[PATCH 5/9] drm/amd/display: Add DCN314 DML calculation support
Alex Deucher
alexander.deucher at amd.com
Fri Jul 8 22:08:51 UTC 2022
From: Roman Li <roman.li at amd.com>
Display mode library for DCN 3.1.4
Signed-off-by: Roman Li <roman.li at amd.com>
Signed-off-by: Alex Deucher <alexander.deucher at amd.com>
---
.../dc/dml/dcn314/display_mode_vba_314.c | 7420 +++++++++++++++++
.../dc/dml/dcn314/display_mode_vba_314.h | 44 +
.../dc/dml/dcn314/display_rq_dlg_calc_314.c | 1733 ++++
.../dc/dml/dcn314/display_rq_dlg_calc_314.h | 70 +
4 files changed, 9267 insertions(+)
create mode 100644 drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.c
create mode 100644 drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.h
create mode 100644 drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.c
create mode 100644 drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.h
diff --git a/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.c b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.c
new file mode 100644
index 000000000000..fa71f9f3ada5
--- /dev/null
+++ b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.c
@@ -0,0 +1,7420 @@
+// SPDX-License-Identifier: MIT
+/*
+ * Copyright 2022 Advanced Micro Devices, Inc.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
+ * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ *
+ * Authors: AMD
+ *
+ */
+
+#define UNIT_TEST 0
+#if !UNIT_TEST
+#include "dc.h"
+#include "dc_link.h"
+#endif
+#include "../display_mode_lib.h"
+#include "display_mode_vba_314.h"
+#include "../dml_inline_defs.h"
+
+/*
+ * NOTE:
+ * This file is gcc-parsable HW gospel, coming straight from HW engineers.
+ *
+ * It doesn't adhere to Linux kernel style and sometimes will do things in odd
+ * ways. Unless there is something clearly wrong with it the code should
+ * remain as-is as it provides us with a guarantee from HW that it is correct.
+ */
+
+#define BPP_INVALID 0
+#define BPP_BLENDED_PIPE 0xffffffff
+#define DCN314_MAX_DSC_IMAGE_WIDTH 5184
+#define DCN314_MAX_FMT_420_BUFFER_WIDTH 4096
+
+// For DML-C changes that hasn't been propagated to VBA yet
+//#define __DML_VBA_ALLOW_DELTA__
+
+// Move these to ip parameters/constant
+
+// At which vstartup the DML start to try if the mode can be supported
+#define __DML_VBA_MIN_VSTARTUP__ 9
+
+// Delay in DCFCLK from ARB to DET (1st num is ARB to SDPIF, 2nd number is SDPIF to DET)
+#define __DML_ARB_TO_RET_DELAY__ (7 + 95)
+
+// fudge factor for min dcfclk calclation
+#define __DML_MIN_DCFCLK_FACTOR__ 1.15
+
+struct {
+ double DPPCLK;
+ double DISPCLK;
+ double PixelClock;
+ double DCFCLKDeepSleep;
+ unsigned int DPPPerPlane;
+ bool ScalerEnabled;
+ double VRatio;
+ double VRatioChroma;
+ enum scan_direction_class SourceScan;
+ unsigned int BlockWidth256BytesY;
+ unsigned int BlockHeight256BytesY;
+ unsigned int BlockWidth256BytesC;
+ unsigned int BlockHeight256BytesC;
+ unsigned int InterlaceEnable;
+ unsigned int NumberOfCursors;
+ unsigned int VBlank;
+ unsigned int HTotal;
+ unsigned int DCCEnable;
+ bool ODMCombineIsEnabled;
+ enum source_format_class SourcePixelFormat;
+ int BytePerPixelY;
+ int BytePerPixelC;
+ bool ProgressiveToInterlaceUnitInOPP;
+} Pipe;
+
+#define BPP_INVALID 0
+#define BPP_BLENDED_PIPE 0xffffffff
+
+static bool CalculateBytePerPixelAnd256BBlockSizes(
+ 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);
+static void DisplayPipeConfiguration(struct display_mode_lib *mode_lib);
+static void DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerformanceCalculation(struct display_mode_lib *mode_lib);
+static unsigned int dscceComputeDelay(
+ unsigned int bpc,
+ double BPP,
+ unsigned int sliceWidth,
+ unsigned int numSlices,
+ enum output_format_class pixelFormat,
+ enum output_encoder_class Output);
+static unsigned int dscComputeDelay(enum output_format_class pixelFormat, enum output_encoder_class Output);
+static bool CalculatePrefetchSchedule(
+ struct display_mode_lib *mode_lib,
+ double HostVMInefficiencyFactor,
+ Pipe *myPipe,
+ unsigned int DSCDelay,
+ double DPPCLKDelaySubtotalPlusCNVCFormater,
+ double DPPCLKDelaySCL,
+ double DPPCLKDelaySCLLBOnly,
+ double DPPCLKDelayCNVCCursor,
+ double DISPCLKDelaySubtotal,
+ unsigned int DPP_RECOUT_WIDTH,
+ enum output_format_class OutputFormat,
+ unsigned int MaxInterDCNTileRepeaters,
+ unsigned int VStartup,
+ unsigned int MaxVStartup,
+ unsigned int GPUVMPageTableLevels,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ unsigned int HostVMMaxNonCachedPageTableLevels,
+ double HostVMMinPageSize,
+ bool DynamicMetadataEnable,
+ bool DynamicMetadataVMEnabled,
+ int DynamicMetadataLinesBeforeActiveRequired,
+ unsigned int DynamicMetadataTransmittedBytes,
+ double UrgentLatency,
+ double UrgentExtraLatency,
+ double TCalc,
+ unsigned int PDEAndMetaPTEBytesFrame,
+ unsigned int MetaRowByte,
+ unsigned int PixelPTEBytesPerRow,
+ double PrefetchSourceLinesY,
+ unsigned int SwathWidthY,
+ double VInitPreFillY,
+ unsigned int MaxNumSwathY,
+ double PrefetchSourceLinesC,
+ unsigned int SwathWidthC,
+ double VInitPreFillC,
+ unsigned int MaxNumSwathC,
+ int swath_width_luma_ub,
+ int swath_width_chroma_ub,
+ unsigned int SwathHeightY,
+ unsigned int SwathHeightC,
+ double TWait,
+ 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,
+ int *VUpdateOffsetPix,
+ double *VUpdateWidthPix,
+ double *VReadyOffsetPix);
+static double RoundToDFSGranularityUp(double Clock, double VCOSpeed);
+static double RoundToDFSGranularityDown(double Clock, double VCOSpeed);
+static void CalculateDCCConfiguration(
+ bool DCCEnabled,
+ bool DCCProgrammingAssumesScanDirectionUnknown,
+ enum source_format_class SourcePixelFormat,
+ unsigned int SurfaceWidthLuma,
+ unsigned int SurfaceWidthChroma,
+ unsigned int SurfaceHeightLuma,
+ unsigned int SurfaceHeightChroma,
+ double DETBufferSize,
+ unsigned int RequestHeight256ByteLuma,
+ unsigned int RequestHeight256ByteChroma,
+ enum dm_swizzle_mode TilingFormat,
+ unsigned int BytePerPixelY,
+ unsigned int BytePerPixelC,
+ double BytePerPixelDETY,
+ double BytePerPixelDETC,
+ enum scan_direction_class ScanOrientation,
+ unsigned int *MaxUncompressedBlockLuma,
+ unsigned int *MaxUncompressedBlockChroma,
+ unsigned int *MaxCompressedBlockLuma,
+ unsigned int *MaxCompressedBlockChroma,
+ unsigned int *IndependentBlockLuma,
+ unsigned int *IndependentBlockChroma);
+static double CalculatePrefetchSourceLines(
+ struct display_mode_lib *mode_lib,
+ double VRatio,
+ double vtaps,
+ bool Interlace,
+ bool ProgressiveToInterlaceUnitInOPP,
+ unsigned int SwathHeight,
+ unsigned int ViewportYStart,
+ double *VInitPreFill,
+ unsigned int *MaxNumSwath);
+static unsigned int CalculateVMAndRowBytes(
+ struct display_mode_lib *mode_lib,
+ bool DCCEnable,
+ unsigned int BlockHeight256Bytes,
+ unsigned int BlockWidth256Bytes,
+ enum source_format_class SourcePixelFormat,
+ unsigned int SurfaceTiling,
+ unsigned int BytePerPixel,
+ enum scan_direction_class ScanDirection,
+ unsigned int SwathWidth,
+ unsigned int ViewportHeight,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ unsigned int HostVMMaxNonCachedPageTableLevels,
+ unsigned int GPUVMMinPageSize,
+ unsigned int HostVMMinPageSize,
+ unsigned int PTEBufferSizeInRequests,
+ unsigned int Pitch,
+ unsigned int DCCMetaPitch,
+ unsigned int *MacroTileWidth,
+ unsigned int *MetaRowByte,
+ unsigned int *PixelPTEBytesPerRow,
+ bool *PTEBufferSizeNotExceeded,
+ int *dpte_row_width_ub,
+ unsigned int *dpte_row_height,
+ unsigned int *MetaRequestWidth,
+ unsigned int *MetaRequestHeight,
+ unsigned int *meta_row_width,
+ unsigned int *meta_row_height,
+ int *vm_group_bytes,
+ unsigned int *dpte_group_bytes,
+ unsigned int *PixelPTEReqWidth,
+ unsigned int *PixelPTEReqHeight,
+ unsigned int *PTERequestSize,
+ int *DPDE0BytesFrame,
+ int *MetaPTEBytesFrame);
+static double CalculateTWait(unsigned int PrefetchMode, double DRAMClockChangeLatency, double UrgentLatency, double SREnterPlusExitTime);
+static void 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);
+
+static void CalculateFlipSchedule(
+ struct display_mode_lib *mode_lib,
+ 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,
+ double *DestinationLinesToRequestVMInImmediateFlip,
+ double *DestinationLinesToRequestRowInImmediateFlip,
+ double *final_flip_bw,
+ bool *ImmediateFlipSupportedForPipe);
+static double CalculateWriteBackDelay(
+ enum source_format_class WritebackPixelFormat,
+ double WritebackHRatio,
+ double WritebackVRatio,
+ unsigned int WritebackVTaps,
+ int WritebackDestinationWidth,
+ int WritebackDestinationHeight,
+ int WritebackSourceHeight,
+ unsigned int HTotal);
+
+static void CalculateVupdateAndDynamicMetadataParameters(
+ int MaxInterDCNTileRepeaters,
+ double DPPCLK,
+ double DISPCLK,
+ double DCFClkDeepSleep,
+ double PixelClock,
+ int HTotal,
+ int VBlank,
+ int DynamicMetadataTransmittedBytes,
+ int DynamicMetadataLinesBeforeActiveRequired,
+ int InterlaceEnable,
+ bool ProgressiveToInterlaceUnitInOPP,
+ double *TSetup,
+ double *Tdmbf,
+ double *Tdmec,
+ double *Tdmsks,
+ int *VUpdateOffsetPix,
+ double *VUpdateWidthPix,
+ double *VReadyOffsetPix);
+
+static void CalculateWatermarksAndDRAMSpeedChangeSupport(
+ struct display_mode_lib *mode_lib,
+ unsigned int PrefetchMode,
+ unsigned int NumberOfActivePlanes,
+ unsigned int MaxLineBufferLines,
+ unsigned int LineBufferSize,
+ unsigned int WritebackInterfaceBufferSize,
+ double DCFCLK,
+ double ReturnBW,
+ bool SynchronizedVBlank,
+ unsigned int dpte_group_bytes[],
+ unsigned int MetaChunkSize,
+ double UrgentLatency,
+ double ExtraLatency,
+ double WritebackLatency,
+ double WritebackChunkSize,
+ double SOCCLK,
+ double DRAMClockChangeLatency,
+ double SRExitTime,
+ double SREnterPlusExitTime,
+ double SRExitZ8Time,
+ double SREnterPlusExitZ8Time,
+ double DCFCLKDeepSleep,
+ unsigned int DETBufferSizeY[],
+ unsigned int DETBufferSizeC[],
+ unsigned int SwathHeightY[],
+ unsigned int SwathHeightC[],
+ unsigned int LBBitPerPixel[],
+ double SwathWidthY[],
+ double SwathWidthC[],
+ double HRatio[],
+ double HRatioChroma[],
+ unsigned int vtaps[],
+ unsigned int VTAPsChroma[],
+ double VRatio[],
+ double VRatioChroma[],
+ unsigned int HTotal[],
+ double PixelClock[],
+ unsigned int BlendingAndTiming[],
+ unsigned int DPPPerPlane[],
+ double BytePerPixelDETY[],
+ double BytePerPixelDETC[],
+ double DSTXAfterScaler[],
+ double DSTYAfterScaler[],
+ bool WritebackEnable[],
+ enum source_format_class WritebackPixelFormat[],
+ double WritebackDestinationWidth[],
+ double WritebackDestinationHeight[],
+ double WritebackSourceHeight[],
+ bool UnboundedRequestEnabled,
+ unsigned int CompressedBufferSizeInkByte,
+ enum clock_change_support *DRAMClockChangeSupport,
+ double *UrgentWatermark,
+ double *WritebackUrgentWatermark,
+ double *DRAMClockChangeWatermark,
+ double *WritebackDRAMClockChangeWatermark,
+ double *StutterExitWatermark,
+ double *StutterEnterPlusExitWatermark,
+ double *Z8StutterExitWatermark,
+ double *Z8StutterEnterPlusExitWatermark,
+ double *MinActiveDRAMClockChangeLatencySupported);
+
+static void CalculateDCFCLKDeepSleep(
+ struct display_mode_lib *mode_lib,
+ unsigned int NumberOfActivePlanes,
+ int BytePerPixelY[],
+ int BytePerPixelC[],
+ double VRatio[],
+ double VRatioChroma[],
+ double SwathWidthY[],
+ double SwathWidthC[],
+ unsigned int DPPPerPlane[],
+ double HRatio[],
+ double HRatioChroma[],
+ double PixelClock[],
+ double PSCL_THROUGHPUT[],
+ double PSCL_THROUGHPUT_CHROMA[],
+ double DPPCLK[],
+ double ReadBandwidthLuma[],
+ double ReadBandwidthChroma[],
+ int ReturnBusWidth,
+ double *DCFCLKDeepSleep);
+
+static void CalculateUrgentBurstFactor(
+ int swath_width_luma_ub,
+ 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,
+ double DETBufferSizeY,
+ double DETBufferSizeC,
+ double *UrgentBurstFactorCursor,
