / 2.0, 1.0);
} else {
dpte_groups_per_row_luma_ub = dml_ceil((double) dpte_row_width_luma_ub[k] /
(double) dpte_group_width_luma, 1.0);
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, use_one_row_for_frame = %d\n",
__func__, k, use_one_row_for_frame[k]);
dml_print("DML::%s: k=%0d, dpte_group_bytes = %d\n",
__func__, k, dpte_group_bytes[k]);
dml_print("DML::%s: k=%0d, PTERequestSizeY = %d\n",
__func__, k, PTERequestSizeY[k]);
dml_print("DML::%s: k=%0d, PixelPTEReqWidthY = %d\n",
__func__, k, PixelPTEReqWidthY[k]);
dml_print("DML::%s: k=%0d, PixelPTEReqHeightY = %d\n",
__func__, k, PixelPTEReqHeightY[k]);
dml_print("DML::%s: k=%0d, dpte_row_width_luma_ub = %d\n",
__func__, k, dpte_row_width_luma_ub[k]);
dml_print("DML::%s: k=%0d, dpte_group_width_luma = %d\n",
__func__, k, dpte_group_width_luma);
dml_print("DML::%s: k=%0d, dpte_groups_per_row_luma_ub = %d\n",
__func__, k, dpte_groups_per_row_luma_ub);
#endif
time_per_pte_group_nom_luma[k] = DST_Y_PER_PTE_ROW_NOM_L[k] *
HTotal[k] / PixelClock[k] / dpte_groups_per_row_luma_ub;
time_per_pte_group_vblank_luma[k] = DestinationLinesToRequestRowInVBlank[k] *
HTotal[k] / PixelClock[k] / dpte_groups_per_row_luma_ub;
time_per_pte_group_flip_luma[k] = DestinationLinesToRequestRowInImmediateFlip[k] *
HTotal[k] / PixelClock[k] / dpte_groups_per_row_luma_ub;
if (BytePerPixelC[k] == 0) {
time_per_pte_group_nom_chroma[k] = 0;
time_per_pte_group_vblank_chroma[k] = 0;
time_per_pte_group_flip_chroma[k] = 0;
} else {
if (!IsVertical(SourceRotation[k])) {
dpte_group_width_chroma = (double) dpte_group_bytes[k] /
(double) PTERequestSizeC[k] * PixelPTEReqWidthC[k];
} else {
dpte_group_width_chroma = (double) dpte_group_bytes[k] /
(double) PTERequestSizeC[k] * PixelPTEReqHeightC[k];
}
if (use_one_row_for_frame[k]) {
dpte_groups_per_row_chroma_ub = dml_ceil((double) dpte_row_width_chroma_ub[k] /
(double) dpte_group_width_chroma / 2.0, 1.0);
} else {
dpte_groups_per_row_chroma_ub = dml_ceil((double) dpte_row_width_chroma_ub[k] /
(double) dpte_group_width_chroma, 1.0);
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, dpte_row_width_chroma_ub = %d\n",
__func__, k, dpte_row_width_chroma_ub[k]);
dml_print("DML::%s: k=%0d, dpte_group_width_chroma = %d\n",
__func__, k, dpte_group_width_chroma);
dml_print("DML::%s: k=%0d, dpte_groups_per_row_chroma_ub = %d\n",
__func__, k, dpte_groups_per_row_chroma_ub);
#endif
time_per_pte_group_nom_chroma[k] = DST_Y_PER_PTE_ROW_NOM_C[k] *
HTotal[k] / PixelClock[k] / dpte_groups_per_row_chroma_ub;
time_per_pte_group_vblank_chroma[k] = DestinationLinesToRequestRowInVBlank[k] *
HTotal[k] / PixelClock[k] / dpte_groups_per_row_chroma_ub;
time_per_pte_group_flip_chroma[k] = DestinationLinesToRequestRowInImmediateFlip[k] *
HTotal[k] / PixelClock[k] / dpte_groups_per_row_chroma_ub;
}
} else {
time_per_pte_group_nom_luma[k] = 0;
time_per_pte_group_vblank_luma[k] = 0;
time_per_pte_group_flip_luma[k] = 0;
time_per_pte_group_nom_chroma[k] = 0;
time_per_pte_group_vblank_chroma[k] = 0;
time_per_pte_group_flip_chroma[k] = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, DestinationLinesToRequestRowInVBlank = %f\n",
__func__, k, DestinationLinesToRequestRowInVBlank[k]);
dml_print("DML::%s: k=%0d, DestinationLinesToRequestRowInImmediateFlip = %f\n",
__func__, k, DestinationLinesToRequestRowInImmediateFlip[k]);
dml_print("DML::%s: k=%0d, DST_Y_PER_PTE_ROW_NOM_L = %f\n",
__func__, k, DST_Y_PER_PTE_ROW_NOM_L[k]);
dml_print("DML::%s: k=%0d, DST_Y_PER_PTE_ROW_NOM_C = %f\n",
__func__, k, DST_Y_PER_PTE_ROW_NOM_C[k]);
dml_print("DML::%s: k=%0d, DST_Y_PER_META_ROW_NOM_L = %f\n",
__func__, k, DST_Y_PER_META_ROW_NOM_L[k]);
dml_print("DML::%s: k=%0d, DST_Y_PER_META_ROW_NOM_C = %f\n",
__func__, k, DST_Y_PER_META_ROW_NOM_C[k]);
dml_print("DML::%s: k=%0d, TimePerMetaChunkNominal = %f\n",
__func__, k, TimePerMetaChunkNominal[k]);
dml_print("DML::%s: k=%0d, TimePerMetaChunkVBlank = %f\n",
__func__, k, TimePerMetaChunkVBlank[k]);
dml_print("DML::%s: k=%0d, TimePerMetaChunkFlip = %f\n",
__func__, k, TimePerMetaChunkFlip[k]);
dml_print("DML::%s: k=%0d, TimePerChromaMetaChunkNominal = %f\n",
__func__, k, TimePerChromaMetaChunkNominal[k]);
dml_print("DML::%s: k=%0d, TimePerChromaMetaChunkVBlank = %f\n",
__func__, k, TimePerChromaMetaChunkVBlank[k]);
dml_print("DML::%s: k=%0d, TimePerChromaMetaChunkFlip = %f\n",
__func__, k, TimePerChromaMetaChunkFlip[k]);
dml_print("DML::%s: k=%0d, time_per_pte_group_nom_luma = %f\n",
__func__, k, time_per_pte_group_nom_luma[k]);
dml_print("DML::%s: k=%0d, time_per_pte_group_vblank_luma = %f\n",
__func__, k, time_per_pte_group_vblank_luma[k]);
dml_print("DML::%s: k=%0d, time_per_pte_group_flip_luma = %f\n",
__func__, k, time_per_pte_group_flip_luma[k]);
dml_print("DML::%s: k=%0d, time_per_pte_group_nom_chroma = %f\n",
__func__, k, time_per_pte_group_nom_chroma[k]);
dml_print("DML::%s: k=%0d, time_per_pte_group_vblank_chroma = %f\n",
__func__, k, time_per_pte_group_vblank_chroma[k]);
dml_print("DML::%s: k=%0d, time_per_pte_group_flip_chroma = %f\n",
__func__, k, time_per_pte_group_flip_chroma[k]);
#endif
}
}
void dml32_CalculateVMGroupAndRequestTimes(
unsigned int NumberOfActiveSurfaces,
bool GPUVMEnable,
unsigned int GPUVMMaxPageTableLevels,
unsigned int HTotal[],
unsigned int BytePerPixelC[],
double DestinationLinesToRequestVMInVBlank[],
double DestinationLinesToRequestVMInImmediateFlip[],
bool DCCEnable[],
double PixelClock[],
unsigned int dpte_row_width_luma_ub[],
unsigned int dpte_row_width_chroma_ub[],
unsigned int vm_group_bytes[],
unsigned int dpde0_bytes_per_frame_ub_l[],
unsigned int dpde0_bytes_per_frame_ub_c[],
unsigned int meta_pte_bytes_per_frame_ub_l[],
unsigned int meta_pte_bytes_per_frame_ub_c[],
double TimePerVMGroupVBlank[],
double TimePerVMGroupFlip[],
double TimePerVMRequestVBlank[],
double TimePerVMRequestFlip[])
{
unsigned int k;
unsigned int num_group_per_lower_vm_stage;
unsigned int num_req_per_lower_vm_stage;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: NumberOfActiveSurfaces = %d\n", __func__, NumberOfActiveSurfaces);
dml_print("DML::%s: GPUVMEnable = %d\n", __func__, GPUVMEnable);
#endif
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, DCCEnable = %d\n", __func__, k, DCCEnable[k]);
dml_print("DML::%s: k=%0d, vm_group_bytes = %d\n", __func__, k, vm_group_bytes[k]);
dml_print("DML::%s: k=%0d, dpde0_bytes_per_frame_ub_l = %d\n",
__func__, k, dpde0_bytes_per_frame_ub_l[k]);
dml_print("DML::%s: k=%0d, dpde0_bytes_per_frame_ub_c = %d\n",
__func__, k, dpde0_bytes_per_frame_ub_c[k]);
dml_print("DML::%s: k=%0d, meta_pte_bytes_per_frame_ub_l = %d\n",