+ double *UrgentBurstFactorLuma,
+ double *UrgentBurstFactorChroma,
+ bool *NotEnoughUrgentLatencyHiding);
+
+static void UseMinimumDCFCLK(
+ struct display_mode_lib *mode_lib,
+ int MaxPrefetchMode,
+ int ReorderingBytes);
+
+static void CalculatePixelDeliveryTimes(
+ unsigned int NumberOfActivePlanes,
+ double VRatio[],
+ double VRatioChroma[],
+ double VRatioPrefetchY[],
+ double VRatioPrefetchC[],
+ unsigned int swath_width_luma_ub[],
+ unsigned int swath_width_chroma_ub[],
+ unsigned int DPPPerPlane[],
+ double HRatio[],
+ double HRatioChroma[],
+ double PixelClock[],
+ double PSCL_THROUGHPUT[],
+ double PSCL_THROUGHPUT_CHROMA[],
+ double DPPCLK[],
+ int BytePerPixelC[],
+ enum scan_direction_class SourceScan[],
+ 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[]);
+
+static void CalculateMetaAndPTETimes(
+ int NumberOfActivePlanes,
+ bool GPUVMEnable,
+ int MetaChunkSize,
+ int MinMetaChunkSizeBytes,
+ int HTotal[],
+ double VRatio[],
+ double VRatioChroma[],
+ double DestinationLinesToRequestRowInVBlank[],
+ double DestinationLinesToRequestRowInImmediateFlip[],
+ bool DCCEnable[],
+ double PixelClock[],
+ int BytePerPixelY[],
+ int BytePerPixelC[],
+ enum scan_direction_class SourceScan[],
+ int dpte_row_height[],
+ int dpte_row_height_chroma[],
+ int meta_row_width[],
+ int meta_row_width_chroma[],
+ int meta_row_height[],
+ int meta_row_height_chroma[],
+ int meta_req_width[],
+ int meta_req_width_chroma[],
+ int meta_req_height[],
+ int meta_req_height_chroma[],
+ int dpte_group_bytes[],
+ int PTERequestSizeY[],
+ int PTERequestSizeC[],
+ int PixelPTEReqWidthY[],
+ int PixelPTEReqHeightY[],
+ int PixelPTEReqWidthC[],
+ int PixelPTEReqHeightC[],
+ int dpte_row_width_luma_ub[],
+ 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[]);
+
+static void CalculateVMGroupAndRequestTimes(
+ unsigned int NumberOfActivePlanes,
+ bool GPUVMEnable,
+ unsigned int GPUVMMaxPageTableLevels,
+ unsigned int HTotal[],
+ int BytePerPixelC[],
+ double DestinationLinesToRequestVMInVBlank[],
+ double DestinationLinesToRequestVMInImmediateFlip[],
+ bool DCCEnable[],
+ double PixelClock[],
+ int dpte_row_width_luma_ub[],
+ int dpte_row_width_chroma_ub[],
+ int vm_group_bytes[],
+ unsigned int dpde0_bytes_per_frame_ub_l[],
+ unsigned int dpde0_bytes_per_frame_ub_c[],
+ int meta_pte_bytes_per_frame_ub_l[],
+ int meta_pte_bytes_per_frame_ub_c[],
+ double TimePerVMGroupVBlank[],
+ double TimePerVMGroupFlip[],
+ double TimePerVMRequestVBlank[],
+ double TimePerVMRequestFlip[]);
+
+static void CalculateStutterEfficiency(
+ struct display_mode_lib *mode_lib,
+ int CompressedBufferSizeInkByte,
+ bool UnboundedRequestEnabled,
+ int ConfigReturnBufferSizeInKByte,
+ int MetaFIFOSizeInKEntries,
+ int ZeroSizeBufferEntries,
+ int NumberOfActivePlanes,
+ int ROBBufferSizeInKByte,
+ double TotalDataReadBandwidth,
+ double DCFCLK,
+ double ReturnBW,
+ double COMPBUF_RESERVED_SPACE_64B,
+ double COMPBUF_RESERVED_SPACE_ZS,
+ double SRExitTime,
+ double SRExitZ8Time,
+ bool SynchronizedVBlank,
+ double Z8StutterEnterPlusExitWatermark,
+ double StutterEnterPlusExitWatermark,
+ bool ProgressiveToInterlaceUnitInOPP,
+ bool Interlace[],
+ double MinTTUVBlank[],
+ int DPPPerPlane[],
+ unsigned int DETBufferSizeY[],
+ int BytePerPixelY[],
+ double BytePerPixelDETY[],
+ double SwathWidthY[],
+ int SwathHeightY[],
+ int SwathHeightC[],
+ double NetDCCRateLuma[],
+ double NetDCCRateChroma[],
+ double DCCFractionOfZeroSizeRequestsLuma[],
+ double DCCFractionOfZeroSizeRequestsChroma[],
+ int HTotal[],
+ int VTotal[],
+ double PixelClock[],
+ double VRatio[],
+ enum scan_direction_class SourceScan[],
+ int BlockHeight256BytesY[],
+ int BlockWidth256BytesY[],
+ int BlockHeight256BytesC[],
+ int BlockWidth256BytesC[],
+ int DCCYMaxUncompressedBlock[],
+ int DCCCMaxUncompressedBlock[],
+ int VActive[],
+ bool DCCEnable[],
+ bool WritebackEnable[],
+ double ReadBandwidthPlaneLuma[],
+ double ReadBandwidthPlaneChroma[],
+ double meta_row_bw[],
+ double dpte_row_bw[],
+ double *StutterEfficiencyNotIncludingVBlank,
+ double *StutterEfficiency,
+ int *NumberOfStutterBurstsPerFrame,
+ double *Z8StutterEfficiencyNotIncludingVBlank,
+ double *Z8StutterEfficiency,
+ int *Z8NumberOfStutterBurstsPerFrame,
+ double *StutterPeriod);
+
+static void CalculateSwathAndDETConfiguration(
+ bool ForceSingleDPP,
+ int NumberOfActivePlanes,
+ unsigned int DETBufferSizeInKByte,
+ double MaximumSwathWidthLuma[],
+ double MaximumSwathWidthChroma[],
+ enum scan_direction_class SourceScan[],
+ enum source_format_class SourcePixelFormat[],
+ enum dm_swizzle_mode SurfaceTiling[],
+ int ViewportWidth[],
+ int ViewportHeight[],
+ int SurfaceWidthY[],
+ int SurfaceWidthC[],
+ int SurfaceHeightY[],
+ int SurfaceHeightC[],
+ int Read256BytesBlockHeightY[],
+ int Read256BytesBlockHeightC[],
+ int Read256BytesBlockWidthY[],
+ int Read256BytesBlockWidthC[],
+ enum odm_combine_mode ODMCombineEnabled[],
+ int BlendingAndTiming[],
+ int BytePerPixY[],
+ int BytePerPixC[],
+ double BytePerPixDETY[],
+ double BytePerPixDETC[],
+ int HActive[],
+ double HRatio[],
+ double HRatioChroma[],
+ int DPPPerPlane[],
+ int swath_width_luma_ub[],
+ int swath_width_chroma_ub[],
+ double SwathWidth[],
+ double SwathWidthChroma[],
+ int SwathHeightY[],
+ int SwathHeightC[],
+ unsigned int DETBufferSizeY[],
+ unsigned int DETBufferSizeC[],
+ bool ViewportSizeSupportPerPlane[],
+ bool *ViewportSizeSupport);
+static void CalculateSwathWidth(
+ bool ForceSingleDPP,
+ int NumberOfActivePlanes,
+ enum source_format_class SourcePixelFormat[],
+ enum scan_direction_class SourceScan[],
+ int ViewportWidth[],
+ int ViewportHeight[],
+ int SurfaceWidthY[],
+ int SurfaceWidthC[],
+ int SurfaceHeightY[],
+ int SurfaceHeightC[],
+ enum odm_combine_mode ODMCombineEnabled[],
+ int BytePerPixY[],
+ int BytePerPixC[],
+ int Read256BytesBlockHeightY[],
+ int Read256BytesBlockHeightC[],
+ int Read256BytesBlockWidthY[],
+ int Read256BytesBlockWidthC[],
+ int BlendingAndTiming[],
+ int HActive[],
+ double HRatio[],
+ int DPPPerPlane[],
+ double SwathWidthSingleDPPY[],
+ double SwathWidthSingleDPPC[],
+ double SwathWidthY[],
+ double SwathWidthC[],
+ int MaximumSwathHeightY[],
+ int MaximumSwathHeightC[],
+ int swath_width_luma_ub[],
+ int swath_width_chroma_ub[]);
+
+static double CalculateExtraLatency(
+ int RoundTripPingLatencyCycles,
+ int ReorderingBytes,
+ double DCFCLK,
+ int TotalNumberOfActiveDPP,
+ int PixelChunkSizeInKByte,
+ int TotalNumberOfDCCActiveDPP,
+ int MetaChunkSize,
+ double ReturnBW,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ int NumberOfActivePlanes,
+ int NumberOfDPP[],
+ int dpte_group_bytes[],
+ double HostVMInefficiencyFactor,
+ double HostVMMinPageSize,
+ int HostVMMaxNonCachedPageTableLevels);
+
+static double CalculateExtraLatencyBytes(
+ int ReorderingBytes,
+ int TotalNumberOfActiveDPP,
+ int PixelChunkSizeInKByte,
+ int TotalNumberOfDCCActiveDPP,
+ int MetaChunkSize,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ int NumberOfActivePlanes,
+ int NumberOfDPP[],
+ int dpte_group_bytes[],
+ double HostVMInefficiencyFactor,
+ double HostVMMinPageSize,
+ int HostVMMaxNonCachedPageTableLevels);
+
+static double CalculateUrgentLatency(
+ double UrgentLatencyPixelDataOnly,
+ double UrgentLatencyPixelMixedWithVMData,
+ double UrgentLatencyVMDataOnly,
+ bool DoUrgentLatencyAdjustment,
+ double UrgentLatencyAdjustmentFabricClockComponent,
+ double UrgentLatencyAdjustmentFabricClockReference,
+ double FabricClockSingle);
+
+static void CalculateUnboundedRequestAndCompressedBufferSize(
+ unsigned int DETBufferSizeInKByte,
+ int ConfigReturnBufferSizeInKByte,
+ enum unbounded_requesting_policy UseUnboundedRequestingFinal,
+ int TotalActiveDPP,
+ bool NoChromaPlanes,
+ int MaxNumDPP,
+ int CompressedBufferSegmentSizeInkByteFinal,
+ enum output_encoder_class *Output,
+ bool *UnboundedRequestEnabled,
+ int *CompressedBufferSizeInkByte);
+
+static bool UnboundedRequest(enum unbounded_requesting_policy UseUnboundedRequestingFinal, int TotalNumberOfActiveDPP, bool NoChroma, enum output_encoder_class Output);
+static unsigned int CalculateMaxVStartup(
+ unsigned int VTotal,
+ unsigned int VActive,
+ unsigned int VBlankNom,
+ unsigned int HTotal,
+ double PixelClock,
+ bool ProgressiveTointerlaceUnitinOPP,
+ bool Interlace,
+ unsigned int VBlankNomDefaultUS,
+ double WritebackDelayTime);
+
+void dml314_recalculate(struct display_mode_lib *mode_lib)
+{
+ ModeSupportAndSystemConfiguration(mode_lib);
+ PixelClockAdjustmentForProgressiveToInterlaceUnit(mode_lib);
+ DisplayPipeConfiguration(mode_lib);
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: Calling DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerformanceCalculation\n", __func__);
+#endif
+ DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerformanceCalculation(mode_lib);
+}
+
+static unsigned int dscceComputeDelay(
+ unsigned int bpc,
+ double BPP,
+ unsigned int sliceWidth,
+ unsigned int numSlices,
+ enum output_format_class pixelFormat,
+ enum output_encoder_class Output)
+{
+ // valid bpc = source bits per component in the set of {8, 10, 12}
+ // valid bpp = increments of 1/16 of a bit
+ // min = 6/7/8 in N420/N422/444, respectively
+ // max = such that compression is 1:1
+ //valid sliceWidth = number of pixels per slice line, must be less than or equal to 5184/numSlices (or 4096/numSlices in 420 mode)
+ //valid numSlices = number of slices in the horiziontal direction per DSC engine in the set of {1, 2, 3, 4}
+ //valid pixelFormat = pixel/color format in the set of {:N444_RGB, :S422, :N422, :N420}
+
+ // fixed value
+ unsigned int rcModelSize = 8192;
+
+ // N422/N420 operate at 2 pixels per clock
+ unsigned int pixelsPerClock = 0, lstall, D, initalXmitDelay, w, s, ix, wx, P, l0, a, ax, L, Delay, pixels;
+
+ if (pixelFormat == dm_420)
+ pixelsPerClock = 2;
+ else if (pixelFormat == dm_444)
+ pixelsPerClock = 1;
+ else if (pixelFormat == dm_n422)
+ pixelsPerClock = 2;
+ // #all other modes operate at 1 pixel per clock
+ else
+ pixelsPerClock = 1;
+
+ //initial transmit delay as per PPS
+ initalXmitDelay = dml_round(rcModelSize / 2.0 / BPP / pixelsPerClock);
+
+ //compute ssm delay
+ if (bpc == 8)
+ D = 81;
+ else if (bpc == 10)
+ D = 89;
+ else
+ D = 113;
+
+ //divide by pixel per cycle to compute slice width as seen by DSC
+ w = sliceWidth / pixelsPerClock;
+
+ //422 mode has an additional cycle of delay
+ if (pixelFormat == dm_420 || pixelFormat == dm_444 || pixelFormat == dm_n422)
+ s = 0;
+ else
+ s = 1;
+
+ //main calculation for the dscce
+ 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;
+
+ //dsc processes 3 pixel containers per cycle and a container can contain 1 or 2 pixels
+ pixels = Delay * 3 * pixelsPerClock;
+ return pixels;
+}
+
+static unsigned int dscComputeDelay(enum output_format_class pixelFormat, enum output_encoder_class Output)
+{
+ unsigned int Delay = 0;
+
+ if (pixelFormat == dm_420) {
+ // sfr
+ Delay = Delay + 2;
+ // dsccif
+ Delay = Delay + 0;
+ // dscc - input deserializer
+ Delay = Delay + 3;
+ // dscc gets pixels every other cycle
+ Delay = Delay + 2;
+ // dscc - input cdc fifo
+ Delay = Delay + 12;
+ // dscc gets pixels every other cycle
+ Delay = Delay + 13;
+ // dscc - cdc uncertainty
+ Delay = Delay + 2;
+ // dscc - output cdc fifo
+ Delay = Delay + 7;
+ // dscc gets pixels every other cycle
+ Delay = Delay + 3;
+ // dscc - cdc uncertainty
+ Delay = Delay + 2;
+ // dscc - output serializer
+ Delay = Delay + 1;
+ // sft
+ Delay = Delay + 1;
+ } else if (pixelFormat == dm_n422) {
+ // sfr
+ Delay = Delay + 2;
+ // dsccif
+ Delay = Delay + 1;
+ // dscc - input deserializer
+ Delay = Delay + 5;
+ // dscc - input cdc fifo
+ Delay = Delay + 25;
+ // dscc - cdc uncertainty
+ Delay = Delay + 2;
+ // dscc - output cdc fifo