__func__, k, meta_pte_bytes_per_frame_ub_l[k]);
dml_print("DML::%s: k=%0d, meta_pte_bytes_per_frame_ub_c = %d\n",
__func__, k, meta_pte_bytes_per_frame_ub_c[k]);
#endif
if (GPUVMEnable == true && (DCCEnable[k] == true || GPUVMMaxPageTableLevels > 1)) {
if (DCCEnable[k] == false) {
if (BytePerPixelC[k] > 0) {
num_group_per_lower_vm_stage = dml_ceil(
(double) (dpde0_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1.0) +
dml_ceil((double) (dpde0_bytes_per_frame_ub_c[k]) /
(double) (vm_group_bytes[k]), 1.0);
} else {
num_group_per_lower_vm_stage = dml_ceil(
(double) (dpde0_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1.0);
}
} else {
if (GPUVMMaxPageTableLevels == 1) {
if (BytePerPixelC[k] > 0) {
num_group_per_lower_vm_stage = dml_ceil(
(double) (meta_pte_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1.0) +
dml_ceil((double) (meta_pte_bytes_per_frame_ub_c[k]) /
(double) (vm_group_bytes[k]), 1.0);
} else {
num_group_per_lower_vm_stage = dml_ceil(
(double) (meta_pte_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1.0);
}
} else {
if (BytePerPixelC[k] > 0) {
num_group_per_lower_vm_stage = 2 + dml_ceil(
(double) (dpde0_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1) +
dml_ceil((double) (dpde0_bytes_per_frame_ub_c[k]) /
(double) (vm_group_bytes[k]), 1) +
dml_ceil((double) (meta_pte_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1) +
dml_ceil((double) (meta_pte_bytes_per_frame_ub_c[k]) /
(double) (vm_group_bytes[k]), 1);
} else {
num_group_per_lower_vm_stage = 1 + dml_ceil(
(double) (dpde0_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1) + dml_ceil(
(double) (meta_pte_bytes_per_frame_ub_l[k]) /
(double) (vm_group_bytes[k]), 1);
}
}
}
if (DCCEnable[k] == false) {
if (BytePerPixelC[k] > 0) {
num_req_per_lower_vm_stage = dpde0_bytes_per_frame_ub_l[k] / 64 +
dpde0_bytes_per_frame_ub_c[k] / 64;
} else {
num_req_per_lower_vm_stage = dpde0_bytes_per_frame_ub_l[k] / 64;
}
} else {
if (GPUVMMaxPageTableLevels == 1) {
if (BytePerPixelC[k] > 0) {
num_req_per_lower_vm_stage = meta_pte_bytes_per_frame_ub_l[k] / 64 +
meta_pte_bytes_per_frame_ub_c[k] / 64;
} else {
num_req_per_lower_vm_stage = meta_pte_bytes_per_frame_ub_l[k] / 64;
}
} else {
if (BytePerPixelC[k] > 0) {
num_req_per_lower_vm_stage = dpde0_bytes_per_frame_ub_l[k] /
64 + dpde0_bytes_per_frame_ub_c[k] / 64 +
meta_pte_bytes_per_frame_ub_l[k] / 64 +
meta_pte_bytes_per_frame_ub_c[k] / 64;
} else {
num_req_per_lower_vm_stage = dpde0_bytes_per_frame_ub_l[k] /
64 + meta_pte_bytes_per_frame_ub_l[k] / 64;
}
}
}
TimePerVMGroupVBlank[k] = DestinationLinesToRequestVMInVBlank[k] *
HTotal[k] / PixelClock[k] / num_group_per_lower_vm_stage;
TimePerVMGroupFlip[k] = DestinationLinesToRequestVMInImmediateFlip[k] *
HTotal[k] / PixelClock[k] / num_group_per_lower_vm_stage;
TimePerVMRequestVBlank[k] = DestinationLinesToRequestVMInVBlank[k] *
HTotal[k] / PixelClock[k] / num_req_per_lower_vm_stage;
TimePerVMRequestFlip[k] = DestinationLinesToRequestVMInImmediateFlip[k] *
HTotal[k] / PixelClock[k] / num_req_per_lower_vm_stage;
if (GPUVMMaxPageTableLevels > 2) {
TimePerVMGroupVBlank[k] = TimePerVMGroupVBlank[k] / 2;
TimePerVMGroupFlip[k] = TimePerVMGroupFlip[k] / 2;
TimePerVMRequestVBlank[k] = TimePerVMRequestVBlank[k] / 2;
TimePerVMRequestFlip[k] = TimePerVMRequestFlip[k] / 2;
}
} else {
TimePerVMGroupVBlank[k] = 0;
TimePerVMGroupFlip[k] = 0;
TimePerVMRequestVBlank[k] = 0;
TimePerVMRequestFlip[k] = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, TimePerVMGroupVBlank = %f\n", __func__, k, TimePerVMGroupVBlank[k]);
dml_print("DML::%s: k=%0d, TimePerVMGroupFlip = %f\n", __func__, k, TimePerVMGroupFlip[k]);
dml_print("DML::%s: k=%0d, TimePerVMRequestVBlank = %f\n", __func__, k, TimePerVMRequestVBlank[k]);
dml_print("DML::%s: k=%0d, TimePerVMRequestFlip = %f\n", __func__, k, TimePerVMRequestFlip[k]);
#endif
}
}
void dml32_CalculateDCCConfiguration(
bool DCCEnabled,
bool DCCProgrammingAssumesScanDirectionUnknown,
enum source_format_class SourcePixelFormat,
unsigned int SurfaceWidthLuma,
unsigned int SurfaceWidthChroma,
unsigned int SurfaceHeightLuma,
unsigned int SurfaceHeightChroma,
unsigned int nomDETInKByte,
unsigned int RequestHeight256ByteLuma,
unsigned int RequestHeight256ByteChroma,
enum dm_swizzle_mode TilingFormat,
unsigned int BytePerPixelY,
unsigned int BytePerPixelC,
double BytePerPixelDETY,
double BytePerPixelDETC,
enum dm_rotation_angle SourceRotation,
unsigned int *MaxUncompressedBlockLuma,
unsigned int *MaxUncompressedBlockChroma,
unsigned int *MaxCompressedBlockLuma,
unsigned int *MaxCompressedBlockChroma,
unsigned int *IndependentBlockLuma,
unsigned int *IndependentBlockChroma)
{
typedef enum {
REQ_256Bytes,
REQ_128BytesNonContiguous,
REQ_128BytesContiguous,
REQ_NA
} RequestType;
RequestType RequestLuma;
RequestType RequestChroma;
unsigned int segment_order_horz_contiguous_luma;
unsigned int segment_order_horz_contiguous_chroma;
unsigned int segment_order_vert_contiguous_luma;
unsigned int segment_order_vert_contiguous_chroma;
unsigned int req128_horz_wc_l;
unsigned int req128_horz_wc_c;
unsigned int req128_vert_wc_l;
unsigned int req128_vert_wc_c;
unsigned int MAS_vp_horz_limit;
unsigned int MAS_vp_vert_limit;
unsigned int max_vp_horz_width;
unsigned int max_vp_vert_height;
unsigned int eff_surf_width_l;
unsigned int eff_surf_width_c;
unsigned int eff_surf_height_l;
unsigned int eff_surf_height_c;
unsigned int full_swath_bytes_horz_wc_l;
unsigned int full_swath_bytes_horz_wc_c;
unsigned int full_swath_bytes_vert_wc_l;
unsigned int full_swath_bytes_vert_wc_c;
unsigned int DETBufferSizeForDCC = nomDETInKByte * 1024;
unsigned int yuv420;
unsigned int horz_div_l;
unsigned int horz_div_c;
unsigned int vert_div_l;
unsigned int vert_div_c;
unsigned int swath_buf_size;
double detile_buf_vp_horz_limit;
double detile_buf_vp_vert_limit;
yuv420 = ((SourcePixelFormat == dm_420_8 || SourcePixelFormat == dm_420_10 ||
SourcePixelFormat == dm_420_12) ? 1 : 0);
horz_div_l = 1;
horz_div_c = 1;
vert_div_l = 1;
vert_div_c = 1;
if (BytePerPixelY == 1)
vert_div_l = 0;
if (BytePerPixelC == 1)
vert_div_c = 0;
if (BytePerPixelC == 0) {
swath_buf_size = DETBufferSizeForDCC / 2 - 2 * 256;
detile_buf_vp_horz_limit = (double) swath_buf_size / ((double) RequestHeight256ByteLuma *
BytePerPixelY / (1 + horz_div_l));
detile_buf_vp_vert_limit = (double) swath_buf_size / (256.0 / RequestHeight256ByteLuma /
(1 + vert_div_l));
} else {
swath_buf_size = DETBufferSizeForDCC / 2 - 2 * 2 * 256;