+ Delay = Delay + 10;
+ // dscc - cdc uncertainty
+ Delay = Delay + 2;
+ // dscc - output serializer
+ Delay = Delay + 1;
+ // sft
+ Delay = Delay + 1;
+ } else {
+ // sfr
+ Delay = Delay + 2;
+ // dsccif
+ Delay = Delay + 0;
+ // dscc - input deserializer
+ Delay = Delay + 3;
+ // dscc - input cdc fifo
+ Delay = Delay + 12;
+ // dscc - cdc uncertainty
+ Delay = Delay + 2;
+ // dscc - output cdc fifo
+ Delay = Delay + 7;
+ // dscc - output serializer
+ Delay = Delay + 1;
+ // dscc - cdc uncertainty
+ Delay = Delay + 2;
+ // sft
+ Delay = Delay + 1;
+ }
+
+ return Delay;
+}
+
+static bool CalculatePrefetchSchedule(
+ struct display_mode_lib *mode_lib,
+ double HostVMInefficiencyFactor,
+ Pipe *myPipe,
+ unsigned int DSCDelay,
+ double DPPCLKDelaySubtotalPlusCNVCFormater,
+ double DPPCLKDelaySCL,
+ double DPPCLKDelaySCLLBOnly,
+ double DPPCLKDelayCNVCCursor,
+ double DISPCLKDelaySubtotal,
+ unsigned int DPP_RECOUT_WIDTH,
+ enum output_format_class OutputFormat,
+ unsigned int MaxInterDCNTileRepeaters,
+ unsigned int VStartup,
+ unsigned int MaxVStartup,
+ unsigned int GPUVMPageTableLevels,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ unsigned int HostVMMaxNonCachedPageTableLevels,
+ double HostVMMinPageSize,
+ bool DynamicMetadataEnable,
+ bool DynamicMetadataVMEnabled,
+ int DynamicMetadataLinesBeforeActiveRequired,
+ unsigned int DynamicMetadataTransmittedBytes,
+ double UrgentLatency,
+ double UrgentExtraLatency,
+ double TCalc,
+ unsigned int PDEAndMetaPTEBytesFrame,
+ unsigned int MetaRowByte,
+ unsigned int PixelPTEBytesPerRow,
+ double PrefetchSourceLinesY,
+ unsigned int SwathWidthY,
+ double VInitPreFillY,
+ unsigned int MaxNumSwathY,
+ double PrefetchSourceLinesC,
+ unsigned int SwathWidthC,
+ double VInitPreFillC,
+ unsigned int MaxNumSwathC,
+ int swath_width_luma_ub,
+ int swath_width_chroma_ub,
+ unsigned int SwathHeightY,
+ unsigned int SwathHeightC,
+ double TWait,
+ 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,
+ int *VUpdateOffsetPix,
+ double *VUpdateWidthPix,
+ double *VReadyOffsetPix)
+{
+ bool MyError = false;
+ unsigned int DPPCycles, DISPCLKCycles;
+ double DSTTotalPixelsAfterScaler;
+ double LineTime;
+ double dst_y_prefetch_equ;
+ double Tsw_oto;
+ double prefetch_bw_oto;
+ double prefetch_bw_pr;
+ 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;
+ 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;
+ int max_vratio_pre = 4;
+ double min_Lsw;
+ double Tsw_est1 = 0;
+ double Tsw_est3 = 0;
+ double max_Tsw = 0;
+
+ if (GPUVMEnable == true && HostVMEnable == true) {
+ HostVMDynamicLevelsTrips = HostVMMaxNonCachedPageTableLevels;
+ } else {
+ HostVMDynamicLevelsTrips = 0;
+ }
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: GPUVMEnable=%d HostVMEnable=%d HostVMInefficiencyFactor=%f\n", __func__, GPUVMEnable, HostVMEnable, HostVMInefficiencyFactor);
+#endif
+ CalculateVupdateAndDynamicMetadataParameters(
+ MaxInterDCNTileRepeaters,
+ myPipe->DPPCLK,
+ myPipe->DISPCLK,
+ myPipe->DCFCLKDeepSleep,
+ myPipe->PixelClock,
+ myPipe->HTotal,
+ myPipe->VBlank,
+ DynamicMetadataTransmittedBytes,
+ DynamicMetadataLinesBeforeActiveRequired,
+ 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 * (GPUVMPageTableLevels * (HostVMDynamicLevelsTrips + 1) - 1);
+
+#ifdef __DML_VBA_ALLOW_DELTA__
+ if (DynamicMetadataVMEnabled == true && GPUVMEnable == true) {
+#else
+ if (DynamicMetadataVMEnabled == true) {
+#endif
+ *Tdmdl = TWait + Tvm_trips + trip_to_mem;
+ } else {
+ *Tdmdl = TWait + UrgentExtraLatency;
+ }
+
+#ifdef __DML_VBA_ALLOW_DELTA__
+ if (DynamicMetadataEnable == false) {
+ *Tdmdl = 0.0;
+ }
+#endif
+
+ if (DynamicMetadataEnable == true) {
+ if (VStartup * LineTime < *TSetup + *Tdmdl + Tdmbf + Tdmec + Tdmsks) {
+ *NotEnoughTimeForDynamicMetadata = true;
+ 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);
+ } else {
+ *NotEnoughTimeForDynamicMetadata = false;
+ }
+ } else {
+ *NotEnoughTimeForDynamicMetadata = false;
+ }
+
+ *Tdmdl_vm = (DynamicMetadataEnable == true && DynamicMetadataVMEnabled == true && GPUVMEnable == true ? TWait + Tvm_trips : 0);
+
+ if (myPipe->ScalerEnabled)
+ DPPCycles = DPPCLKDelaySubtotalPlusCNVCFormater + DPPCLKDelaySCL;
+ else
+ DPPCycles = DPPCLKDelaySubtotalPlusCNVCFormater + DPPCLKDelaySCLLBOnly;
+
+ DPPCycles = DPPCycles + myPipe->NumberOfCursors * DPPCLKDelayCNVCCursor;
+
+ DISPCLKCycles = DISPCLKDelaySubtotal;
+
+ if (myPipe->DPPCLK == 0.0 || myPipe->DISPCLK == 0.0)
+ return true;
+
+ *DSTXAfterScaler = DPPCycles * myPipe->PixelClock / myPipe->DPPCLK + DISPCLKCycles * myPipe->PixelClock / myPipe->DISPCLK + DSCDelay;
+
+#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: DSTXAfterScaler: %d\n", __func__, *DSTXAfterScaler);
+ dml_print("DML::%s: ODMCombineIsEnabled: %d\n", __func__, myPipe->ODMCombineIsEnabled);
+#endif
+
+ *DSTXAfterScaler = *DSTXAfterScaler + ((myPipe->ODMCombineIsEnabled) ? 18 : 0) + (myPipe->DPPPerPlane - 1) * DPP_RECOUT_WIDTH;
+
+ if (OutputFormat == 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);
+#endif
+
+ MyError = false;
+
+ Tr0_trips = trip_to_mem * (HostVMDynamicLevelsTrips + 1);
+ Tvm_trips_rounded = dml_ceil(4.0 * Tvm_trips / LineTime, 1) / 4 * LineTime;
+ Tr0_trips_rounded = dml_ceil(4.0 * Tr0_trips / LineTime, 1) / 4 * LineTime;
+
+#ifdef __DML_VBA_ALLOW_DELTA__
+ if (!myPipe->DCCEnable) {
+ Tr0_trips = 0.0;
+ Tr0_trips_rounded = 0.0;
+ }
+#endif
+
+ if (!GPUVMEnable) {
+ Tvm_trips = 0.0;
+ Tvm_trips_rounded = 0.0;
+ }
+
+ if (GPUVMEnable) {
+ if (GPUVMPageTableLevels >= 3) {
+ *Tno_bw = UrgentExtraLatency + trip_to_mem * ((GPUVMPageTableLevels - 2) - 1);
+ } else {
+ *Tno_bw = 0;
+ }
+ } else if (!myPipe->DCCEnable) {
+ *Tno_bw = LineTime;
+ } else {
+ *Tno_bw = LineTime / 4;
+ }
+
+ 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;
+ /*rev 99*/
+ prefetch_bw_pr = dml_min(1, bytes_pp * myPipe->PixelClock / (double) myPipe->DPPPerPlane);
+ max_Tsw = dml_max(PrefetchSourceLinesY, PrefetchSourceLinesC) * LineTime;
+ 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->DPPPerPlane, prefetch_sw_bytes / (dml_max(PrefetchSourceLinesY, PrefetchSourceLinesC) * LineTime));
+ prefetch_bw_oto = dml_max(prefetch_bw_pr, prefetch_sw_bytes / max_Tsw);
+
+ min_Lsw = dml_max(1, dml_max(PrefetchSourceLinesY, PrefetchSourceLinesC) / max_vratio_pre);
+ Lsw_oto = dml_ceil(4 * dml_max(prefetch_sw_bytes / prefetch_bw_oto / LineTime, min_Lsw), 1) / 4;
+ Tsw_oto = Lsw_oto * LineTime;
+
+ prefetch_bw_oto = (PrefetchSourceLinesY * swath_width_luma_ub * myPipe->BytePerPixelY + PrefetchSourceLinesC * swath_width_chroma_ub * myPipe->BytePerPixelC) / Tsw_oto;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML: HTotal: %d\n", myPipe->HTotal);
+ dml_print("DML: prefetch_bw_oto: %f\n", prefetch_bw_oto);
+ dml_print("DML: PrefetchSourceLinesY: %f\n", PrefetchSourceLinesY);
+ dml_print("DML: swath_width_luma_ub: %d\n", swath_width_luma_ub);
+ dml_print("DML: BytePerPixelY: %d\n", myPipe->BytePerPixelY);
+ dml_print("DML: Tsw_oto: %f\n", Tsw_oto);
+#endif
+
+ if (GPUVMEnable == true)
+ Tvm_oto = dml_max3(*Tno_bw + PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor / prefetch_bw_oto, Tvm_trips, LineTime / 4.0);
+ else
+ Tvm_oto = LineTime / 4.0;
+
+ if ((GPUVMEnable == true || myPipe->DCCEnable == true)) {
+ Tr0_oto = dml_max4((MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor) / prefetch_bw_oto, Tr0_trips, // PREVIOUS_ERROR (missing this term)
+ LineTime - Tvm_oto,
+ LineTime / 4);
+ } else {
+ Tr0_oto = (LineTime - Tvm_oto) / 2.0;
+ }
+
+#ifdef __DML_VBA_DEBUG__
+ 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: PDEAndMetaPTEBytesFrame = %d\n", __func__, MetaRowByte);
+ 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: 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);
+#endif
+
+ 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 + *DSTXAfterScaler / myPipe->HTotal);
+ dst_y_prefetch_equ = dml_floor(4.0 * (dst_y_prefetch_equ + 0.125), 1) / 4.0;
+ Tpre_rounded = dst_y_prefetch_equ * LineTime;
+
+ dep_bytes = dml_max(PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor, MetaRowByte + PixelPTEBytesPerRow * HostVMInefficiencyFactor);
+
+ if (prefetch_sw_bytes < dep_bytes)
+ prefetch_sw_bytes = 2 * dep_bytes;
+
+ dml_print("DML: dst_y_prefetch_oto: %f\n", dst_y_prefetch_oto);
+ dml_print("DML: Tvm_oto_lines: %f\n", Tvm_oto_lines);
+ dml_print("DML: Tr0_oto_lines: %f\n", Tr0_oto_lines);
+ dml_print("DML: Lsw_oto: %f\n", Lsw_oto);
+ dml_print("DML: LineTime: %f\n", LineTime);
+ dml_print("DML: dst_y_prefetch_equ: %f (after round)\n", dst_y_prefetch_equ);
+
+ dml_print("DML: LineTime: %f\n", LineTime);
+ dml_print("DML: VStartup: %d\n", VStartup);
+ dml_print("DML: Tvstartup: %fus - time between vstartup and first pixel of active\n", VStartup * LineTime);
+ dml_print("DML: TSetup: %fus - time from vstartup to vready\n", *TSetup);
+ dml_print("DML: TCalc: %fus - time for calculations in dchub starting at vready\n", TCalc);
+ dml_print("DML: TWait: %fus - time for fabric to become ready max(pstate exit,cstate enter/exit, urgent latency) after TCalc\n", TWait);
+ dml_print("DML: Tdmbf: %fus - time for dmd transfer from dchub to dio output buffer\n", Tdmbf);
+ dml_print("DML: Tdmec: %fus - time dio takes to transfer dmd\n", Tdmec);
+ dml_print("DML: Tdmsks: %fus - time before active dmd must complete transmission at dio\n", Tdmsks);
+ dml_print("DML: Tdmdl_vm: %fus - time for vm stages of dmd\n", *Tdmdl_vm);
+ dml_print("DML: Tdmdl: %fus - time for fabric to become ready and fetch dmd\n", *Tdmdl);
+ dml_print("DML: DSTXAfterScaler: %f pixels - number of pixel clocks pipeline and buffer delay after scaler\n", *DSTXAfterScaler);
+ dml_print("DML: DSTYAfterScaler: %f lines - number of lines of pipeline and buffer delay after scaler\n", *DSTYAfterScaler);
+
+ *PrefetchBandwidth = 0;
+ *DestinationLinesToRequestVMInVBlank = 0;
+ *DestinationLinesToRequestRowInVBlank = 0;
+ *VRatioPrefetchY = 0;
+ *VRatioPrefetchC = 0;
+ *RequiredPrefetchPixDataBWLuma = 0;
+ if (dst_y_prefetch_equ > 1) {
+ 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;
+ }
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: Tpre_rounded: %f\n", __func__, Tpre_rounded);
+ dml_print("DML::%s: Tvm_trips_rounded: %f\n", __func__, Tvm_trips_rounded);
+ dml_print("DML::%s: PrefetchBandwidth3: %f\n", __func__, PrefetchBandwidth3);
+#endif
+ 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;
+
+ {
+ 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 (GPUVMEnable == true) {
+ Tvm_equ = dml_max3(*Tno_bw + PDEAndMetaPTEBytesFrame * HostVMInefficiencyFactor / prefetch_bw_equ, Tvm_trips, LineTime / 4);
+ } else {
+ Tvm_equ = LineTime / 4;
+ }
+
+ if ((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;
+ dml_print("DML: prefetch_bw_equ equals 0! %s:%d\n", __FILE__, __LINE__);
+ }
+ }
+
+ if (dst_y_prefetch_oto < dst_y_prefetch_equ) {
+ *DestinationLinesForPrefetch = dst_y_prefetch_oto;
+ TimeForFetchingMetaPTE = Tvm_oto;
+ TimeForFetchingRowInVBlank = Tr0_oto;
+ *PrefetchBandwidth = prefetch_bw_oto;
+ } else {
+ *DestinationLinesForPrefetch = dst_y_prefetch_equ;
+ TimeForFetchingMetaPTE = Tvm_equ;
+ TimeForFetchingRowInVBlank = Tr0_equ;
+ *PrefetchBandwidth = prefetch_bw_equ;
+ }
+
+ *DestinationLinesToRequestVMInVBlank = dml_ceil(4.0 * TimeForFetchingMetaPTE / LineTime, 1.0) / 4.0;
+
+ *DestinationLinesToRequestRowInVBlank = dml_ceil(4.0 * TimeForFetchingRowInVBlank / LineTime, 1.0) / 4.0;
+
+#ifdef __DML_VBA_ALLOW_DELTA__
+ LinesToRequestPrefetchPixelData = *DestinationLinesForPrefetch
+ // See note above dated 5/30/2018
+ // - ((NumberOfCursors > 0 || GPUVMEnable || DCCEnable) ?
+ - ((GPUVMEnable || myPipe->DCCEnable) ? (*DestinationLinesToRequestVMInVBlank + 2 * *DestinationLinesToRequestRowInVBlank) : 0.0); // TODO: Did someone else add this??
+#else
+ LinesToRequestPrefetchPixelData = *DestinationLinesForPrefetch - *DestinationLinesToRequestVMInVBlank - 2 * *DestinationLinesToRequestRowInVBlank;
+#endif
+
+#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 > 0 && 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 = %f\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;
+ dml_print("DML: MyErr set %s:%d\n", __FILE__, __LINE__);
+ *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 = %f\n", __func__, VInitPreFillC);
+#endif
+ if ((SwathHeightC > 4) || VInitPreFillC > 3) {
+ 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;
+ dml_print("DML: MyErr set %s:%d\n", __FILE__, __LINE__);
+ *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
+ }
+
+#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);
+#endif
+
+ *RequiredPrefetchPixDataBWLuma = (double) PrefetchSourceLinesY / LinesToRequestPrefetchPixelData * myPipe->BytePerPixelY * swath_width_luma_ub / LineTime;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: RequiredPrefetchPixDataBWLuma = %f\n", __func__, *RequiredPrefetchPixDataBWLuma);
+#endif
+
+ *RequiredPrefetchPixDataBWChroma = (double) PrefetchSourceLinesC / LinesToRequestPrefetchPixelData * myPipe->BytePerPixelC * swath_width_chroma_ub
+ / LineTime;
+ } else {
+ MyError = true;
+ dml_print("DML: MyErr set %s:%d\n", __FILE__, __LINE__);
+ dml_print("DML: LinesToRequestPrefetchPixelData: %f, should be > 0\n", LinesToRequestPrefetchPixelData);
+ *VRatioPrefetchY = 0;
+ *VRatioPrefetchC = 0;
+ *RequiredPrefetchPixDataBWLuma = 0;
+ *RequiredPrefetchPixDataBWChroma = 0;
+ }
+
+ 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: Tr0: %fus - time to fetch first row of data pagetables and first row of meta data (done in parallel)\n", TimeForFetchingRowInVBlank);
+ dml_print(
+ "DML: Tsw: %fus = time to fetch enough pixel data and cursor data to feed the scalers init position and detile\n",
+ (double) LinesToRequestPrefetchPixelData * LineTime);
+ 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);
+
+ } else {
+ MyError = true;
+ dml_print("DML: MyErr set %s:%d\n", __FILE__, __LINE__);
+ }
+
+ {
+ 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;
+ dml_print("DML: MyErr set %s:%d\n", __FILE__, __LINE__);
+ }
+
+ 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;
+ dml_print("DML: MyErr set %s:%d\n", __FILE__, __LINE__);
+ }
+
+ *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;
+}
+
+static double RoundToDFSGranularityUp(double Clock, double VCOSpeed)
+{
+ return VCOSpeed * 4 / dml_floor(VCOSpeed * 4 / Clock, 1);
+}
+
+static double RoundToDFSGranularityDown(double Clock, double VCOSpeed)
+{
+ return VCOSpeed * 4 / dml_ceil(VCOSpeed * 4.0 / Clock, 1);
+}
+
+static void CalculateDCCConfiguration(
+ bool DCCEnabled,
+ bool DCCProgrammingAssumesScanDirectionUnknown,
+ enum source_format_class SourcePixelFormat,
+ unsigned int SurfaceWidthLuma,
+ unsigned int SurfaceWidthChroma,
+ unsigned int SurfaceHeightLuma,
+ unsigned int SurfaceHeightChroma,
+ double DETBufferSize,
+ unsigned int RequestHeight256ByteLuma,
+ unsigned int RequestHeight256ByteChroma,
+ enum dm_swizzle_mode TilingFormat,
+ unsigned int BytePerPixelY,
+ unsigned int BytePerPixelC,
+ double BytePerPixelDETY,
+ double BytePerPixelDETC,
+ enum scan_direction_class ScanOrientation,
+ unsigned int *MaxUncompressedBlockLuma,
+ unsigned int *MaxUncompressedBlockChroma,
+ unsigned int *MaxCompressedBlockLuma,
+ unsigned int *MaxCompressedBlockChroma,
+ unsigned int *IndependentBlockLuma,
+ unsigned int *IndependentBlockChroma)
+{
+ int yuv420;
+ int horz_div_l;
+ int horz_div_c;
+ int vert_div_l;
+ int vert_div_c;
+
+ int swath_buf_size;
+ double detile_buf_vp_horz_limit;
+ double detile_buf_vp_vert_limit;
+
+ int MAS_vp_horz_limit;
+ int MAS_vp_vert_limit;
+ int max_vp_horz_width;
+ int max_vp_vert_height;
+ int eff_surf_width_l;
+ int eff_surf_width_c;
+ int eff_surf_height_l;
+ int eff_surf_height_c;
+
+ int full_swath_bytes_horz_wc_l;
+ int full_swath_bytes_horz_wc_c;
+ int full_swath_bytes_vert_wc_l;
+ int full_swath_bytes_vert_wc_c;
+ int req128_horz_wc_l;
+ int req128_horz_wc_c;
+ int req128_vert_wc_l;
+ int req128_vert_wc_c;
+ int segment_order_horz_contiguous_luma;
+ int segment_order_horz_contiguous_chroma;
+ int segment_order_vert_contiguous_luma;
+ int segment_order_vert_contiguous_chroma;
+
+ enum {
+ REQ_256Bytes, REQ_128BytesNonContiguous, REQ_128BytesContiguous, REQ_NA
+ } RequestType;
+ RequestType RequestLuma;
+ RequestType RequestChroma;
+
+ 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 (BytePerPixelY == 8 && (TilingFormat == dm_sw_64kb_s || TilingFormat == dm_sw_64kb_s_t || TilingFormat == dm_sw_64kb_s_x))
+ horz_div_l = 0;
+ if (BytePerPixelC == 8 && (TilingFormat == dm_sw_64kb_s || TilingFormat == dm_sw_64kb_s_t || TilingFormat == dm_sw_64kb_s_x))
+ horz_div_c = 0;
+
+ if (BytePerPixelC == 0) {
+ swath_buf_size = DETBufferSize / 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 = DETBufferSize / 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 : 5760;
+ MAS_vp_vert_limit = (BytePerPixelC > 0 ? 2880 : 5760);
+ 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(full_swath_bytes_horz_wc_l * 2 / 3, 256);
+ full_swath_bytes_horz_wc_c = dml_ceil(full_swath_bytes_horz_wc_c * 2 / 3, 256);
+ full_swath_bytes_vert_wc_l = dml_ceil(full_swath_bytes_vert_wc_l * 2 / 3, 256);
+ full_swath_bytes_vert_wc_c = dml_ceil(full_swath_bytes_vert_wc_c * 2 / 3, 256);
+ }
+
+ if (2 * full_swath_bytes_horz_wc_l + 2 * full_swath_bytes_horz_wc_c <= DETBufferSize) {
+ 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 <= DETBufferSize) {
+ 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 <= DETBufferSize) {
+ 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 <= DETBufferSize) {
+ 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 <= DETBufferSize) {
+ 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 <= DETBufferSize) {
+ req128_vert_wc_l = 1;
+ req128_vert_wc_c = 0;
+ } else {
+ req128_vert_wc_l = 1;
+ req128_vert_wc_c = 1;
+ }
+
+ if (BytePerPixelY == 2 || (BytePerPixelY == 4 && TilingFormat != dm_sw_64kb_r_x)) {
+ segment_order_horz_contiguous_luma = 0;
+ } else {
+ segment_order_horz_contiguous_luma = 1;
+ }
+ if ((BytePerPixelY == 8 && (TilingFormat == dm_sw_64kb_d || TilingFormat == dm_sw_64kb_d_x || TilingFormat == dm_sw_64kb_d_t || TilingFormat == dm_sw_64kb_r_x))
+ || (BytePerPixelY == 4 && TilingFormat == dm_sw_64kb_r_x)) {
+ segment_order_vert_contiguous_luma = 0;
+ } else {
+ segment_order_vert_contiguous_luma = 1;
+ }
+ if (BytePerPixelC == 2 || (BytePerPixelC == 4 && TilingFormat != dm_sw_64kb_r_x)) {
+ segment_order_horz_contiguous_chroma = 0;
+ } else {
+ segment_order_horz_contiguous_chroma = 1;
+ }
+ if ((BytePerPixelC == 8 && (TilingFormat == dm_sw_64kb_d || TilingFormat == dm_sw_64kb_d_x || TilingFormat == dm_sw_64kb_d_t || TilingFormat == dm_sw_64kb_r_x))
+ || (BytePerPixelC == 4 && TilingFormat == dm_sw_64kb_r_x)) {
+ segment_order_vert_contiguous_chroma = 0;
+ } else {
+ segment_order_vert_contiguous_chroma = 1;
+ }
+
+ 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 (ScanOrientation != dm_vert) {
+ 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;
+ }
+}
+
+static double CalculatePrefetchSourceLines(
+ struct display_mode_lib *mode_lib,
+ double VRatio,
+ double vtaps,
+ bool Interlace,
+ bool ProgressiveToInterlaceUnitInOPP,
+ unsigned int SwathHeight,
+ unsigned int ViewportYStart,
+ double *VInitPreFill,
+ unsigned int *MaxNumSwath)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ unsigned int MaxPartialSwath;
+
+ if (ProgressiveToInterlaceUnitInOPP)
+ *VInitPreFill = dml_floor((VRatio + vtaps + 1) / 2.0, 1);
+ else
+ *VInitPreFill = dml_floor((VRatio + vtaps + 1 + Interlace * 0.5 * VRatio) / 2.0, 1);
+
+ if (!v->IgnoreViewportPositioning) {
+
+ *MaxNumSwath = dml_ceil((*VInitPreFill - 1.0) / SwathHeight, 1) + 1.0;
+
+ if (*VInitPreFill > 1.0)
+ MaxPartialSwath = (unsigned int) (*VInitPreFill - 2) % SwathHeight;
+ else
+ MaxPartialSwath = (unsigned int) (*VInitPreFill + SwathHeight - 2) % SwathHeight;
+ MaxPartialSwath = dml_max(1U, MaxPartialSwath);
+
+ } else {
+
+ if (ViewportYStart != 0)
+ dml_print("WARNING DML: using viewport y position of 0 even though actual viewport y position is non-zero in prefetch source lines calculation\n");
+
+ *MaxNumSwath = dml_ceil(*VInitPreFill / SwathHeight, 1);
+
+ if (*VInitPreFill > 1.0)
+ MaxPartialSwath = (unsigned int) (*VInitPreFill - 1) % SwathHeight;
+ else
+ MaxPartialSwath = (unsigned int) (*VInitPreFill + SwathHeight - 1) % SwathHeight;
+ }
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: VRatio = %f\n", __func__, VRatio);
+ dml_print("DML::%s: vtaps = %f\n", __func__, vtaps);
+ dml_print("DML::%s: VInitPreFill = %f\n", __func__, *VInitPreFill);
+ dml_print("DML::%s: ProgressiveToInterlaceUnitInOPP = %d\n", __func__, ProgressiveToInterlaceUnitInOPP);
+ dml_print("DML::%s: IgnoreViewportPositioning = %d\n", __func__, v->IgnoreViewportPositioning);
+ dml_print("DML::%s: SwathHeight = %d\n", __func__, SwathHeight);
+ 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 = %d\n", __func__, *MaxNumSwath * SwathHeight + MaxPartialSwath);
+#endif
+ return *MaxNumSwath * SwathHeight + MaxPartialSwath;
+}
+
+static unsigned int CalculateVMAndRowBytes(
+ struct display_mode_lib *mode_lib,
+ bool DCCEnable,
+ unsigned int BlockHeight256Bytes,
+ unsigned int BlockWidth256Bytes,
+ enum source_format_class SourcePixelFormat,
+ unsigned int SurfaceTiling,
+ unsigned int BytePerPixel,
+ enum scan_direction_class ScanDirection,
+ unsigned int SwathWidth,
+ unsigned int ViewportHeight,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ unsigned int HostVMMaxNonCachedPageTableLevels,
+ unsigned int GPUVMMinPageSize,
+ unsigned int HostVMMinPageSize,
+ unsigned int PTEBufferSizeInRequests,
+ unsigned int Pitch,
+ unsigned int DCCMetaPitch,
+ unsigned int *MacroTileWidth,
+ unsigned int *MetaRowByte,
+ unsigned int *PixelPTEBytesPerRow,
+ bool *PTEBufferSizeNotExceeded,
+ int *dpte_row_width_ub,
+ unsigned int *dpte_row_height,
+ unsigned int *MetaRequestWidth,
+ unsigned int *MetaRequestHeight,
+ unsigned int *meta_row_width,
+ unsigned int *meta_row_height,
+ int *vm_group_bytes,
+ unsigned int *dpte_group_bytes,
+ unsigned int *PixelPTEReqWidth,
+ unsigned int *PixelPTEReqHeight,
+ unsigned int *PTERequestSize,
+ int *DPDE0BytesFrame,
+ int *MetaPTEBytesFrame)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ unsigned int MPDEBytesFrame;
+ unsigned int DCCMetaSurfaceBytes;
+ unsigned int MacroTileSizeBytes;
+ unsigned int MacroTileHeight;
+ unsigned int ExtraDPDEBytesFrame;
+ unsigned int PDEAndMetaPTEBytesFrame;
+ unsigned int PixelPTEReqHeightPTEs = 0;
+ unsigned int HostVMDynamicLevels = 0;
+ double FractionOfPTEReturnDrop;
+
+ 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 (ScanDirection != dm_vert) {
+ *meta_row_height = *MetaRequestHeight;
+ *meta_row_width = dml_ceil((double) SwathWidth - 1, *MetaRequestWidth) + *MetaRequestWidth;
+ *MetaRowByte = *meta_row_width * *MetaRequestHeight * BytePerPixel / 256.0;
+ } else {
+ *meta_row_height = *MetaRequestWidth;
+ *meta_row_width = dml_ceil((double) SwathWidth - 1, *MetaRequestHeight) + *MetaRequestHeight;
+ *MetaRowByte = *meta_row_width * *MetaRequestWidth * BytePerPixel / 256.0;
+ }