detile_buf_vp_horz_limit = (double) swath_buf_size / ((double) RequestHeight256ByteLuma *
BytePerPixelY / (1 + horz_div_l) + (double) RequestHeight256ByteChroma *
BytePerPixelC / (1 + horz_div_c) / (1 + yuv420));
detile_buf_vp_vert_limit = (double) swath_buf_size / (256.0 / RequestHeight256ByteLuma /
(1 + vert_div_l) + 256.0 / RequestHeight256ByteChroma /
(1 + vert_div_c) / (1 + yuv420));
}
if (SourcePixelFormat == dm_420_10) {
detile_buf_vp_horz_limit = 1.5 * detile_buf_vp_horz_limit;
detile_buf_vp_vert_limit = 1.5 * detile_buf_vp_vert_limit;
}
detile_buf_vp_horz_limit = dml_floor(detile_buf_vp_horz_limit - 1, 16);
detile_buf_vp_vert_limit = dml_floor(detile_buf_vp_vert_limit - 1, 16);
MAS_vp_horz_limit = SourcePixelFormat == dm_rgbe_alpha ? 3840 : 6144;
MAS_vp_vert_limit = SourcePixelFormat == dm_rgbe_alpha ? 3840 : (BytePerPixelY == 8 ? 3072 : 6144);
max_vp_horz_width = dml_min((double) MAS_vp_horz_limit, detile_buf_vp_horz_limit);
max_vp_vert_height = dml_min((double) MAS_vp_vert_limit, detile_buf_vp_vert_limit);
eff_surf_width_l = (SurfaceWidthLuma > max_vp_horz_width ? max_vp_horz_width : SurfaceWidthLuma);
eff_surf_width_c = eff_surf_width_l / (1 + yuv420);
eff_surf_height_l = (SurfaceHeightLuma > max_vp_vert_height ? max_vp_vert_height : SurfaceHeightLuma);
eff_surf_height_c = eff_surf_height_l / (1 + yuv420);
full_swath_bytes_horz_wc_l = eff_surf_width_l * RequestHeight256ByteLuma * BytePerPixelY;
full_swath_bytes_vert_wc_l = eff_surf_height_l * 256 / RequestHeight256ByteLuma;
if (BytePerPixelC > 0) {
full_swath_bytes_horz_wc_c = eff_surf_width_c * RequestHeight256ByteChroma * BytePerPixelC;
full_swath_bytes_vert_wc_c = eff_surf_height_c * 256 / RequestHeight256ByteChroma;
} else {
full_swath_bytes_horz_wc_c = 0;
full_swath_bytes_vert_wc_c = 0;
}
if (SourcePixelFormat == dm_420_10) {
full_swath_bytes_horz_wc_l = dml_ceil((double) full_swath_bytes_horz_wc_l * 2.0 / 3.0, 256.0);
full_swath_bytes_horz_wc_c = dml_ceil((double) full_swath_bytes_horz_wc_c * 2.0 / 3.0, 256.0);
full_swath_bytes_vert_wc_l = dml_ceil((double) full_swath_bytes_vert_wc_l * 2.0 / 3.0, 256.0);
full_swath_bytes_vert_wc_c = dml_ceil((double) full_swath_bytes_vert_wc_c * 2.0 / 3.0, 256.0);
}
if (2 * full_swath_bytes_horz_wc_l + 2 * full_swath_bytes_horz_wc_c <= DETBufferSizeForDCC) {
req128_horz_wc_l = 0;
req128_horz_wc_c = 0;
} else if (full_swath_bytes_horz_wc_l < 1.5 * full_swath_bytes_horz_wc_c && 2 * full_swath_bytes_horz_wc_l +
full_swath_bytes_horz_wc_c <= DETBufferSizeForDCC) {
req128_horz_wc_l = 0;
req128_horz_wc_c = 1;
} else if (full_swath_bytes_horz_wc_l >= 1.5 * full_swath_bytes_horz_wc_c && full_swath_bytes_horz_wc_l + 2 *
full_swath_bytes_horz_wc_c <= DETBufferSizeForDCC) {
req128_horz_wc_l = 1;
req128_horz_wc_c = 0;
} else {
req128_horz_wc_l = 1;
req128_horz_wc_c = 1;
}
if (2 * full_swath_bytes_vert_wc_l + 2 * full_swath_bytes_vert_wc_c <= DETBufferSizeForDCC) {
req128_vert_wc_l = 0;
req128_vert_wc_c = 0;
} else if (full_swath_bytes_vert_wc_l < 1.5 * full_swath_bytes_vert_wc_c && 2 *
full_swath_bytes_vert_wc_l + full_swath_bytes_vert_wc_c <= DETBufferSizeForDCC) {
req128_vert_wc_l = 0;
req128_vert_wc_c = 1;
} else if (full_swath_bytes_vert_wc_l >= 1.5 * full_swath_bytes_vert_wc_c &&
full_swath_bytes_vert_wc_l + 2 * full_swath_bytes_vert_wc_c <= DETBufferSizeForDCC) {
req128_vert_wc_l = 1;
req128_vert_wc_c = 0;
} else {
req128_vert_wc_l = 1;
req128_vert_wc_c = 1;
}
if (BytePerPixelY == 2) {
segment_order_horz_contiguous_luma = 0;
segment_order_vert_contiguous_luma = 1;
} else {
segment_order_horz_contiguous_luma = 1;
segment_order_vert_contiguous_luma = 0;
}
if (BytePerPixelC == 2) {
segment_order_horz_contiguous_chroma = 0;
segment_order_vert_contiguous_chroma = 1;
} else {
segment_order_horz_contiguous_chroma = 1;
segment_order_vert_contiguous_chroma = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: DCCEnabled = %d\n", __func__, DCCEnabled);
dml_print("DML::%s: nomDETInKByte = %d\n", __func__, nomDETInKByte);
dml_print("DML::%s: DETBufferSizeForDCC = %d\n", __func__, DETBufferSizeForDCC);
dml_print("DML::%s: req128_horz_wc_l = %d\n", __func__, req128_horz_wc_l);
dml_print("DML::%s: req128_horz_wc_c = %d\n", __func__, req128_horz_wc_c);
dml_print("DML::%s: full_swath_bytes_horz_wc_l = %d\n", __func__, full_swath_bytes_horz_wc_l);
dml_print("DML::%s: full_swath_bytes_vert_wc_c = %d\n", __func__, full_swath_bytes_vert_wc_c);
dml_print("DML::%s: segment_order_horz_contiguous_luma = %d\n", __func__, segment_order_horz_contiguous_luma);
dml_print("DML::%s: segment_order_horz_contiguous_chroma = %d\n",
__func__, segment_order_horz_contiguous_chroma);
#endif
if (DCCProgrammingAssumesScanDirectionUnknown == true) {
if (req128_horz_wc_l == 0 && req128_vert_wc_l == 0)
RequestLuma = REQ_256Bytes;
else if ((req128_horz_wc_l == 1 && segment_order_horz_contiguous_luma == 0) ||
(req128_vert_wc_l == 1 && segment_order_vert_contiguous_luma == 0))
RequestLuma = REQ_128BytesNonContiguous;
else
RequestLuma = REQ_128BytesContiguous;
if (req128_horz_wc_c == 0 && req128_vert_wc_c == 0)
RequestChroma = REQ_256Bytes;
else if ((req128_horz_wc_c == 1 && segment_order_horz_contiguous_chroma == 0) ||
(req128_vert_wc_c == 1 && segment_order_vert_contiguous_chroma == 0))
RequestChroma = REQ_128BytesNonContiguous;
else
RequestChroma = REQ_128BytesContiguous;
} else if (!IsVertical(SourceRotation)) {
if (req128_horz_wc_l == 0)
RequestLuma = REQ_256Bytes;
else if (segment_order_horz_contiguous_luma == 0)
RequestLuma = REQ_128BytesNonContiguous;
else
RequestLuma = REQ_128BytesContiguous;
if (req128_horz_wc_c == 0)
RequestChroma = REQ_256Bytes;
else if (segment_order_horz_contiguous_chroma == 0)
RequestChroma = REQ_128BytesNonContiguous;
else
RequestChroma = REQ_128BytesContiguous;
} else {
if (req128_vert_wc_l == 0)
RequestLuma = REQ_256Bytes;
else if (segment_order_vert_contiguous_luma == 0)
RequestLuma = REQ_128BytesNonContiguous;
else
RequestLuma = REQ_128BytesContiguous;
if (req128_vert_wc_c == 0)
RequestChroma = REQ_256Bytes;
else if (segment_order_vert_contiguous_chroma == 0)
RequestChroma = REQ_128BytesNonContiguous;
else
RequestChroma = REQ_128BytesContiguous;
}
if (RequestLuma == REQ_256Bytes) {
*MaxUncompressedBlockLuma = 256;
*MaxCompressedBlockLuma = 256;
*IndependentBlockLuma = 0;
} else if (RequestLuma == REQ_128BytesContiguous) {
*MaxUncompressedBlockLuma = 256;
*MaxCompressedBlockLuma = 128;
*IndependentBlockLuma = 128;
} else {
*MaxUncompressedBlockLuma = 256;
*MaxCompressedBlockLuma = 64;
*IndependentBlockLuma = 64;
}
if (RequestChroma == REQ_256Bytes) {