+ DCCMetaSurfaceBytes = DCCMetaPitch * (dml_ceil(ViewportHeight - 1, 64 * BlockHeight256Bytes) + 64 * BlockHeight256Bytes) * BytePerPixel / 256;
+ if (GPUVMEnable == true) {
+ *MetaPTEBytesFrame = (dml_ceil((double) (DCCMetaSurfaceBytes - 4.0 * 1024.0) / (8 * 4.0 * 1024), 1) + 1) * 64;
+ MPDEBytesFrame = 128 * (v->GPUVMMaxPageTableLevels - 1);
+ } else {
+ *MetaPTEBytesFrame = 0;
+ MPDEBytesFrame = 0;
+ }
+
+ if (DCCEnable != true) {
+ *MetaPTEBytesFrame = 0;
+ MPDEBytesFrame = 0;
+ *MetaRowByte = 0;
+ }
+
+ if (SurfaceTiling == dm_sw_linear) {
+ MacroTileSizeBytes = 256;
+ MacroTileHeight = BlockHeight256Bytes;
+ } else {
+ MacroTileSizeBytes = 65536;
+ MacroTileHeight = 16 * BlockHeight256Bytes;
+ }
+ *MacroTileWidth = MacroTileSizeBytes / BytePerPixel / MacroTileHeight;
+
+ if (GPUVMEnable == true && v->GPUVMMaxPageTableLevels > 1) {
+ if (ScanDirection != dm_vert) {
+ *DPDE0BytesFrame = 64
+ * (dml_ceil(
+ ((Pitch * (dml_ceil(ViewportHeight - 1, MacroTileHeight) + MacroTileHeight) * BytePerPixel) - MacroTileSizeBytes)
+ / (8 * 2097152),
+ 1) + 1);
+ } else {
+ *DPDE0BytesFrame = 64
+ * (dml_ceil(
+ ((Pitch * (dml_ceil((double) SwathWidth - 1, MacroTileHeight) + MacroTileHeight) * BytePerPixel) - MacroTileSizeBytes)
+ / (8 * 2097152),
+ 1) + 1);
+ }
+ ExtraDPDEBytesFrame = 128 * (v->GPUVMMaxPageTableLevels - 2);
+ } else {
+ *DPDE0BytesFrame = 0;
+ ExtraDPDEBytesFrame = 0;
+ }
+
+ PDEAndMetaPTEBytesFrame = *MetaPTEBytesFrame + MPDEBytesFrame + *DPDE0BytesFrame + ExtraDPDEBytesFrame;
+
+#ifdef __DML_VBA_DEBUG__
+ 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);
+#endif
+
+ if (HostVMEnable == true) {
+ PDEAndMetaPTEBytesFrame = PDEAndMetaPTEBytesFrame * (1 + 8 * HostVMDynamicLevels);
+ }
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: PDEAndMetaPTEBytesFrame = %d\n", __func__, PDEAndMetaPTEBytesFrame);
+#endif
+
+ if (SurfaceTiling == dm_sw_linear) {
+ PixelPTEReqHeightPTEs = 1;
+ *PixelPTEReqHeight = 1;
+ *PixelPTEReqWidth = 32768.0 / BytePerPixel;
+ *PTERequestSize = 64;
+ FractionOfPTEReturnDrop = 0;
+ } else if (MacroTileSizeBytes == 4096) {
+ PixelPTEReqHeightPTEs = 1;
+ *PixelPTEReqHeight = MacroTileHeight;
+ *PixelPTEReqWidth = 8 * *MacroTileWidth;
+ *PTERequestSize = 64;
+ if (ScanDirection != dm_vert)
+ FractionOfPTEReturnDrop = 0;
+ else
+ FractionOfPTEReturnDrop = 7 / 8;
+ } else if (GPUVMMinPageSize == 4 && MacroTileSizeBytes > 4096) {
+ PixelPTEReqHeightPTEs = 16;
+ *PixelPTEReqHeight = 16 * BlockHeight256Bytes;
+ *PixelPTEReqWidth = 16 * BlockWidth256Bytes;
+ *PTERequestSize = 128;
+ FractionOfPTEReturnDrop = 0;
+ } else {
+ PixelPTEReqHeightPTEs = 1;
+ *PixelPTEReqHeight = MacroTileHeight;
+ *PixelPTEReqWidth = 8 * *MacroTileWidth;
+ *PTERequestSize = 64;
+ FractionOfPTEReturnDrop = 0;
+ }
+
+ if (SurfaceTiling == dm_sw_linear) {
+ *dpte_row_height = dml_min(128, 1 << (unsigned int) dml_floor(dml_log2(PTEBufferSizeInRequests * *PixelPTEReqWidth / Pitch), 1));
+ *dpte_row_width_ub = (dml_ceil((double)(Pitch * *dpte_row_height - 1) / *PixelPTEReqWidth, 1) + 1) * *PixelPTEReqWidth;
+ *PixelPTEBytesPerRow = *dpte_row_width_ub / *PixelPTEReqWidth * *PTERequestSize;
+ } else if (ScanDirection != dm_vert) {
+ *dpte_row_height = *PixelPTEReqHeight;
+ *dpte_row_width_ub = (dml_ceil((double) (SwathWidth - 1) / *PixelPTEReqWidth, 1) + 1) * *PixelPTEReqWidth;
+ *PixelPTEBytesPerRow = *dpte_row_width_ub / *PixelPTEReqWidth * *PTERequestSize;
+ } else {
+ *dpte_row_height = dml_min(*PixelPTEReqWidth, *MacroTileWidth);
+ *dpte_row_width_ub = (dml_ceil((double) (SwathWidth - 1) / *PixelPTEReqHeight, 1) + 1) * *PixelPTEReqHeight;
+ *PixelPTEBytesPerRow = *dpte_row_width_ub / *PixelPTEReqHeight * *PTERequestSize;
+ }
+
+ if (*PixelPTEBytesPerRow * (1 - FractionOfPTEReturnDrop) <= 64 * PTEBufferSizeInRequests) {
+ *PTEBufferSizeNotExceeded = true;
+ } else {
+ *PTEBufferSizeNotExceeded = false;
+ }
+
+ if (GPUVMEnable != true) {
+ *PixelPTEBytesPerRow = 0;
+ *PTEBufferSizeNotExceeded = true;
+ }
+
+ dml_print("DML: vm_bytes = meta_pte_bytes_per_frame (per_pipe) = MetaPTEBytesFrame = : %i\n", *MetaPTEBytesFrame);
+
+ if (HostVMEnable == true) {
+ *PixelPTEBytesPerRow = *PixelPTEBytesPerRow * (1 + 8 * HostVMDynamicLevels);
+ }
+
+ if (HostVMEnable == true) {
+ *vm_group_bytes = 512;
+ *dpte_group_bytes = 512;
+ } else if (GPUVMEnable == true) {
+ *vm_group_bytes = 2048;
+ if (SurfaceTiling != dm_sw_linear && PixelPTEReqHeightPTEs == 1 && ScanDirection == dm_vert) {
+ *dpte_group_bytes = 512;
+ } else {
+ *dpte_group_bytes = 2048;
+ }
+ } else {
+ *vm_group_bytes = 0;
+ *dpte_group_bytes = 0;
+ }
+ return PDEAndMetaPTEBytesFrame;
+}
+
+static void DISPCLKDPPCLKDCFCLKDeepSleepPrefetchParametersWatermarksAndPerformanceCalculation(struct display_mode_lib *mode_lib)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ unsigned int j, k;
+ double HostVMInefficiencyFactor = 1.0;
+ bool NoChromaPlanes = true;
+ int ReorderBytes;
+ double VMDataOnlyReturnBW;
+ double MaxTotalRDBandwidth = 0;
+ int PrefetchMode = v->PrefetchModePerState[v->VoltageLevel][v->maxMpcComb];
+
+ v->WritebackDISPCLK = 0.0;
+ v->DISPCLKWithRamping = 0;
+ v->DISPCLKWithoutRamping = 0;
+ v->GlobalDPPCLK = 0.0;
+ /* DAL custom code: need to update ReturnBW in case min dcfclk is overridden */
+ {
+ double IdealFabricAndSDPPortBandwidthPerState = dml_min(
+ v->ReturnBusWidth * v->DCFCLKState[v->VoltageLevel][v->maxMpcComb],
+ v->FabricClockPerState[v->VoltageLevel] * v->FabricDatapathToDCNDataReturn);
+ double IdealDRAMBandwidthPerState = v->DRAMSpeedPerState[v->VoltageLevel] * v->NumberOfChannels * v->DRAMChannelWidth;
+
+ if (v->HostVMEnable != true) {
+ v->ReturnBW = dml_min(
+ IdealFabricAndSDPPortBandwidthPerState * v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0,
+ IdealDRAMBandwidthPerState * v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyPixelDataOnly / 100.0);
+ } else {
+ v->ReturnBW = dml_min(
+ IdealFabricAndSDPPortBandwidthPerState * v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0,
+ IdealDRAMBandwidthPerState * v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyPixelMixedWithVMData / 100.0);
+ }
+ }
+ /* End DAL custom code */
+
+ // DISPCLK and DPPCLK Calculation
+ //
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->WritebackEnable[k]) {
+ v->WritebackDISPCLK = dml_max(
+ v->WritebackDISPCLK,
+ dml314_CalculateWriteBackDISPCLK(
+ v->WritebackPixelFormat[k],
+ v->PixelClock[k],
+ v->WritebackHRatio[k],
+ v->WritebackVRatio[k],
+ v->WritebackHTaps[k],
+ v->WritebackVTaps[k],
+ v->WritebackSourceWidth[k],
+ v->WritebackDestinationWidth[k],
+ v->HTotal[k],
+ v->WritebackLineBufferSize));
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->HRatio[k] > 1) {
+ v->PSCL_THROUGHPUT_LUMA[k] = dml_min(
+ v->MaxDCHUBToPSCLThroughput,
+ v->MaxPSCLToLBThroughput * v->HRatio[k] / dml_ceil(v->htaps[k] / 6.0, 1));
+ } else {
+ v->PSCL_THROUGHPUT_LUMA[k] = dml_min(v->MaxDCHUBToPSCLThroughput, v->MaxPSCLToLBThroughput);
+ }
+
+ v->DPPCLKUsingSingleDPPLuma = v->PixelClock[k]
+ * dml_max(
+ v->vtaps[k] / 6.0 * dml_min(1.0, v->HRatio[k]),
+ dml_max(v->HRatio[k] * v->VRatio[k] / v->PSCL_THROUGHPUT_LUMA[k], 1.0));
+
+ if ((v->htaps[k] > 6 || v->vtaps[k] > 6) && v->DPPCLKUsingSingleDPPLuma < 2 * v->PixelClock[k]) {
+ v->DPPCLKUsingSingleDPPLuma = 2 * v->PixelClock[k];
+ }
+
+ if ((v->SourcePixelFormat[k] != dm_420_8 && v->SourcePixelFormat[k] != dm_420_10 && v->SourcePixelFormat[k] != dm_420_12
+ && v->SourcePixelFormat[k] != dm_rgbe_alpha)) {
+ v->PSCL_THROUGHPUT_CHROMA[k] = 0.0;
+ v->DPPCLKUsingSingleDPP[k] = v->DPPCLKUsingSingleDPPLuma;
+ } else {
+ if (v->HRatioChroma[k] > 1) {
+ v->PSCL_THROUGHPUT_CHROMA[k] = dml_min(
+ v->MaxDCHUBToPSCLThroughput,
+ v->MaxPSCLToLBThroughput * v->HRatioChroma[k] / dml_ceil(v->HTAPsChroma[k] / 6.0, 1.0));
+ } else {
+ v->PSCL_THROUGHPUT_CHROMA[k] = dml_min(v->MaxDCHUBToPSCLThroughput, v->MaxPSCLToLBThroughput);
+ }
+ v->DPPCLKUsingSingleDPPChroma = v->PixelClock[k]
+ * dml_max3(
+ v->VTAPsChroma[k] / 6.0 * dml_min(1.0, v->HRatioChroma[k]),
+ v->HRatioChroma[k] * v->VRatioChroma[k] / v->PSCL_THROUGHPUT_CHROMA[k],
+ 1.0);
+
+ if ((v->HTAPsChroma[k] > 6 || v->VTAPsChroma[k] > 6) && v->DPPCLKUsingSingleDPPChroma < 2 * v->PixelClock[k]) {
+ v->DPPCLKUsingSingleDPPChroma = 2 * v->PixelClock[k];
+ }
+
+ v->DPPCLKUsingSingleDPP[k] = dml_max(v->DPPCLKUsingSingleDPPLuma, v->DPPCLKUsingSingleDPPChroma);
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->BlendingAndTiming[k] != k)
+ continue;
+ if (v->ODMCombineEnabled[k] == dm_odm_combine_mode_4to1) {
+ v->DISPCLKWithRamping = dml_max(
+ v->DISPCLKWithRamping,
+ v->PixelClock[k] / 4 * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100)
+ * (1 + v->DISPCLKRampingMargin / 100));
+ v->DISPCLKWithoutRamping = dml_max(
+ v->DISPCLKWithoutRamping,
+ v->PixelClock[k] / 4 * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100));
+ } else if (v->ODMCombineEnabled[k] == dm_odm_combine_mode_2to1) {
+ v->DISPCLKWithRamping = dml_max(
+ v->DISPCLKWithRamping,
+ v->PixelClock[k] / 2 * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100)
+ * (1 + v->DISPCLKRampingMargin / 100));
+ v->DISPCLKWithoutRamping = dml_max(
+ v->DISPCLKWithoutRamping,
+ v->PixelClock[k] / 2 * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100));
+ } else {
+ v->DISPCLKWithRamping = dml_max(
+ v->DISPCLKWithRamping,
+ v->PixelClock[k] * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100) * (1 + v->DISPCLKRampingMargin / 100));
+ v->DISPCLKWithoutRamping = dml_max(
+ v->DISPCLKWithoutRamping,
+ v->PixelClock[k] * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100));
+ }
+ }
+
+ v->DISPCLKWithRamping = dml_max(v->DISPCLKWithRamping, v->WritebackDISPCLK);
+ v->DISPCLKWithoutRamping = dml_max(v->DISPCLKWithoutRamping, v->WritebackDISPCLK);
+
+ ASSERT(v->DISPCLKDPPCLKVCOSpeed != 0);
+ v->DISPCLKWithRampingRoundedToDFSGranularity = RoundToDFSGranularityUp(v->DISPCLKWithRamping, v->DISPCLKDPPCLKVCOSpeed);
+ v->DISPCLKWithoutRampingRoundedToDFSGranularity = RoundToDFSGranularityUp(v->DISPCLKWithoutRamping, v->DISPCLKDPPCLKVCOSpeed);
+ v->MaxDispclkRoundedToDFSGranularity = RoundToDFSGranularityDown(
+ v->soc.clock_limits[v->soc.num_states - 1].dispclk_mhz,
+ v->DISPCLKDPPCLKVCOSpeed);
+ if (v->DISPCLKWithoutRampingRoundedToDFSGranularity > v->MaxDispclkRoundedToDFSGranularity) {
+ v->DISPCLK_calculated = v->DISPCLKWithoutRampingRoundedToDFSGranularity;
+ } else if (v->DISPCLKWithRampingRoundedToDFSGranularity > v->MaxDispclkRoundedToDFSGranularity) {
+ v->DISPCLK_calculated = v->MaxDispclkRoundedToDFSGranularity;
+ } else {
+ v->DISPCLK_calculated = v->DISPCLKWithRampingRoundedToDFSGranularity;
+ }
+ v->DISPCLK = v->DISPCLK_calculated;
+ DTRACE(" dispclk_mhz (calculated) = %f", v->DISPCLK_calculated);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->DPPCLK_calculated[k] = v->DPPCLKUsingSingleDPP[k] / v->DPPPerPlane[k] * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100);
+ v->GlobalDPPCLK = dml_max(v->GlobalDPPCLK, v->DPPCLK_calculated[k]);
+ }
+ v->GlobalDPPCLK = RoundToDFSGranularityUp(v->GlobalDPPCLK, v->DISPCLKDPPCLKVCOSpeed);
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->DPPCLK_calculated[k] = v->GlobalDPPCLK / 255 * dml_ceil(v->DPPCLK_calculated[k] * 255.0 / v->GlobalDPPCLK, 1);
+ DTRACE(" dppclk_mhz[%i] (calculated) = %f", k, v->DPPCLK_calculated[k]);