*MaxUncompressedBlockChroma = 256;
*MaxCompressedBlockChroma = 256;
*IndependentBlockChroma = 0;
} else if (RequestChroma == REQ_128BytesContiguous) {
*MaxUncompressedBlockChroma = 256;
*MaxCompressedBlockChroma = 128;
*IndependentBlockChroma = 128;
} else {
*MaxUncompressedBlockChroma = 256;
*MaxCompressedBlockChroma = 64;
*IndependentBlockChroma = 64;
}
if (DCCEnabled != true || BytePerPixelC == 0) {
*MaxUncompressedBlockChroma = 0;
*MaxCompressedBlockChroma = 0;
*IndependentBlockChroma = 0;
}
if (DCCEnabled != true) {
*MaxUncompressedBlockLuma = 0;
*MaxCompressedBlockLuma = 0;
*IndependentBlockLuma = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MaxUncompressedBlockLuma = %d\n", __func__, *MaxUncompressedBlockLuma);
dml_print("DML::%s: MaxCompressedBlockLuma = %d\n", __func__, *MaxCompressedBlockLuma);
dml_print("DML::%s: IndependentBlockLuma = %d\n", __func__, *IndependentBlockLuma);
dml_print("DML::%s: MaxUncompressedBlockChroma = %d\n", __func__, *MaxUncompressedBlockChroma);
dml_print("DML::%s: MaxCompressedBlockChroma = %d\n", __func__, *MaxCompressedBlockChroma);
dml_print("DML::%s: IndependentBlockChroma = %d\n", __func__, *IndependentBlockChroma);
#endif
}
void dml32_CalculateStutterEfficiency(
unsigned int CompressedBufferSizeInkByte,
enum dm_use_mall_for_pstate_change_mode UseMALLForPStateChange[],
bool UnboundedRequestEnabled,
unsigned int MetaFIFOSizeInKEntries,
unsigned int ZeroSizeBufferEntries,
unsigned int PixelChunkSizeInKByte,
unsigned int NumberOfActiveSurfaces,
unsigned int ROBBufferSizeInKByte,
double TotalDataReadBandwidth,
double DCFCLK,
double ReturnBW,
unsigned int CompbufReservedSpace64B,
unsigned int CompbufReservedSpaceZs,
double SRExitTime,
double SRExitZ8Time,
bool SynchronizeTimingsFinal,
unsigned int BlendingAndTiming[],
double StutterEnterPlusExitWatermark,
double Z8StutterEnterPlusExitWatermark,
bool ProgressiveToInterlaceUnitInOPP,
bool Interlace[],
double MinTTUVBlank[],
unsigned int DPPPerSurface[],
unsigned int DETBufferSizeY[],
unsigned int BytePerPixelY[],
double BytePerPixelDETY[],
double SwathWidthY[],
unsigned int SwathHeightY[],
unsigned int SwathHeightC[],
double NetDCCRateLuma[],
double NetDCCRateChroma[],
double DCCFractionOfZeroSizeRequestsLuma[],
double DCCFractionOfZeroSizeRequestsChroma[],
unsigned int HTotal[],
unsigned int VTotal[],
double PixelClock[],
double VRatio[],
enum dm_rotation_angle SourceRotation[],
unsigned int BlockHeight256BytesY[],
unsigned int BlockWidth256BytesY[],
unsigned int BlockHeight256BytesC[],
unsigned int BlockWidth256BytesC[],
unsigned int DCCYMaxUncompressedBlock[],
unsigned int DCCCMaxUncompressedBlock[],
unsigned int VActive[],
bool DCCEnable[],
bool WritebackEnable[],
double ReadBandwidthSurfaceLuma[],
double ReadBandwidthSurfaceChroma[],
double meta_row_bw[],
double dpte_row_bw[],
double *StutterEfficiencyNotIncludingVBlank,
double *StutterEfficiency,
unsigned int *NumberOfStutterBurstsPerFrame,
double *Z8StutterEfficiencyNotIncludingVBlank,
double *Z8StutterEfficiency,
unsigned int *Z8NumberOfStutterBurstsPerFrame,
double *StutterPeriod,
bool *DCHUBBUB_ARB_CSTATE_MAX_CAP_MODE)
{
bool FoundCriticalSurface = false;
unsigned int SwathSizeCriticalSurface = 0;
unsigned int LastChunkOfSwathSize;
unsigned int MissingPartOfLastSwathOfDETSize;
double LastZ8StutterPeriod = 0.0;
double LastStutterPeriod = 0.0;
unsigned int TotalNumberOfActiveOTG = 0;
double doublePixelClock;
unsigned int doubleHTotal;
unsigned int doubleVTotal;
bool SameTiming = true;
double DETBufferingTimeY;
double SwathWidthYCriticalSurface = 0.0;
double SwathHeightYCriticalSurface = 0.0;
double VActiveTimeCriticalSurface = 0.0;
double FrameTimeCriticalSurface = 0.0;
unsigned int BytePerPixelYCriticalSurface = 0;
double LinesToFinishSwathTransferStutterCriticalSurface = 0.0;
unsigned int DETBufferSizeYCriticalSurface = 0;
double MinTTUVBlankCriticalSurface = 0.0;
unsigned int BlockWidth256BytesYCriticalSurface = 0;
bool doublePlaneCriticalSurface = 0;
bool doublePipeCriticalSurface = 0;
double TotalCompressedReadBandwidth;
double TotalRowReadBandwidth;
double AverageDCCCompressionRate;
double EffectiveCompressedBufferSize;
double PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer;
double StutterBurstTime;
unsigned int TotalActiveWriteback;
double LinesInDETY;
double LinesInDETYRoundedDownToSwath;
double MaximumEffectiveCompressionLuma;
double MaximumEffectiveCompressionChroma;
double TotalZeroSizeRequestReadBandwidth;
double TotalZeroSizeCompressedReadBandwidth;
double AverageDCCZeroSizeFraction;
double AverageZeroSizeCompressionRate;
unsigned int k;
TotalZeroSizeRequestReadBandwidth = 0;
TotalZeroSizeCompressedReadBandwidth = 0;
TotalRowReadBandwidth = 0;
TotalCompressedReadBandwidth = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) {
if (DCCEnable[k] == true) {
if ((IsVertical(SourceRotation[k]) && BlockWidth256BytesY[k] > SwathHeightY[k])
|| (!IsVertical(SourceRotation[k])
&& BlockHeight256BytesY[k] > SwathHeightY[k])
|| DCCYMaxUncompressedBlock[k] < 256) {
MaximumEffectiveCompressionLuma = 2;
} else {
MaximumEffectiveCompressionLuma = 4;
}
TotalCompressedReadBandwidth = TotalCompressedReadBandwidth
+ ReadBandwidthSurfaceLuma[k]
/ dml_min(NetDCCRateLuma[k],
MaximumEffectiveCompressionLuma);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, ReadBandwidthSurfaceLuma = %f\n",
__func__, k, ReadBandwidthSurfaceLuma[k]);
dml_print("DML::%s: k=%0d, NetDCCRateLuma = %f\n",
__func__, k, NetDCCRateLuma[k]);
dml_print("DML::%s: k=%0d, MaximumEffectiveCompressionLuma = %f\n",
__func__, k, MaximumEffectiveCompressionLuma);
#endif
TotalZeroSizeRequestReadBandwidth = TotalZeroSizeRequestReadBandwidth
+ ReadBandwidthSurfaceLuma[k] * DCCFractionOfZeroSizeRequestsLuma[k];
TotalZeroSizeCompressedReadBandwidth = TotalZeroSizeCompressedReadBandwidth
+ ReadBandwidthSurfaceLuma[k] * DCCFractionOfZeroSizeRequestsLuma[k]
/ MaximumEffectiveCompressionLuma;
if (ReadBandwidthSurfaceChroma[k] > 0) {
if ((IsVertical(SourceRotation[k]) && BlockWidth256BytesC[k] > SwathHeightC[k])
|| (!IsVertical(SourceRotation[k])
&& BlockHeight256BytesC[k] > SwathHeightC[k])
|| DCCCMaxUncompressedBlock[k] < 256) {
MaximumEffectiveCompressionChroma = 2;
} else {
MaximumEffectiveCompressionChroma = 4;
}
TotalCompressedReadBandwidth =
TotalCompressedReadBandwidth
+ ReadBandwidthSurfaceChroma[k]
/ dml_min(NetDCCRateChroma[k],
MaximumEffectiveCompressionChroma);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, ReadBandwidthSurfaceChroma = %f\n",
__func__, k, ReadBandwidthSurfaceChroma[k]);
dml_print("DML::%s: k=%0d, NetDCCRateChroma = %f\n",
__func__, k, NetDCCRateChroma[k]);
dml_print("DML::%s: k=%0d, MaximumEffectiveCompressionChroma = %f\n",
__func__, k, MaximumEffectiveCompressionChroma);
#endif
TotalZeroSizeRequestReadBandwidth = TotalZeroSizeRequestReadBandwidth
+ ReadBandwidthSurfaceChroma[k]
* DCCFractionOfZeroSizeRequestsChroma[k];
TotalZeroSizeCompressedReadBandwidth = TotalZeroSizeCompressedReadBandwidth
+ ReadBandwidthSurfaceChroma[k]
* DCCFractionOfZeroSizeRequestsChroma[k]
/ MaximumEffectiveCompressionChroma;
}
} else {
TotalCompressedReadBandwidth = TotalCompressedReadBandwidth
+ ReadBandwidthSurfaceLuma[k] + ReadBandwidthSurfaceChroma[k];
}
TotalRowReadBandwidth = TotalRowReadBandwidth
+ DPPPerSurface[k] * (meta_row_bw[k] + dpte_row_bw[k]);
}
}
AverageDCCCompressionRate = TotalDataReadBandwidth / TotalCompressedReadBandwidth;
AverageDCCZeroSizeFraction = TotalZeroSizeRequestReadBandwidth / TotalDataReadBandwidth;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: UnboundedRequestEnabled = %d\n", __func__, UnboundedRequestEnabled);
dml_print("DML::%s: TotalCompressedReadBandwidth = %f\n", __func__, TotalCompressedReadBandwidth);
dml_print("DML::%s: TotalZeroSizeRequestReadBandwidth = %f\n", __func__, TotalZeroSizeRequestReadBandwidth);
dml_print("DML::%s: TotalZeroSizeCompressedReadBandwidth = %f\n",
__func__, TotalZeroSizeCompressedReadBandwidth);
dml_print("DML::%s: MaximumEffectiveCompressionLuma = %f\n", __func__, MaximumEffectiveCompressionLuma);
dml_print("DML::%s: MaximumEffectiveCompressionChroma = %f\n", __func__, MaximumEffectiveCompressionChroma);
dml_print("DML::%s: AverageDCCCompressionRate = %f\n", __func__, AverageDCCCompressionRate);
dml_print("DML::%s: AverageDCCZeroSizeFraction = %f\n", __func__, AverageDCCZeroSizeFraction);
dml_print("DML::%s: CompbufReservedSpace64B = %d\n", __func__, CompbufReservedSpace64B);
dml_print("DML::%s: CompbufReservedSpaceZs = %d\n", __func__, CompbufReservedSpaceZs);
dml_print("DML::%s: CompressedBufferSizeInkByte = %d\n", __func__, CompressedBufferSizeInkByte);
#endif
if (AverageDCCZeroSizeFraction == 1) {
AverageZeroSizeCompressionRate = TotalZeroSizeRequestReadBandwidth
/ TotalZeroSizeCompressedReadBandwidth;
EffectiveCompressedBufferSize = (double) MetaFIFOSizeInKEntries * 1024 * 64
* AverageZeroSizeCompressionRate
+ ((double) ZeroSizeBufferEntries - CompbufReservedSpaceZs) * 64
* AverageZeroSizeCompressionRate;
} else if (AverageDCCZeroSizeFraction > 0) {
AverageZeroSizeCompressionRate = TotalZeroSizeRequestReadBandwidth
/ TotalZeroSizeCompressedReadBandwidth;
EffectiveCompressedBufferSize = dml_min(
(double) CompressedBufferSizeInkByte * 1024 * AverageDCCCompressionRate,
(double) MetaFIFOSizeInKEntries * 1024 * 64
/ (AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate
+ 1 / AverageDCCCompressionRate))
+ dml_min(((double) ROBBufferSizeInKByte * 1024 - CompbufReservedSpace64B * 64)
* AverageDCCCompressionRate,
((double) ZeroSizeBufferEntries - CompbufReservedSpaceZs) * 64
/ (AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate));
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: min 1 = %f\n", __func__,
CompressedBufferSizeInkByte * 1024 * AverageDCCCompressionRate);
dml_print("DML::%s: min 2 = %f\n", __func__, MetaFIFOSizeInKEntries * 1024 * 64 /
(AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate + 1 /
AverageDCCCompressionRate));
dml_print("DML::%s: min 3 = %f\n", __func__, (ROBBufferSizeInKByte * 1024 -
CompbufReservedSpace64B * 64) * AverageDCCCompressionRate);
dml_print("DML::%s: min 4 = %f\n", __func__, (ZeroSizeBufferEntries - CompbufReservedSpaceZs) * 64 /
(AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate));
#endif
} else {
EffectiveCompressedBufferSize = dml_min(
(double) CompressedBufferSizeInkByte * 1024 * AverageDCCCompressionRate,
(double) MetaFIFOSizeInKEntries * 1024 * 64 * AverageDCCCompressionRate)
+ ((double) ROBBufferSizeInKByte * 1024 - CompbufReservedSpace64B * 64)
* AverageDCCCompressionRate;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: min 1 = %f\n", __func__,
CompressedBufferSizeInkByte * 1024 * AverageDCCCompressionRate);
dml_print("DML::%s: min 2 = %f\n", __func__,
MetaFIFOSizeInKEntries * 1024 * 64 * AverageDCCCompressionRate);
#endif
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: MetaFIFOSizeInKEntries = %d\n", __func__, MetaFIFOSizeInKEntries);
dml_print("DML::%s: AverageZeroSizeCompressionRate = %f\n", __func__, AverageZeroSizeCompressionRate);
dml_print("DML::%s: EffectiveCompressedBufferSize = %f\n", __func__, EffectiveCompressedBufferSize);
#endif
*StutterPeriod = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) {
LinesInDETY = ((double) DETBufferSizeY[k]
+ (UnboundedRequestEnabled == true ? EffectiveCompressedBufferSize : 0)
* ReadBandwidthSurfaceLuma[k] / TotalDataReadBandwidth)
/ BytePerPixelDETY[k] / SwathWidthY[k];
LinesInDETYRoundedDownToSwath = dml_floor(LinesInDETY, SwathHeightY[k]);
DETBufferingTimeY = LinesInDETYRoundedDownToSwath * ((double) HTotal[k] / PixelClock[k])
/ VRatio[k];
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, DETBufferSizeY = %d\n", __func__, k, DETBufferSizeY[k]);
dml_print("DML::%s: k=%0d, BytePerPixelDETY = %f\n", __func__, k, BytePerPixelDETY[k]);
dml_print("DML::%s: k=%0d, SwathWidthY = %d\n", __func__, k, SwathWidthY[k]);
dml_print("DML::%s: k=%0d, ReadBandwidthSurfaceLuma = %f\n",
__func__, k, ReadBandwidthSurfaceLuma[k]);
dml_print("DML::%s: k=%0d, TotalDataReadBandwidth = %f\n", __func__, k, TotalDataReadBandwidth);
dml_print("DML::%s: k=%0d, LinesInDETY = %f\n", __func__, k, LinesInDETY);
dml_print("DML::%s: k=%0d, LinesInDETYRoundedDownToSwath = %f\n",
__func__, k, LinesInDETYRoundedDownToSwath);
dml_print("DML::%s: k=%0d, HTotal = %d\n", __func__, k, HTotal[k]);
dml_print("DML::%s: k=%0d, PixelClock = %f\n", __func__, k, PixelClock[k]);
dml_print("DML::%s: k=%0d, VRatio = %f\n", __func__, k, VRatio[k]);
dml_print("DML::%s: k=%0d, DETBufferingTimeY = %f\n", __func__, k, DETBufferingTimeY);
dml_print("DML::%s: k=%0d, PixelClock = %f\n", __func__, k, PixelClock[k]);
#endif
if (!FoundCriticalSurface || DETBufferingTimeY < *StutterPeriod) {
bool isInterlaceTiming = Interlace[k] && !ProgressiveToInterlaceUnitInOPP;
FoundCriticalSurface = true;
*StutterPeriod = DETBufferingTimeY;
FrameTimeCriticalSurface = (
isInterlaceTiming ?
dml_floor((double) VTotal[k] / 2.0, 1.0) : VTotal[k])
* (double) HTotal[k] / PixelClock[k];
VActiveTimeCriticalSurface = (
isInterlaceTiming ?