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->DPPCLK[k] = v->DPPCLK_calculated[k];
+ }
+
+ // Urgent and B P-State/DRAM Clock Change Watermark
+ DTRACE(" dcfclk_mhz = %f", v->DCFCLK);
+ DTRACE(" return_bus_bw = %f", v->ReturnBW);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ CalculateBytePerPixelAnd256BBlockSizes(
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ &v->BytePerPixelY[k],
+ &v->BytePerPixelC[k],
+ &v->BytePerPixelDETY[k],
+ &v->BytePerPixelDETC[k],
+ &v->BlockHeight256BytesY[k],
+ &v->BlockHeight256BytesC[k],
+ &v->BlockWidth256BytesY[k],
+ &v->BlockWidth256BytesC[k]);
+ }
+
+ CalculateSwathWidth(
+ false,
+ v->NumberOfActivePlanes,
+ v->SourcePixelFormat,
+ v->SourceScan,
+ v->ViewportWidth,
+ v->ViewportHeight,
+ v->SurfaceWidthY,
+ v->SurfaceWidthC,
+ v->SurfaceHeightY,
+ v->SurfaceHeightC,
+ v->ODMCombineEnabled,
+ v->BytePerPixelY,
+ v->BytePerPixelC,
+ v->BlockHeight256BytesY,
+ v->BlockHeight256BytesC,
+ v->BlockWidth256BytesY,
+ v->BlockWidth256BytesC,
+ v->BlendingAndTiming,
+ v->HActive,
+ v->HRatio,
+ v->DPPPerPlane,
+ v->SwathWidthSingleDPPY,
+ v->SwathWidthSingleDPPC,
+ v->SwathWidthY,
+ v->SwathWidthC,
+ v->dummyinteger3,
+ v->dummyinteger4,
+ v->swath_width_luma_ub,
+ v->swath_width_chroma_ub);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->ReadBandwidthPlaneLuma[k] = v->SwathWidthSingleDPPY[k] * v->BytePerPixelY[k] / (v->HTotal[k] / v->PixelClock[k])
+ * v->VRatio[k];
+ v->ReadBandwidthPlaneChroma[k] = v->SwathWidthSingleDPPC[k] * v->BytePerPixelC[k] / (v->HTotal[k] / v->PixelClock[k])
+ * v->VRatioChroma[k];
+ DTRACE(" read_bw[%i] = %fBps", k, v->ReadBandwidthPlaneLuma[k] + v->ReadBandwidthPlaneChroma[k]);
+ }
+
+ // DCFCLK Deep Sleep
+ CalculateDCFCLKDeepSleep(
+ mode_lib,
+ v->NumberOfActivePlanes,
+ v->BytePerPixelY,
+ v->BytePerPixelC,
+ v->VRatio,
+ v->VRatioChroma,
+ v->SwathWidthY,
+ v->SwathWidthC,
+ v->DPPPerPlane,
+ v->HRatio,
+ v->HRatioChroma,
+ v->PixelClock,
+ v->PSCL_THROUGHPUT_LUMA,
+ v->PSCL_THROUGHPUT_CHROMA,
+ v->DPPCLK,
+ v->ReadBandwidthPlaneLuma,
+ v->ReadBandwidthPlaneChroma,
+ v->ReturnBusWidth,
+ &v->DCFCLKDeepSleep);
+
+ // DSCCLK
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if ((v->BlendingAndTiming[k] != k) || !v->DSCEnabled[k]) {
+ v->DSCCLK_calculated[k] = 0.0;
+ } else {
+ if (v->OutputFormat[k] == dm_420)
+ v->DSCFormatFactor = 2;
+ else if (v->OutputFormat[k] == dm_444)
+ v->DSCFormatFactor = 1;
+ else if (v->OutputFormat[k] == dm_n422)
+ v->DSCFormatFactor = 2;
+ else
+ v->DSCFormatFactor = 1;
+ if (v->ODMCombineEnabled[k] == dm_odm_combine_mode_4to1)
+ v->DSCCLK_calculated[k] = v->PixelClockBackEnd[k] / 12 / v->DSCFormatFactor
+ / (1 - v->DISPCLKDPPCLKDSCCLKDownSpreading / 100);
+ else if (v->ODMCombineEnabled[k] == dm_odm_combine_mode_2to1)
+ v->DSCCLK_calculated[k] = v->PixelClockBackEnd[k] / 6 / v->DSCFormatFactor
+ / (1 - v->DISPCLKDPPCLKDSCCLKDownSpreading / 100);
+ else
+ v->DSCCLK_calculated[k] = v->PixelClockBackEnd[k] / 3 / v->DSCFormatFactor
+ / (1 - v->DISPCLKDPPCLKDSCCLKDownSpreading / 100);
+ }
+ }
+
+ // DSC Delay
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ double BPP = v->OutputBpp[k];
+
+ if (v->DSCEnabled[k] && BPP != 0) {
+ if (v->ODMCombineEnabled[k] == dm_odm_combine_mode_disabled) {
+ v->DSCDelay[k] = dscceComputeDelay(
+ v->DSCInputBitPerComponent[k],
+ BPP,
+ dml_ceil((double) v->HActive[k] / v->NumberOfDSCSlices[k], 1),
+ v->NumberOfDSCSlices[k],
+ v->OutputFormat[k],
+ v->Output[k]) + dscComputeDelay(v->OutputFormat[k], v->Output[k]);
+ } else if (v->ODMCombineEnabled[k] == dm_odm_combine_mode_2to1) {
+ v->DSCDelay[k] = 2
+ * (dscceComputeDelay(
+ v->DSCInputBitPerComponent[k],
+ BPP,
+ dml_ceil((double) v->HActive[k] / v->NumberOfDSCSlices[k], 1),
+ v->NumberOfDSCSlices[k] / 2.0,
+ v->OutputFormat[k],
+ v->Output[k]) + dscComputeDelay(v->OutputFormat[k], v->Output[k]));
+ } else {
+ v->DSCDelay[k] = 4
+ * (dscceComputeDelay(
+ v->DSCInputBitPerComponent[k],
+ BPP,
+ dml_ceil((double) v->HActive[k] / v->NumberOfDSCSlices[k], 1),
+ v->NumberOfDSCSlices[k] / 4.0,
+ v->OutputFormat[k],
+ v->Output[k]) + dscComputeDelay(v->OutputFormat[k], v->Output[k]));
+ }
+ v->DSCDelay[k] = v->DSCDelay[k] * v->PixelClock[k] / v->PixelClockBackEnd[k];
+ } else {
+ v->DSCDelay[k] = 0;
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k)
+ for (j = 0; j < v->NumberOfActivePlanes; ++j) // NumberOfPlanes
+ if (j != k && v->BlendingAndTiming[k] == j && v->DSCEnabled[j])
+ v->DSCDelay[k] = v->DSCDelay[j];
+
+ // Prefetch
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ unsigned int PDEAndMetaPTEBytesFrameY;
+ unsigned int PixelPTEBytesPerRowY;
+ unsigned int MetaRowByteY;
+ unsigned int MetaRowByteC;
+ unsigned int PDEAndMetaPTEBytesFrameC;
+ unsigned int PixelPTEBytesPerRowC;
+ bool PTEBufferSizeNotExceededY;
+ bool PTEBufferSizeNotExceededC;
+
+ if (v->SourcePixelFormat[k] == dm_420_8 || v->SourcePixelFormat[k] == dm_420_10 || v->SourcePixelFormat[k] == dm_420_12
+ || v->SourcePixelFormat[k] == dm_rgbe_alpha) {
+ if ((v->SourcePixelFormat[k] == dm_420_10 || v->SourcePixelFormat[k] == dm_420_12) && v->SourceScan[k] != dm_vert) {
+ v->PTEBufferSizeInRequestsForLuma = (v->PTEBufferSizeInRequestsLuma + v->PTEBufferSizeInRequestsChroma) / 2;
+ v->PTEBufferSizeInRequestsForChroma = v->PTEBufferSizeInRequestsForLuma;
+ } else {
+ v->PTEBufferSizeInRequestsForLuma = v->PTEBufferSizeInRequestsLuma;
+ v->PTEBufferSizeInRequestsForChroma = v->PTEBufferSizeInRequestsChroma;
+ }
+
+ PDEAndMetaPTEBytesFrameC = CalculateVMAndRowBytes(
+ mode_lib,
+ v->DCCEnable[k],
+ v->BlockHeight256BytesC[k],
+ v->BlockWidth256BytesC[k],
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ v->BytePerPixelC[k],
+ v->SourceScan[k],
+ v->SwathWidthC[k],
+ v->ViewportHeightChroma[k],
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->GPUVMMinPageSize,
+ v->HostVMMinPageSize,
+ v->PTEBufferSizeInRequestsForChroma,
+ v->PitchC[k],
+ v->DCCMetaPitchC[k],
+ &v->MacroTileWidthC[k],
+ &MetaRowByteC,
+ &PixelPTEBytesPerRowC,
+ &PTEBufferSizeNotExceededC,
+ &v->dpte_row_width_chroma_ub[k],
+ &v->dpte_row_height_chroma[k],
+ &v->meta_req_width_chroma[k],
+ &v->meta_req_height_chroma[k],
+ &v->meta_row_width_chroma[k],
+ &v->meta_row_height_chroma[k],
+ &v->dummyinteger1,
+ &v->dummyinteger2,
+ &v->PixelPTEReqWidthC[k],
+ &v->PixelPTEReqHeightC[k],
+ &v->PTERequestSizeC[k],
+ &v->dpde0_bytes_per_frame_ub_c[k],
+ &v->meta_pte_bytes_per_frame_ub_c[k]);
+
+ v->PrefetchSourceLinesC[k] = CalculatePrefetchSourceLines(
+ mode_lib,
+ v->VRatioChroma[k],
+ v->VTAPsChroma[k],
+ v->Interlace[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->SwathHeightC[k],
+ v->ViewportYStartC[k],
+ &v->VInitPreFillC[k],
+ &v->MaxNumSwathC[k]);
+ } else {
+ v->PTEBufferSizeInRequestsForLuma = v->PTEBufferSizeInRequestsLuma + v->PTEBufferSizeInRequestsChroma;
+ v->PTEBufferSizeInRequestsForChroma = 0;
+ PixelPTEBytesPerRowC = 0;
+ PDEAndMetaPTEBytesFrameC = 0;
+ MetaRowByteC = 0;
+ v->MaxNumSwathC[k] = 0;
+ v->PrefetchSourceLinesC[k] = 0;
+ }
+
+ PDEAndMetaPTEBytesFrameY = CalculateVMAndRowBytes(
+ mode_lib,
+ v->DCCEnable[k],
+ v->BlockHeight256BytesY[k],
+ v->BlockWidth256BytesY[k],
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ v->BytePerPixelY[k],
+ v->SourceScan[k],
+ v->SwathWidthY[k],
+ v->ViewportHeight[k],
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->GPUVMMinPageSize,
+ v->HostVMMinPageSize,
+ v->PTEBufferSizeInRequestsForLuma,
+ v->PitchY[k],
+ v->DCCMetaPitchY[k],
+ &v->MacroTileWidthY[k],
+ &MetaRowByteY,
+ &PixelPTEBytesPerRowY,
+ &PTEBufferSizeNotExceededY,
+ &v->dpte_row_width_luma_ub[k],
+ &v->dpte_row_height[k],
+ &v->meta_req_width[k],
+ &v->meta_req_height[k],
+ &v->meta_row_width[k],
+ &v->meta_row_height[k],
+ &v->vm_group_bytes[k],
+ &v->dpte_group_bytes[k],
+ &v->PixelPTEReqWidthY[k],
+ &v->PixelPTEReqHeightY[k],
+ &v->PTERequestSizeY[k],
+ &v->dpde0_bytes_per_frame_ub_l[k],
+ &v->meta_pte_bytes_per_frame_ub_l[k]);
+
+ v->PrefetchSourceLinesY[k] = CalculatePrefetchSourceLines(
+ mode_lib,
+ v->VRatio[k],
+ v->vtaps[k],
+ v->Interlace[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->SwathHeightY[k],
+ v->ViewportYStartY[k],
+ &v->VInitPreFillY[k],
+ &v->MaxNumSwathY[k]);
+ v->PixelPTEBytesPerRow[k] = PixelPTEBytesPerRowY + PixelPTEBytesPerRowC;
+ v->PDEAndMetaPTEBytesFrame[k] = PDEAndMetaPTEBytesFrameY + PDEAndMetaPTEBytesFrameC;
+ v->MetaRowByte[k] = MetaRowByteY + MetaRowByteC;
+
+ CalculateRowBandwidth(
+ v->GPUVMEnable,
+ v->SourcePixelFormat[k],
+ v->VRatio[k],
+ v->VRatioChroma[k],
+ v->DCCEnable[k],
+ v->HTotal[k] / v->PixelClock[k],
+ MetaRowByteY,
+ MetaRowByteC,
+ v->meta_row_height[k],
+ v->meta_row_height_chroma[k],
+ PixelPTEBytesPerRowY,
+ PixelPTEBytesPerRowC,
+ v->dpte_row_height[k],
+ v->dpte_row_height_chroma[k],
+ &v->meta_row_bw[k],
+ &v->dpte_row_bw[k]);
+ }
+
+ v->TotalDCCActiveDPP = 0;
+ v->TotalActiveDPP = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->TotalActiveDPP = v->TotalActiveDPP + v->DPPPerPlane[k];
+ if (v->DCCEnable[k])
+ v->TotalDCCActiveDPP = v->TotalDCCActiveDPP + v->DPPPerPlane[k];
+ if (v->SourcePixelFormat[k] == dm_420_8 || v->SourcePixelFormat[k] == dm_420_10 || v->SourcePixelFormat[k] == dm_420_12
+ || v->SourcePixelFormat[k] == dm_rgbe_alpha)
+ NoChromaPlanes = false;
+ }
+
+ ReorderBytes = v->NumberOfChannels
+ * dml_max3(
+ v->UrgentOutOfOrderReturnPerChannelPixelDataOnly,
+ v->UrgentOutOfOrderReturnPerChannelPixelMixedWithVMData,
+ v->UrgentOutOfOrderReturnPerChannelVMDataOnly);
+
+ VMDataOnlyReturnBW = dml_min(
+ dml_min(v->ReturnBusWidth * v->DCFCLK, v->FabricClock * v->FabricDatapathToDCNDataReturn)
+ * v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0,
+ v->DRAMSpeed * v->NumberOfChannels * v->DRAMChannelWidth
+ * v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyVMDataOnly / 100.0);
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: v->ReturnBusWidth = %f\n", __func__, v->ReturnBusWidth);
+ dml_print("DML::%s: v->DCFCLK = %f\n", __func__, v->DCFCLK);
+ dml_print("DML::%s: v->FabricClock = %f\n", __func__, v->FabricClock);
+ dml_print("DML::%s: v->FabricDatapathToDCNDataReturn = %f\n", __func__, v->FabricDatapathToDCNDataReturn);
+ dml_print("DML::%s: v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency = %f\n", __func__, v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency);
+ dml_print("DML::%s: v->DRAMSpeed = %f\n", __func__, v->DRAMSpeed);
+ dml_print("DML::%s: v->NumberOfChannels = %f\n", __func__, v->NumberOfChannels);
+ dml_print("DML::%s: v->DRAMChannelWidth = %f\n", __func__, v->DRAMChannelWidth);
+ dml_print("DML::%s: v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyVMDataOnly = %f\n", __func__, v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyVMDataOnly);
+ dml_print("DML::%s: VMDataOnlyReturnBW = %f\n", __func__, VMDataOnlyReturnBW);
+ dml_print("DML::%s: ReturnBW = %f\n", __func__, v->ReturnBW);
+#endif
+
+ if (v->GPUVMEnable && v->HostVMEnable)
+ HostVMInefficiencyFactor = v->ReturnBW / VMDataOnlyReturnBW;
+
+ v->UrgentExtraLatency = CalculateExtraLatency(
+ v->RoundTripPingLatencyCycles,
+ ReorderBytes,
+ v->DCFCLK,
+ v->TotalActiveDPP,
+ v->PixelChunkSizeInKByte,
+ v->TotalDCCActiveDPP,
+ v->MetaChunkSize,
+ v->ReturnBW,
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->NumberOfActivePlanes,
+ v->DPPPerPlane,
+ v->dpte_group_bytes,
+ HostVMInefficiencyFactor,
+ v->HostVMMinPageSize,