dml_floor((double) VActive[k] / 2.0, 1.0) : VActive[k])
* (double) HTotal[k] / PixelClock[k];
BytePerPixelYCriticalSurface = BytePerPixelY[k];
SwathWidthYCriticalSurface = SwathWidthY[k];
SwathHeightYCriticalSurface = SwathHeightY[k];
BlockWidth256BytesYCriticalSurface = BlockWidth256BytesY[k];
LinesToFinishSwathTransferStutterCriticalSurface = SwathHeightY[k]
- (LinesInDETY - LinesInDETYRoundedDownToSwath);
DETBufferSizeYCriticalSurface = DETBufferSizeY[k];
MinTTUVBlankCriticalSurface = MinTTUVBlank[k];
doublePlaneCriticalSurface = (ReadBandwidthSurfaceChroma[k] == 0);
doublePipeCriticalSurface = (DPPPerSurface[k] == 1);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: k=%0d, FoundCriticalSurface = %d\n",
__func__, k, FoundCriticalSurface);
dml_print("DML::%s: k=%0d, StutterPeriod = %f\n",
__func__, k, *StutterPeriod);
dml_print("DML::%s: k=%0d, MinTTUVBlankCriticalSurface = %f\n",
__func__, k, MinTTUVBlankCriticalSurface);
dml_print("DML::%s: k=%0d, FrameTimeCriticalSurface = %f\n",
__func__, k, FrameTimeCriticalSurface);
dml_print("DML::%s: k=%0d, VActiveTimeCriticalSurface = %f\n",
__func__, k, VActiveTimeCriticalSurface);
dml_print("DML::%s: k=%0d, BytePerPixelYCriticalSurface = %d\n",
__func__, k, BytePerPixelYCriticalSurface);
dml_print("DML::%s: k=%0d, SwathWidthYCriticalSurface = %f\n",
__func__, k, SwathWidthYCriticalSurface);
dml_print("DML::%s: k=%0d, SwathHeightYCriticalSurface = %f\n",
__func__, k, SwathHeightYCriticalSurface);
dml_print("DML::%s: k=%0d, BlockWidth256BytesYCriticalSurface = %d\n",
__func__, k, BlockWidth256BytesYCriticalSurface);
dml_print("DML::%s: k=%0d, doublePlaneCriticalSurface = %d\n",
__func__, k, doublePlaneCriticalSurface);
dml_print("DML::%s: k=%0d, doublePipeCriticalSurface = %d\n",
__func__, k, doublePipeCriticalSurface);
dml_print("DML::%s: k=%0d, LinesToFinishSwathTransferStutterCriticalSurface = %f\n",
__func__, k, LinesToFinishSwathTransferStutterCriticalSurface);
#endif
}
}
}
PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer = dml_min(*StutterPeriod * TotalDataReadBandwidth,
EffectiveCompressedBufferSize);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: ROBBufferSizeInKByte = %d\n", __func__, ROBBufferSizeInKByte);
dml_print("DML::%s: AverageDCCCompressionRate = %f\n", __func__, AverageDCCCompressionRate);
dml_print("DML::%s: StutterPeriod * TotalDataReadBandwidth = %f\n",
__func__, *StutterPeriod * TotalDataReadBandwidth);
dml_print("DML::%s: EffectiveCompressedBufferSize = %f\n", __func__, EffectiveCompressedBufferSize);
dml_print("DML::%s: PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer = %f\n", __func__,
PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer);
dml_print("DML::%s: ReturnBW = %f\n", __func__, ReturnBW);
dml_print("DML::%s: TotalDataReadBandwidth = %f\n", __func__, TotalDataReadBandwidth);
dml_print("DML::%s: TotalRowReadBandwidth = %f\n", __func__, TotalRowReadBandwidth);
dml_print("DML::%s: DCFCLK = %f\n", __func__, DCFCLK);
#endif
StutterBurstTime = PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer / AverageDCCCompressionRate
/ ReturnBW
+ (*StutterPeriod * TotalDataReadBandwidth
- PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer) / (DCFCLK * 64)
+ *StutterPeriod * TotalRowReadBandwidth / ReturnBW;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: Part 1 = %f\n", __func__, PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer /
AverageDCCCompressionRate / ReturnBW);
dml_print("DML::%s: StutterPeriod * TotalDataReadBandwidth = %f\n",
__func__, (*StutterPeriod * TotalDataReadBandwidth));
dml_print("DML::%s: Part 2 = %f\n", __func__, (*StutterPeriod * TotalDataReadBandwidth -
PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer) / (DCFCLK * 64));
dml_print("DML::%s: Part 3 = %f\n", __func__, *StutterPeriod * TotalRowReadBandwidth / ReturnBW);
dml_print("DML::%s: StutterBurstTime = %f\n", __func__, StutterBurstTime);
#endif
StutterBurstTime = dml_max(StutterBurstTime,
LinesToFinishSwathTransferStutterCriticalSurface * BytePerPixelYCriticalSurface
* SwathWidthYCriticalSurface / ReturnBW);
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: Time to finish residue swath=%f\n",
__func__,
LinesToFinishSwathTransferStutterCriticalSurface *
BytePerPixelYCriticalSurface * SwathWidthYCriticalSurface / ReturnBW);
#endif
TotalActiveWriteback = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (WritebackEnable[k])
TotalActiveWriteback = TotalActiveWriteback + 1;
}
if (TotalActiveWriteback == 0) {
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: SRExitTime = %f\n", __func__, SRExitTime);
dml_print("DML::%s: SRExitZ8Time = %f\n", __func__, SRExitZ8Time);
dml_print("DML::%s: StutterBurstTime = %f (final)\n", __func__, StutterBurstTime);
dml_print("DML::%s: StutterPeriod = %f\n", __func__, *StutterPeriod);
#endif
*StutterEfficiencyNotIncludingVBlank = dml_max(0.,
1 - (SRExitTime + StutterBurstTime) / *StutterPeriod) * 100;
*Z8StutterEfficiencyNotIncludingVBlank = dml_max(0.,
1 - (SRExitZ8Time + StutterBurstTime) / *StutterPeriod) * 100;
*NumberOfStutterBurstsPerFrame = (
*StutterEfficiencyNotIncludingVBlank > 0 ?
dml_ceil(VActiveTimeCriticalSurface / *StutterPeriod, 1) : 0);
*Z8NumberOfStutterBurstsPerFrame = (
*Z8StutterEfficiencyNotIncludingVBlank > 0 ?
dml_ceil(VActiveTimeCriticalSurface / *StutterPeriod, 1) : 0);
} else {
*StutterEfficiencyNotIncludingVBlank = 0.;
*Z8StutterEfficiencyNotIncludingVBlank = 0.;
*NumberOfStutterBurstsPerFrame = 0;
*Z8NumberOfStutterBurstsPerFrame = 0;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: VActiveTimeCriticalSurface = %f\n", __func__, VActiveTimeCriticalSurface);
dml_print("DML::%s: StutterEfficiencyNotIncludingVBlank = %f\n",
__func__, *StutterEfficiencyNotIncludingVBlank);
dml_print("DML::%s: Z8StutterEfficiencyNotIncludingVBlank = %f\n",
__func__, *Z8StutterEfficiencyNotIncludingVBlank);
dml_print("DML::%s: NumberOfStutterBurstsPerFrame = %d\n", __func__, *NumberOfStutterBurstsPerFrame);
dml_print("DML::%s: Z8NumberOfStutterBurstsPerFrame = %d\n", __func__, *Z8NumberOfStutterBurstsPerFrame);
#endif
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (UseMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) {
if (BlendingAndTiming[k] == k) {
if (TotalNumberOfActiveOTG == 0) {
doublePixelClock = PixelClock[k];
doubleHTotal = HTotal[k];
doubleVTotal = VTotal[k];
} else if (doublePixelClock != PixelClock[k] || doubleHTotal != HTotal[k]
|| doubleVTotal != VTotal[k]) {
SameTiming = false;
}
TotalNumberOfActiveOTG = TotalNumberOfActiveOTG + 1;
}
}
}
if (*StutterEfficiencyNotIncludingVBlank > 0) {
LastStutterPeriod = VActiveTimeCriticalSurface - (*NumberOfStutterBurstsPerFrame - 1) * *StutterPeriod;
if ((SynchronizeTimingsFinal || TotalNumberOfActiveOTG == 1) && SameTiming
&& LastStutterPeriod + MinTTUVBlankCriticalSurface > StutterEnterPlusExitWatermark) {
*StutterEfficiency = (1 - (*NumberOfStutterBurstsPerFrame * SRExitTime
+ StutterBurstTime * VActiveTimeCriticalSurface
/ *StutterPeriod) / FrameTimeCriticalSurface) * 100;
} else {
*StutterEfficiency = *StutterEfficiencyNotIncludingVBlank;
}
} else {
*StutterEfficiency = 0;
}
if (*Z8StutterEfficiencyNotIncludingVBlank > 0) {
LastZ8StutterPeriod = VActiveTimeCriticalSurface
- (*NumberOfStutterBurstsPerFrame - 1) * *StutterPeriod;
if ((SynchronizeTimingsFinal || TotalNumberOfActiveOTG == 1) && SameTiming && LastZ8StutterPeriod +
MinTTUVBlankCriticalSurface > Z8StutterEnterPlusExitWatermark) {
*Z8StutterEfficiency = (1 - (*NumberOfStutterBurstsPerFrame * SRExitZ8Time + StutterBurstTime
* VActiveTimeCriticalSurface / *StutterPeriod) / FrameTimeCriticalSurface) * 100;
} else {
*Z8StutterEfficiency = *Z8StutterEfficiencyNotIncludingVBlank;
}
} else {
*Z8StutterEfficiency = 0.;
}
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: LastZ8StutterPeriod = %f\n", __func__, LastZ8StutterPeriod);
dml_print("DML::%s: Z8StutterEnterPlusExitWatermark = %f\n", __func__, Z8StutterEnterPlusExitWatermark);
dml_print("DML::%s: StutterBurstTime = %f\n", __func__, StutterBurstTime);
dml_print("DML::%s: StutterPeriod = %f\n", __func__, *StutterPeriod);
dml_print("DML::%s: StutterEfficiency = %f\n", __func__, *StutterEfficiency);
dml_print("DML::%s: Z8StutterEfficiency = %f\n", __func__, *Z8StutterEfficiency);
dml_print("DML::%s: StutterEfficiencyNotIncludingVBlank = %f\n",
__func__, *StutterEfficiencyNotIncludingVBlank);
dml_print("DML::%s: Z8NumberOfStutterBurstsPerFrame = %d\n", __func__, *Z8NumberOfStutterBurstsPerFrame);
#endif
SwathSizeCriticalSurface = BytePerPixelYCriticalSurface * SwathHeightYCriticalSurface
* dml_ceil(SwathWidthYCriticalSurface, BlockWidth256BytesYCriticalSurface);
LastChunkOfSwathSize = SwathSizeCriticalSurface % (PixelChunkSizeInKByte * 1024);
MissingPartOfLastSwathOfDETSize = dml_ceil(DETBufferSizeYCriticalSurface, SwathSizeCriticalSurface)
- DETBufferSizeYCriticalSurface;
*DCHUBBUB_ARB_CSTATE_MAX_CAP_MODE = !(!UnboundedRequestEnabled && (NumberOfActiveSurfaces == 1)
&& doublePlaneCriticalSurface && doublePipeCriticalSurface && (LastChunkOfSwathSize > 0)
&& (LastChunkOfSwathSize <= 4096) && (MissingPartOfLastSwathOfDETSize > 0)
&& (MissingPartOfLastSwathOfDETSize <= LastChunkOfSwathSize));
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: SwathSizeCriticalSurface = %d\n", __func__, SwathSizeCriticalSurface);
dml_print("DML::%s: LastChunkOfSwathSize = %d\n", __func__, LastChunkOfSwathSize);
dml_print("DML::%s: MissingPartOfLastSwathOfDETSize = %d\n", __func__, MissingPartOfLastSwathOfDETSize);
dml_print("DML::%s: DCHUBBUB_ARB_CSTATE_MAX_CAP_MODE = %d\n", __func__, *DCHUBBUB_ARB_CSTATE_MAX_CAP_MODE);
#endif
}
void dml32_CalculateMaxDETAndMinCompressedBufferSize(
unsigned int ConfigReturnBufferSizeInKByte,
unsigned int ROBBufferSizeInKByte,
unsigned int MaxNumDPP,
bool nomDETInKByteOverrideEnable,
unsigned int nomDETInKByteOverrideValue,
unsigned int *MaxTotalDETInKByte,
unsigned int *nomDETInKByte,
unsigned int *MinCompressedBufferSizeInKByte)
{
bool det_buff_size_override_en = nomDETInKByteOverrideEnable;
unsigned int det_buff_size_override_val = nomDETInKByteOverrideValue;
*MaxTotalDETInKByte = dml_ceil(((double)ConfigReturnBufferSizeInKByte +
(double) ROBBufferSizeInKByte) * 4.0 / 5.0, 64);
*nomDETInKByte = dml_floor((double) *MaxTotalDETInKByte / (double) MaxNumDPP, 64);
*MinCompressedBufferSizeInKByte = ConfigReturnBufferSizeInKByte - *MaxTotalDETInKByte;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: ConfigReturnBufferSizeInKByte = %0d\n", __func__, ConfigReturnBufferSizeInKByte);
dml_print("DML::%s: ROBBufferSizeInKByte = %0d\n", __func__, ROBBufferSizeInKByte);
dml_print("DML::%s: MaxNumDPP = %0d\n", __func__, MaxNumDPP);
dml_print("DML::%s: MaxTotalDETInKByte = %0d\n", __func__, *MaxTotalDETInKByte);
dml_print("DML::%s: nomDETInKByte = %0d\n", __func__, *nomDETInKByte);
dml_print("DML::%s: MinCompressedBufferSizeInKByte = %0d\n", __func__, *MinCompressedBufferSizeInKByte);
#endif
if (det_buff_size_override_en) {
*nomDETInKByte = det_buff_size_override_val;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: nomDETInKByte = %0d (override)\n", __func__, *nomDETInKByte);
#endif
}
}
bool dml32_CalculateVActiveBandwithSupport(unsigned int NumberOfActiveSurfaces,
double ReturnBW,
bool NotUrgentLatencyHiding[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
double cursor_bw[],
double meta_row_bandwidth[],
double dpte_row_bandwidth[],
unsigned int NumberOfDPP[],
double UrgentBurstFactorLuma[],
double UrgentBurstFactorChroma[],
double UrgentBurstFactorCursor[])
{
unsigned int k;
bool NotEnoughUrgentLatencyHiding = false;
bool CalculateVActiveBandwithSupport_val = false;
double VActiveBandwith = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (NotUrgentLatencyHiding[k]) {
NotEnoughUrgentLatencyHiding = true;
}
}
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
VActiveBandwith = VActiveBandwith + ReadBandwidthLuma[k] * UrgentBurstFactorLuma[k] + ReadBandwidthChroma[k] * UrgentBurstFactorChroma[k] + cursor_bw[k] * UrgentBurstFactorCursor[k] + NumberOfDPP[k] * meta_row_bandwidth[k] + NumberOfDPP[k] * dpte_row_bandwidth[k];
}
CalculateVActiveBandwithSupport_val = (VActiveBandwith <= ReturnBW) && !NotEnoughUrgentLatencyHiding;
#ifdef __DML_VBA_DEBUG__
dml_print("DML::%s: NotEnoughUrgentLatencyHiding = %d\n", __func__, NotEnoughUrgentLatencyHiding);
dml_print("DML::%s: VActiveBandwith = %f\n", __func__, VActiveBandwith);
dml_print("DML::%s: ReturnBW = %f\n", __func__, ReturnBW);
dml_print("DML::%s: CalculateVActiveBandwithSupport_val = %d\n", __func__, CalculateVActiveBandwithSupport_val);
#endif
return CalculateVActiveBandwithSupport_val;
}
void dml32_CalculatePrefetchBandwithSupport(unsigned int NumberOfActiveSurfaces,
double ReturnBW,