+ v->HostVMMaxNonCachedPageTableLevels);
+
+ v->TCalc = 24.0 / v->DCFCLKDeepSleep;
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->BlendingAndTiming[k] == k) {
+ if (v->WritebackEnable[k] == true) {
+ v->WritebackDelay[v->VoltageLevel][k] = v->WritebackLatency
+ + CalculateWriteBackDelay(
+ v->WritebackPixelFormat[k],
+ v->WritebackHRatio[k],
+ v->WritebackVRatio[k],
+ v->WritebackVTaps[k],
+ v->WritebackDestinationWidth[k],
+ v->WritebackDestinationHeight[k],
+ v->WritebackSourceHeight[k],
+ v->HTotal[k]) / v->DISPCLK;
+ } else
+ v->WritebackDelay[v->VoltageLevel][k] = 0;
+ for (j = 0; j < v->NumberOfActivePlanes; ++j) {
+ if (v->BlendingAndTiming[j] == k && v->WritebackEnable[j] == true) {
+ v->WritebackDelay[v->VoltageLevel][k] = dml_max(
+ v->WritebackDelay[v->VoltageLevel][k],
+ v->WritebackLatency
+ + CalculateWriteBackDelay(
+ v->WritebackPixelFormat[j],
+ v->WritebackHRatio[j],
+ v->WritebackVRatio[j],
+ v->WritebackVTaps[j],
+ v->WritebackDestinationWidth[j],
+ v->WritebackDestinationHeight[j],
+ v->WritebackSourceHeight[j],
+ v->HTotal[k]) / v->DISPCLK);
+ }
+ }
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k)
+ for (j = 0; j < v->NumberOfActivePlanes; ++j)
+ if (v->BlendingAndTiming[k] == j)
+ v->WritebackDelay[v->VoltageLevel][k] = v->WritebackDelay[v->VoltageLevel][j];
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->MaxVStartupLines[k] =
+ CalculateMaxVStartup(
+ v->VTotal[k],
+ v->VActive[k],
+ v->VBlankNom[k],
+ v->HTotal[k],
+ v->PixelClock[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->Interlace[k],
+ v->ip.VBlankNomDefaultUS,
+ v->WritebackDelay[v->VoltageLevel][k]);
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%d MaxVStartupLines = %d\n", __func__, k, v->MaxVStartupLines[k]);
+ dml_print("DML::%s: k=%d VoltageLevel = %d\n", __func__, k, v->VoltageLevel);
+ dml_print("DML::%s: k=%d WritebackDelay = %f\n", __func__, k, v->WritebackDelay[v->VoltageLevel][k]);
+#endif
+ }
+
+ v->MaximumMaxVStartupLines = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k)
+ v->MaximumMaxVStartupLines = dml_max(v->MaximumMaxVStartupLines, v->MaxVStartupLines[k]);
+
+ // VBA_DELTA
+ // We don't really care to iterate between the various prefetch modes
+ //v->PrefetchERROR = CalculateMinAndMaxPrefetchMode(v->AllowDRAMSelfRefreshOrDRAMClockChangeInVblank, &v->MinPrefetchMode, &v->MaxPrefetchMode);
+
+ v->UrgentLatency = CalculateUrgentLatency(
+ v->UrgentLatencyPixelDataOnly,
+ v->UrgentLatencyPixelMixedWithVMData,
+ v->UrgentLatencyVMDataOnly,
+ v->DoUrgentLatencyAdjustment,
+ v->UrgentLatencyAdjustmentFabricClockComponent,
+ v->UrgentLatencyAdjustmentFabricClockReference,
+ v->FabricClock);
+
+ v->FractionOfUrgentBandwidth = 0.0;
+ v->FractionOfUrgentBandwidthImmediateFlip = 0.0;
+
+ v->VStartupLines = __DML_VBA_MIN_VSTARTUP__;
+
+ do {
+ double MaxTotalRDBandwidthNoUrgentBurst = 0.0;
+ bool DestinationLineTimesForPrefetchLessThan2 = false;
+ bool VRatioPrefetchMoreThan4 = false;
+ double TWait = CalculateTWait(PrefetchMode, v->DRAMClockChangeLatency, v->UrgentLatency, v->SREnterPlusExitTime);
+
+ MaxTotalRDBandwidth = 0;
+
+ dml_print("DML::%s: Start loop: VStartup = %d\n", __func__, v->VStartupLines);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ Pipe myPipe;
+
+ myPipe.DPPCLK = v->DPPCLK[k];
+ myPipe.DISPCLK = v->DISPCLK;
+ myPipe.PixelClock = v->PixelClock[k];
+ myPipe.DCFCLKDeepSleep = v->DCFCLKDeepSleep;
+ myPipe.DPPPerPlane = v->DPPPerPlane[k];
+ myPipe.ScalerEnabled = v->ScalerEnabled[k];
+ myPipe.VRatio = v->VRatio[k];
+ myPipe.VRatioChroma = v->VRatioChroma[k];
+ myPipe.SourceScan = v->SourceScan[k];
+ myPipe.BlockWidth256BytesY = v->BlockWidth256BytesY[k];
+ myPipe.BlockHeight256BytesY = v->BlockHeight256BytesY[k];
+ myPipe.BlockWidth256BytesC = v->BlockWidth256BytesC[k];
+ myPipe.BlockHeight256BytesC = v->BlockHeight256BytesC[k];
+ myPipe.InterlaceEnable = v->Interlace[k];
+ myPipe.NumberOfCursors = v->NumberOfCursors[k];
+ myPipe.VBlank = v->VTotal[k] - v->VActive[k];
+ myPipe.HTotal = v->HTotal[k];
+ myPipe.DCCEnable = v->DCCEnable[k];
+ myPipe.ODMCombineIsEnabled = v->ODMCombineEnabled[k] == dm_odm_combine_mode_4to1
+ || v->ODMCombineEnabled[k] == dm_odm_combine_mode_2to1;
+ myPipe.SourcePixelFormat = v->SourcePixelFormat[k];
+ myPipe.BytePerPixelY = v->BytePerPixelY[k];
+ myPipe.BytePerPixelC = v->BytePerPixelC[k];
+ myPipe.ProgressiveToInterlaceUnitInOPP = v->ProgressiveToInterlaceUnitInOPP;
+ v->ErrorResult[k] = CalculatePrefetchSchedule(
+ mode_lib,
+ HostVMInefficiencyFactor,
+ &myPipe,
+ v->DSCDelay[k],
+ v->DPPCLKDelaySubtotal + v->DPPCLKDelayCNVCFormater,
+ v->DPPCLKDelaySCL,
+ v->DPPCLKDelaySCLLBOnly,
+ v->DPPCLKDelayCNVCCursor,
+ v->DISPCLKDelaySubtotal,
+ (unsigned int) (v->SwathWidthY[k] / v->HRatio[k]),
+ v->OutputFormat[k],
+ v->MaxInterDCNTileRepeaters,
+ dml_min(v->VStartupLines, v->MaxVStartupLines[k]),
+ v->MaxVStartupLines[k],
+ v->GPUVMMaxPageTableLevels,
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->HostVMMinPageSize,
+ v->DynamicMetadataEnable[k],
+ v->DynamicMetadataVMEnabled,
+ v->DynamicMetadataLinesBeforeActiveRequired[k],
+ v->DynamicMetadataTransmittedBytes[k],
+ v->UrgentLatency,
+ v->UrgentExtraLatency,
+ v->TCalc,
+ v->PDEAndMetaPTEBytesFrame[k],
+ v->MetaRowByte[k],
+ v->PixelPTEBytesPerRow[k],
+ v->PrefetchSourceLinesY[k],
+ v->SwathWidthY[k],
+ v->VInitPreFillY[k],
+ v->MaxNumSwathY[k],
+ v->PrefetchSourceLinesC[k],
+ v->SwathWidthC[k],
+ v->VInitPreFillC[k],
+ v->MaxNumSwathC[k],
+ v->swath_width_luma_ub[k],
+ v->swath_width_chroma_ub[k],
+ v->SwathHeightY[k],
+ v->SwathHeightC[k],
+ TWait,
+ &v->DSTXAfterScaler[k],
+ &v->DSTYAfterScaler[k],
+ &v->DestinationLinesForPrefetch[k],
+ &v->PrefetchBandwidth[k],
+ &v->DestinationLinesToRequestVMInVBlank[k],
+ &v->DestinationLinesToRequestRowInVBlank[k],
+ &v->VRatioPrefetchY[k],
+ &v->VRatioPrefetchC[k],
+ &v->RequiredPrefetchPixDataBWLuma[k],
+ &v->RequiredPrefetchPixDataBWChroma[k],
+ &v->NotEnoughTimeForDynamicMetadata[k],
+ &v->Tno_bw[k],
+ &v->prefetch_vmrow_bw[k],
+ &v->Tdmdl_vm[k],
+ &v->Tdmdl[k],
+ &v->TSetup[k],
+ &v->VUpdateOffsetPix[k],
+ &v->VUpdateWidthPix[k],
+ &v->VReadyOffsetPix[k]);
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%0d Prefetch cal result=%0d\n", __func__, k, v->ErrorResult[k]);
+#endif
+ v->VStartup[k] = dml_min(v->VStartupLines, v->MaxVStartupLines[k]);
+ }
+
+ v->NoEnoughUrgentLatencyHiding = false;
+ v->NoEnoughUrgentLatencyHidingPre = false;
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->cursor_bw[k] = v->NumberOfCursors[k] * v->CursorWidth[k][0] * v->CursorBPP[k][0] / 8.0
+ / (v->HTotal[k] / v->PixelClock[k]) * v->VRatio[k];
+ v->cursor_bw_pre[k] = v->NumberOfCursors[k] * v->CursorWidth[k][0] * v->CursorBPP[k][0] / 8.0
+ / (v->HTotal[k] / v->PixelClock[k]) * v->VRatioPrefetchY[k];
+
+ CalculateUrgentBurstFactor(
+ v->swath_width_luma_ub[k],
+ v->swath_width_chroma_ub[k],
+ v->SwathHeightY[k],
+ v->SwathHeightC[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->UrgentLatency,
+ v->CursorBufferSize,
+ v->CursorWidth[k][0],
+ v->CursorBPP[k][0],
+ v->VRatio[k],
+ v->VRatioChroma[k],
+ v->BytePerPixelDETY[k],
+ v->BytePerPixelDETC[k],
+ v->DETBufferSizeY[k],
+ v->DETBufferSizeC[k],
+ &v->UrgBurstFactorCursor[k],
+ &v->UrgBurstFactorLuma[k],
+ &v->UrgBurstFactorChroma[k],
+ &v->NoUrgentLatencyHiding[k]);
+
+ CalculateUrgentBurstFactor(
+ v->swath_width_luma_ub[k],
+ v->swath_width_chroma_ub[k],
+ v->SwathHeightY[k],
+ v->SwathHeightC[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->UrgentLatency,
+ v->CursorBufferSize,
+ v->CursorWidth[k][0],
+ v->CursorBPP[k][0],
+ v->VRatioPrefetchY[k],
+ v->VRatioPrefetchC[k],
+ v->BytePerPixelDETY[k],
+ v->BytePerPixelDETC[k],
+ v->DETBufferSizeY[k],
+ v->DETBufferSizeC[k],
+ &v->UrgBurstFactorCursorPre[k],
+ &v->UrgBurstFactorLumaPre[k],
+ &v->UrgBurstFactorChromaPre[k],
+ &v->NoUrgentLatencyHidingPre[k]);
+
+ MaxTotalRDBandwidth = MaxTotalRDBandwidth
+ + dml_max3(
+ v->DPPPerPlane[k] * v->prefetch_vmrow_bw[k],
+ v->ReadBandwidthPlaneLuma[k] * v->UrgBurstFactorLuma[k]
+ + v->ReadBandwidthPlaneChroma[k] * v->UrgBurstFactorChroma[k]
+ + v->cursor_bw[k] * v->UrgBurstFactorCursor[k]
+ + v->DPPPerPlane[k] * (v->meta_row_bw[k] + v->dpte_row_bw[k]),
+ v->DPPPerPlane[k]
+ * (v->RequiredPrefetchPixDataBWLuma[k] * v->UrgBurstFactorLumaPre[k]
+ + v->RequiredPrefetchPixDataBWChroma[k] * v->UrgBurstFactorChromaPre[k])
+ + v->cursor_bw_pre[k] * v->UrgBurstFactorCursorPre[k]);
+
+ MaxTotalRDBandwidthNoUrgentBurst = MaxTotalRDBandwidthNoUrgentBurst
+ + dml_max3(
+ v->DPPPerPlane[k] * v->prefetch_vmrow_bw[k],
+ v->ReadBandwidthPlaneLuma[k] + v->ReadBandwidthPlaneChroma[k] + v->cursor_bw[k]
+ + v->DPPPerPlane[k] * (v->meta_row_bw[k] + v->dpte_row_bw[k]),
+ v->DPPPerPlane[k] * (v->RequiredPrefetchPixDataBWLuma[k] + v->RequiredPrefetchPixDataBWChroma[k])
+ + v->cursor_bw_pre[k]);
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%0d DPPPerPlane=%d\n", __func__, k, v->DPPPerPlane[k]);
+ dml_print("DML::%s: k=%0d UrgBurstFactorLuma=%f\n", __func__, k, v->UrgBurstFactorLuma[k]);
+ dml_print("DML::%s: k=%0d UrgBurstFactorChroma=%f\n", __func__, k, v->UrgBurstFactorChroma[k]);
+ dml_print("DML::%s: k=%0d UrgBurstFactorLumaPre=%f\n", __func__, k, v->UrgBurstFactorLumaPre[k]);
+ dml_print("DML::%s: k=%0d UrgBurstFactorChromaPre=%f\n", __func__, k, v->UrgBurstFactorChromaPre[k]);
+
+ dml_print("DML::%s: k=%0d VRatioPrefetchY=%f\n", __func__, k, v->VRatioPrefetchY[k]);
+ dml_print("DML::%s: k=%0d VRatioY=%f\n", __func__, k, v->VRatio[k]);
+
+ dml_print("DML::%s: k=%0d prefetch_vmrow_bw=%f\n", __func__, k, v->prefetch_vmrow_bw[k]);
+ dml_print("DML::%s: k=%0d ReadBandwidthPlaneLuma=%f\n", __func__, k, v->ReadBandwidthPlaneLuma[k]);
+ dml_print("DML::%s: k=%0d ReadBandwidthPlaneChroma=%f\n", __func__, k, v->ReadBandwidthPlaneChroma[k]);
+ dml_print("DML::%s: k=%0d cursor_bw=%f\n", __func__, k, v->cursor_bw[k]);
+ dml_print("DML::%s: k=%0d meta_row_bw=%f\n", __func__, k, v->meta_row_bw[k]);
+ dml_print("DML::%s: k=%0d dpte_row_bw=%f\n", __func__, k, v->dpte_row_bw[k]);
+ dml_print("DML::%s: k=%0d RequiredPrefetchPixDataBWLuma=%f\n", __func__, k, v->RequiredPrefetchPixDataBWLuma[k]);
+ dml_print("DML::%s: k=%0d RequiredPrefetchPixDataBWChroma=%f\n", __func__, k, v->RequiredPrefetchPixDataBWChroma[k]);
+ dml_print("DML::%s: k=%0d cursor_bw_pre=%f\n", __func__, k, v->cursor_bw_pre[k]);
+ dml_print("DML::%s: k=%0d MaxTotalRDBandwidthNoUrgentBurst=%f\n", __func__, k, MaxTotalRDBandwidthNoUrgentBurst);
+#endif
+
+ if (v->DestinationLinesForPrefetch[k] < 2)
+ DestinationLineTimesForPrefetchLessThan2 = true;
+
+ if (v->VRatioPrefetchY[k] > 4 || v->VRatioPrefetchC[k] > 4)
+ VRatioPrefetchMoreThan4 = true;
+
+ if (v->NoUrgentLatencyHiding[k] == true)
+ v->NoEnoughUrgentLatencyHiding = true;
+
+ if (v->NoUrgentLatencyHidingPre[k] == true)
+ v->NoEnoughUrgentLatencyHidingPre = true;
+ }
+
+ v->FractionOfUrgentBandwidth = MaxTotalRDBandwidthNoUrgentBurst / v->ReturnBW;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: MaxTotalRDBandwidthNoUrgentBurst=%f\n", __func__, MaxTotalRDBandwidthNoUrgentBurst);
+ dml_print("DML::%s: ReturnBW=%f\n", __func__, v->ReturnBW);
+ dml_print("DML::%s: FractionOfUrgentBandwidth=%f\n", __func__, v->FractionOfUrgentBandwidth);
+#endif
+
+ if (MaxTotalRDBandwidth <= v->ReturnBW && v->NoEnoughUrgentLatencyHiding == 0 && v->NoEnoughUrgentLatencyHidingPre == 0