bool NotUrgentLatencyHiding[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
double PrefetchBandwidthLuma[],
double PrefetchBandwidthChroma[],
double cursor_bw[],
double meta_row_bandwidth[],
double dpte_row_bandwidth[],
double cursor_bw_pre[],
double prefetch_vmrow_bw[],
unsigned int NumberOfDPP[],
double UrgentBurstFactorLuma[],
double UrgentBurstFactorChroma[],
double UrgentBurstFactorCursor[],
double UrgentBurstFactorLumaPre[],
double UrgentBurstFactorChromaPre[],
double UrgentBurstFactorCursorPre[],
double PrefetchBW[],
double VRatio[],
double MaxVRatioPre,
double *MaxPrefetchBandwidth,
double *FractionOfUrgentBandwidth,
bool *PrefetchBandwidthSupport)
{
unsigned int k;
double ActiveBandwidthPerSurface;
bool NotEnoughUrgentLatencyHiding = false;
double TotalActiveBandwidth = 0;
double TotalPrefetchBandwidth = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (NotUrgentLatencyHiding[k]) {
NotEnoughUrgentLatencyHiding = true;
}
}
*MaxPrefetchBandwidth = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
ActiveBandwidthPerSurface = ReadBandwidthLuma[k] * UrgentBurstFactorLuma[k] + ReadBandwidthChroma[k] * UrgentBurstFactorChroma[k] + cursor_bw[k] * UrgentBurstFactorCursor[k] + NumberOfDPP[k] * (meta_row_bandwidth[k] + dpte_row_bandwidth[k]);
TotalActiveBandwidth += ActiveBandwidthPerSurface;
TotalPrefetchBandwidth = TotalPrefetchBandwidth + PrefetchBW[k] * VRatio[k];
*MaxPrefetchBandwidth = *MaxPrefetchBandwidth + dml_max3(NumberOfDPP[k] * prefetch_vmrow_bw[k],
ActiveBandwidthPerSurface,
NumberOfDPP[k] * (PrefetchBandwidthLuma[k] * UrgentBurstFactorLumaPre[k] + PrefetchBandwidthChroma[k] * UrgentBurstFactorChromaPre[k]) + cursor_bw_pre[k] * UrgentBurstFactorCursorPre[k]);
}
if (MaxVRatioPre == __DML_MAX_VRATIO_PRE__)
*PrefetchBandwidthSupport = (*MaxPrefetchBandwidth <= ReturnBW) && (TotalPrefetchBandwidth <= TotalActiveBandwidth * __DML_MAX_BW_RATIO_PRE__) && !NotEnoughUrgentLatencyHiding;
else
*PrefetchBandwidthSupport = (*MaxPrefetchBandwidth <= ReturnBW) && !NotEnoughUrgentLatencyHiding;
*FractionOfUrgentBandwidth = *MaxPrefetchBandwidth / ReturnBW;
}
double dml32_CalculateBandwidthAvailableForImmediateFlip(unsigned int NumberOfActiveSurfaces,
double ReturnBW,
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
double PrefetchBandwidthLuma[],
double PrefetchBandwidthChroma[],
double cursor_bw[],
double cursor_bw_pre[],
unsigned int NumberOfDPP[],
double UrgentBurstFactorLuma[],
double UrgentBurstFactorChroma[],
double UrgentBurstFactorCursor[],
double UrgentBurstFactorLumaPre[],
double UrgentBurstFactorChromaPre[],
double UrgentBurstFactorCursorPre[])
{
unsigned int k;
double CalculateBandwidthAvailableForImmediateFlip_val = ReturnBW;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
CalculateBandwidthAvailableForImmediateFlip_val = CalculateBandwidthAvailableForImmediateFlip_val - dml_max(ReadBandwidthLuma[k] * UrgentBurstFactorLuma[k] + ReadBandwidthChroma[k] * UrgentBurstFactorChroma[k] + cursor_bw[k] * UrgentBurstFactorCursor[k],
NumberOfDPP[k] * (PrefetchBandwidthLuma[k] * UrgentBurstFactorLumaPre[k] + PrefetchBandwidthChroma[k] * UrgentBurstFactorChromaPre[k]) + cursor_bw_pre[k] * UrgentBurstFactorCursorPre[k]);
}
return CalculateBandwidthAvailableForImmediateFlip_val;
}
void dml32_CalculateImmediateFlipBandwithSupport(unsigned int NumberOfActiveSurfaces,
double ReturnBW,
enum immediate_flip_requirement ImmediateFlipRequirement[],
double final_flip_bw[],
double ReadBandwidthLuma[],
double ReadBandwidthChroma[],
double PrefetchBandwidthLuma[],
double PrefetchBandwidthChroma[],
double cursor_bw[],
double meta_row_bandwidth[],
double dpte_row_bandwidth[],
double cursor_bw_pre[],
double prefetch_vmrow_bw[],
unsigned int NumberOfDPP[],
double UrgentBurstFactorLuma[],
double UrgentBurstFactorChroma[],
double UrgentBurstFactorCursor[],
double UrgentBurstFactorLumaPre[],
double UrgentBurstFactorChromaPre[],
double UrgentBurstFactorCursorPre[],
double *TotalBandwidth,
double *FractionOfUrgentBandwidth,
bool *ImmediateFlipBandwidthSupport)
{
unsigned int k;
*TotalBandwidth = 0;
for (k = 0; k < NumberOfActiveSurfaces; ++k) {
if (ImmediateFlipRequirement[k] != dm_immediate_flip_not_required) {
*TotalBandwidth = *TotalBandwidth + dml_max3(NumberOfDPP[k] * prefetch_vmrow_bw[k],
NumberOfDPP[k] * final_flip_bw[k] + ReadBandwidthLuma[k] * UrgentBurstFactorLuma[k] + ReadBandwidthChroma[k] * UrgentBurstFactorChroma[k] + cursor_bw[k] * UrgentBurstFactorCursor[k],
NumberOfDPP[k] * (final_flip_bw[k] + PrefetchBandwidthLuma[k] * UrgentBurstFactorLumaPre[k] + PrefetchBandwidthChroma[k] * UrgentBurstFactorChromaPre[k]) + cursor_bw_pre[k] * UrgentBurstFactorCursorPre[k]);
} else {
*TotalBandwidth = *TotalBandwidth + dml_max3(NumberOfDPP[k] * prefetch_vmrow_bw[k],
NumberOfDPP[k] * (meta_row_bandwidth[k] + dpte_row_bandwidth[k]) + ReadBandwidthLuma[k] * UrgentBurstFactorLuma[k] + ReadBandwidthChroma[k] * UrgentBurstFactorChroma[k] + cursor_bw[k] * UrgentBurstFactorCursor[k],
NumberOfDPP[k] * (PrefetchBandwidthLuma[k] * UrgentBurstFactorLumaPre[k] + PrefetchBandwidthChroma[k] * UrgentBurstFactorChromaPre[k]) + cursor_bw_pre[k] * UrgentBurstFactorCursorPre[k]);
}
}
*ImmediateFlipBandwidthSupport = (*TotalBandwidth <= ReturnBW);
*FractionOfUrgentBandwidth = *TotalBandwidth / ReturnBW;
}
bool dml32_CalculateDETSwathFillLatencyHiding(unsigned int NumberOfActiveSurfaces,
double ReturnBW,
double UrgentLatency,
unsigned int SwathHeightY[],
unsigned int SwathHeightC[],
unsigned int SwathWidthY[],
unsigned int SwathWidthC[],
double BytePerPixelInDETY[],
double BytePerPixelInDETC[],
unsigned int DETBufferSizeY[],
unsigned int DETBufferSizeC[],
unsigned int NumOfDPP[],
unsigned int HTotal[],
double PixelClock[],
double VRatioY[],
double VRatioC[],
enum dm_use_mall_for_pstate_change_mode UsesMALLForPStateChange[],
enum unbounded_requesting_policy UseUnboundedRequesting)
{
int k;
double SwathSizeAllSurfaces = 0;
double SwathSizeAllSurfacesInFetchTimeUs;
double DETSwathLatencyHidingUs;
double DETSwathLatencyHidingYUs;
double DETSwathLatencyHidingCUs;
double SwathSizePerSurfaceY[DC__NUM_DPP__MAX];
double SwathSizePerSurfaceC[DC__NUM_DPP__MAX];
bool NotEnoughDETSwathFillLatencyHiding = false;
if (UseUnboundedRequesting == dm_unbounded_requesting)
return false;
for (k = 0; k < NumberOfActiveSurfaces; k++) {
SwathSizePerSurfaceY[k] = SwathHeightY[k] * SwathWidthY[k] * BytePerPixelInDETY[k] * NumOfDPP[k];
if (SwathHeightC[k] != 0)
SwathSizePerSurfaceC[k] = SwathHeightC[k] * SwathWidthC[k] * BytePerPixelInDETC[k] * NumOfDPP[k];
else
SwathSizePerSurfaceC[k] = 0;
SwathSizeAllSurfaces += SwathSizePerSurfaceY[k] + SwathSizePerSurfaceC[k];
}
SwathSizeAllSurfacesInFetchTimeUs = SwathSizeAllSurfaces / ReturnBW + UrgentLatency;
for (k = 0; k < NumberOfActiveSurfaces; k++) {
double LineTime = HTotal[k] / PixelClock[k];
if (UsesMALLForPStateChange[k] != dm_use_mall_pstate_change_phantom_pipe) {
DETSwathLatencyHidingYUs = (dml_floor(DETBufferSizeY[k] / BytePerPixelInDETY[k] / SwathWidthY[k], 1.0) - SwathHeightY[k]) / VRatioY[k] * LineTime;
if (SwathHeightC[k] != 0) {
DETSwathLatencyHidingCUs = (dml_floor(DETBufferSizeC[k] / BytePerPixelInDETC[k] / SwathWidthC[k], 1.0) - SwathHeightC[k]) / VRatioC[k] * LineTime;
DETSwathLatencyHidingUs = dml_min(DETSwathLatencyHidingYUs, DETSwathLatencyHidingCUs);
} else {
DETSwathLatencyHidingUs = DETSwathLatencyHidingYUs;
}
if (DETSwathLatencyHidingUs < SwathSizeAllSurfacesInFetchTimeUs) {
NotEnoughDETSwathFillLatencyHiding = true;
break;
}
}
}
return NotEnoughDETSwathFillLatencyHiding;
}