+ && !VRatioPrefetchMoreThan4 && !DestinationLineTimesForPrefetchLessThan2)
+ v->PrefetchModeSupported = true;
+ else {
+ v->PrefetchModeSupported = false;
+ dml_print("DML::%s: ***failed***. Bandwidth violation. Results are NOT valid\n", __func__);
+ dml_print("DML::%s: MaxTotalRDBandwidth:%f AvailReturnBandwidth:%f\n", __func__, MaxTotalRDBandwidth, v->ReturnBW);
+ dml_print("DML::%s: VRatioPrefetch %s more than 4\n", __func__, (VRatioPrefetchMoreThan4) ? "is" : "is not");
+ dml_print("DML::%s: DestinationLines for Prefetch %s less than 2\n", __func__, (DestinationLineTimesForPrefetchLessThan2) ? "is" : "is not");
+ }
+
+ // PREVIOUS_ERROR
+ // This error result check was done after the PrefetchModeSupported. So we will
+ // still try to calculate flip schedule even prefetch mode not supported
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->ErrorResult[k] == true || v->NotEnoughTimeForDynamicMetadata[k] == true) {
+ v->PrefetchModeSupported = false;
+ dml_print("DML::%s: ***failed***. Prefetch schedule violation. Results are NOT valid\n", __func__);
+ }
+ }
+
+ if (v->PrefetchModeSupported == true && v->ImmediateFlipSupport == true) {
+ v->BandwidthAvailableForImmediateFlip = v->ReturnBW;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->BandwidthAvailableForImmediateFlip = v->BandwidthAvailableForImmediateFlip
+ - dml_max(
+ v->ReadBandwidthPlaneLuma[k] * v->UrgBurstFactorLuma[k]
+ + v->ReadBandwidthPlaneChroma[k] * v->UrgBurstFactorChroma[k]
+ + v->cursor_bw[k] * v->UrgBurstFactorCursor[k],
+ v->DPPPerPlane[k]
+ * (v->RequiredPrefetchPixDataBWLuma[k] * v->UrgBurstFactorLumaPre[k]
+ + v->RequiredPrefetchPixDataBWChroma[k] * v->UrgBurstFactorChromaPre[k])
+ + v->cursor_bw_pre[k] * v->UrgBurstFactorCursorPre[k]);
+ }
+
+ v->TotImmediateFlipBytes = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->TotImmediateFlipBytes = v->TotImmediateFlipBytes
+ + v->DPPPerPlane[k] * (v->PDEAndMetaPTEBytesFrame[k] + v->MetaRowByte[k] + v->PixelPTEBytesPerRow[k]);
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ CalculateFlipSchedule(
+ mode_lib,
+ HostVMInefficiencyFactor,
+ v->UrgentExtraLatency,
+ v->UrgentLatency,
+ v->GPUVMMaxPageTableLevels,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->GPUVMEnable,
+ v->HostVMMinPageSize,
+ v->PDEAndMetaPTEBytesFrame[k],
+ v->MetaRowByte[k],
+ v->PixelPTEBytesPerRow[k],
+ v->BandwidthAvailableForImmediateFlip,
+ v->TotImmediateFlipBytes,
+ v->SourcePixelFormat[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->VRatio[k],
+ v->VRatioChroma[k],
+ v->Tno_bw[k],
+ v->DCCEnable[k],
+ v->dpte_row_height[k],
+ v->meta_row_height[k],
+ v->dpte_row_height_chroma[k],
+ v->meta_row_height_chroma[k],
+ &v->DestinationLinesToRequestVMInImmediateFlip[k],
+ &v->DestinationLinesToRequestRowInImmediateFlip[k],
+ &v->final_flip_bw[k],
+ &v->ImmediateFlipSupportedForPipe[k]);
+ }
+
+ v->total_dcn_read_bw_with_flip = 0.0;
+ v->total_dcn_read_bw_with_flip_no_urgent_burst = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->total_dcn_read_bw_with_flip = v->total_dcn_read_bw_with_flip
+ + dml_max3(
+ v->DPPPerPlane[k] * v->prefetch_vmrow_bw[k],
+ v->DPPPerPlane[k] * v->final_flip_bw[k]
+ + v->ReadBandwidthLuma[k] * v->UrgBurstFactorLuma[k]
+ + v->ReadBandwidthChroma[k] * v->UrgBurstFactorChroma[k]
+ + v->cursor_bw[k] * v->UrgBurstFactorCursor[k],
+ v->DPPPerPlane[k]
+ * (v->final_flip_bw[k]
+ + v->RequiredPrefetchPixDataBWLuma[k] * v->UrgBurstFactorLumaPre[k]
+ + v->RequiredPrefetchPixDataBWChroma[k] * v->UrgBurstFactorChromaPre[k])
+ + v->cursor_bw_pre[k] * v->UrgBurstFactorCursorPre[k]);
+ v->total_dcn_read_bw_with_flip_no_urgent_burst = v->total_dcn_read_bw_with_flip_no_urgent_burst
+ + dml_max3(
+ v->DPPPerPlane[k] * v->prefetch_vmrow_bw[k],
+ v->DPPPerPlane[k] * v->final_flip_bw[k] + v->ReadBandwidthPlaneLuma[k]
+ + v->ReadBandwidthPlaneChroma[k] + v->cursor_bw[k],
+ v->DPPPerPlane[k]
+ * (v->final_flip_bw[k] + v->RequiredPrefetchPixDataBWLuma[k]
+ + v->RequiredPrefetchPixDataBWChroma[k]) + v->cursor_bw_pre[k]);
+ }
+ v->FractionOfUrgentBandwidthImmediateFlip = v->total_dcn_read_bw_with_flip_no_urgent_burst / v->ReturnBW;
+
+ v->ImmediateFlipSupported = true;
+ if (v->total_dcn_read_bw_with_flip > v->ReturnBW) {
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: total_dcn_read_bw_with_flip %f (bw w/ flip too high!)\n", __func__, v->total_dcn_read_bw_with_flip);
+#endif
+ v->ImmediateFlipSupported = false;
+ v->total_dcn_read_bw_with_flip = MaxTotalRDBandwidth;
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->ImmediateFlipSupportedForPipe[k] == false) {
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: Pipe %0d not supporing iflip\n", __func__, k);
+#endif
+ v->ImmediateFlipSupported = false;
+ }
+ }
+ } else {
+ v->ImmediateFlipSupported = false;
+ }
+
+ v->PrefetchAndImmediateFlipSupported =
+ (v->PrefetchModeSupported == true && ((!v->ImmediateFlipSupport && !v->HostVMEnable
+ && v->ImmediateFlipRequirement[0] != dm_immediate_flip_required) ||
+ v->ImmediateFlipSupported)) ? true : false;
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: PrefetchModeSupported %d\n", __func__, v->PrefetchModeSupported);
+ dml_print("DML::%s: ImmediateFlipRequirement %d\n", __func__, v->ImmediateFlipRequirement == dm_immediate_flip_required);
+ dml_print("DML::%s: ImmediateFlipSupported %d\n", __func__, v->ImmediateFlipSupported);
+ dml_print("DML::%s: ImmediateFlipSupport %d\n", __func__, v->ImmediateFlipSupport);
+ dml_print("DML::%s: HostVMEnable %d\n", __func__, v->HostVMEnable);
+ dml_print("DML::%s: PrefetchAndImmediateFlipSupported %d\n", __func__, v->PrefetchAndImmediateFlipSupported);
+#endif
+ dml_print("DML::%s: Done loop: Vstartup=%d, Max Vstartup is %d\n", __func__, v->VStartupLines, v->MaximumMaxVStartupLines);
+
+ v->VStartupLines = v->VStartupLines + 1;
+ } while (!v->PrefetchAndImmediateFlipSupported && v->VStartupLines <= v->MaximumMaxVStartupLines);
+ ASSERT(v->PrefetchAndImmediateFlipSupported);
+
+ // Unbounded Request Enabled
+ CalculateUnboundedRequestAndCompressedBufferSize(
+ v->DETBufferSizeInKByte[0],
+ v->ConfigReturnBufferSizeInKByte,
+ v->UseUnboundedRequesting,
+ v->TotalActiveDPP,
+ NoChromaPlanes,
+ v->MaxNumDPP,
+ v->CompressedBufferSegmentSizeInkByte,
+ v->Output,
+ &v->UnboundedRequestEnabled,
+ &v->CompressedBufferSizeInkByte);
+
+ //Watermarks and NB P-State/DRAM Clock Change Support
+ {
+ enum clock_change_support DRAMClockChangeSupport; // dummy
+
+ CalculateWatermarksAndDRAMSpeedChangeSupport(
+ mode_lib,
+ PrefetchMode,
+ v->NumberOfActivePlanes,
+ v->MaxLineBufferLines,
+ v->LineBufferSize,
+ v->WritebackInterfaceBufferSize,
+ v->DCFCLK,
+ v->ReturnBW,
+ v->SynchronizedVBlank,
+ v->dpte_group_bytes,
+ v->MetaChunkSize,
+ v->UrgentLatency,
+ v->UrgentExtraLatency,
+ v->WritebackLatency,
+ v->WritebackChunkSize,
+ v->SOCCLK,
+ v->DRAMClockChangeLatency,
+ v->SRExitTime,
+ v->SREnterPlusExitTime,
+ v->SRExitZ8Time,
+ v->SREnterPlusExitZ8Time,
+ v->DCFCLKDeepSleep,
+ v->DETBufferSizeY,
+ v->DETBufferSizeC,
+ v->SwathHeightY,
+ v->SwathHeightC,
+ v->LBBitPerPixel,
+ v->SwathWidthY,
+ v->SwathWidthC,
+ v->HRatio,
+ v->HRatioChroma,
+ v->vtaps,
+ v->VTAPsChroma,
+ v->VRatio,
+ v->VRatioChroma,
+ v->HTotal,
+ v->PixelClock,
+ v->BlendingAndTiming,
+ v->DPPPerPlane,
+ v->BytePerPixelDETY,
+ v->BytePerPixelDETC,
+ v->DSTXAfterScaler,
+ v->DSTYAfterScaler,
+ v->WritebackEnable,
+ v->WritebackPixelFormat,
+ v->WritebackDestinationWidth,
+ v->WritebackDestinationHeight,
+ v->WritebackSourceHeight,
+ v->UnboundedRequestEnabled,
+ v->CompressedBufferSizeInkByte,
+ &DRAMClockChangeSupport,
+ &v->UrgentWatermark,
+ &v->WritebackUrgentWatermark,
+ &v->DRAMClockChangeWatermark,
+ &v->WritebackDRAMClockChangeWatermark,
+ &v->StutterExitWatermark,
+ &v->StutterEnterPlusExitWatermark,
+ &v->Z8StutterExitWatermark,
+ &v->Z8StutterEnterPlusExitWatermark,
+ &v->MinActiveDRAMClockChangeLatencySupported);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->WritebackEnable[k] == true) {
+ v->WritebackAllowDRAMClockChangeEndPosition[k] = dml_max(
+ 0,
+ v->VStartup[k] * v->HTotal[k] / v->PixelClock[k] - v->WritebackDRAMClockChangeWatermark);
+ } else {
+ v->WritebackAllowDRAMClockChangeEndPosition[k] = 0;
+ }
+ }
+ }
+
+ //Display Pipeline Delivery Time in Prefetch, Groups
+ CalculatePixelDeliveryTimes(
+ v->NumberOfActivePlanes,
+ v->VRatio,
+ v->VRatioChroma,
+ v->VRatioPrefetchY,
+ v->VRatioPrefetchC,
+ v->swath_width_luma_ub,
+ v->swath_width_chroma_ub,
+ v->DPPPerPlane,
+ v->HRatio,
+ v->HRatioChroma,
+ v->PixelClock,
+ v->PSCL_THROUGHPUT_LUMA,
+ v->PSCL_THROUGHPUT_CHROMA,
+ v->DPPCLK,
+ v->BytePerPixelC,
+ v->SourceScan,
+ v->NumberOfCursors,
+ v->CursorWidth,
+ v->CursorBPP,
+ v->BlockWidth256BytesY,
+ v->BlockHeight256BytesY,
+ v->BlockWidth256BytesC,
+ v->BlockHeight256BytesC,
+ v->DisplayPipeLineDeliveryTimeLuma,
+ v->DisplayPipeLineDeliveryTimeChroma,
+ v->DisplayPipeLineDeliveryTimeLumaPrefetch,
+ v->DisplayPipeLineDeliveryTimeChromaPrefetch,
+ v->DisplayPipeRequestDeliveryTimeLuma,
+ v->DisplayPipeRequestDeliveryTimeChroma,
+ v->DisplayPipeRequestDeliveryTimeLumaPrefetch,
+ v->DisplayPipeRequestDeliveryTimeChromaPrefetch,
+ v->CursorRequestDeliveryTime,
+ v->CursorRequestDeliveryTimePrefetch);
+
+ CalculateMetaAndPTETimes(
+ v->NumberOfActivePlanes,
+ v->GPUVMEnable,
+ v->MetaChunkSize,
+ v->MinMetaChunkSizeBytes,
+ v->HTotal,
+ v->VRatio,
+ v->VRatioChroma,
+ v->DestinationLinesToRequestRowInVBlank,
+ v->DestinationLinesToRequestRowInImmediateFlip,
+ v->DCCEnable,
+ v->PixelClock,
+ v->BytePerPixelY,
+ v->BytePerPixelC,
+ v->SourceScan,
+ v->dpte_row_height,
+ v->dpte_row_height_chroma,
+ v->meta_row_width,
+ v->meta_row_width_chroma,
+ v->meta_row_height,
+ v->meta_row_height_chroma,
+ v->meta_req_width,
+ v->meta_req_width_chroma,
+ v->meta_req_height,
+ v->meta_req_height_chroma,
+ v->dpte_group_bytes,
+ v->PTERequestSizeY,
+ v->PTERequestSizeC,
+ v->PixelPTEReqWidthY,
+ v->PixelPTEReqHeightY,
+ v->PixelPTEReqWidthC,
+ v->PixelPTEReqHeightC,
+ v->dpte_row_width_luma_ub,
+ v->dpte_row_width_chroma_ub,
+ v->DST_Y_PER_PTE_ROW_NOM_L,
+ v->DST_Y_PER_PTE_ROW_NOM_C,
+ v->DST_Y_PER_META_ROW_NOM_L,
+ v->DST_Y_PER_META_ROW_NOM_C,
+ v->TimePerMetaChunkNominal,
+ v->TimePerChromaMetaChunkNominal,
+ v->TimePerMetaChunkVBlank,
+ v->TimePerChromaMetaChunkVBlank,
+ v->TimePerMetaChunkFlip,
+ v->TimePerChromaMetaChunkFlip,
+ v->time_per_pte_group_nom_luma,
+ v->time_per_pte_group_vblank_luma,
+ v->time_per_pte_group_flip_luma,
+ v->time_per_pte_group_nom_chroma,
+ v->time_per_pte_group_vblank_chroma,
+ v->time_per_pte_group_flip_chroma);
+
+ CalculateVMGroupAndRequestTimes(
+ v->NumberOfActivePlanes,
+ v->GPUVMEnable,
+ v->GPUVMMaxPageTableLevels,
+ v->HTotal,
+ v->BytePerPixelC,
+ v->DestinationLinesToRequestVMInVBlank,
+ v->DestinationLinesToRequestVMInImmediateFlip,
+ v->DCCEnable,
+ v->PixelClock,
+ v->dpte_row_width_luma_ub,
+ v->dpte_row_width_chroma_ub,
+ v->vm_group_bytes,
+ v->dpde0_bytes_per_frame_ub_l,
+ v->dpde0_bytes_per_frame_ub_c,
+ v->meta_pte_bytes_per_frame_ub_l,
+ v->meta_pte_bytes_per_frame_ub_c,
+ v->TimePerVMGroupVBlank,
+ v->TimePerVMGroupFlip,
+ v->TimePerVMRequestVBlank,
+ v->TimePerVMRequestFlip);
+
+ // Min TTUVBlank
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (PrefetchMode == 0) {
+ v->AllowDRAMClockChangeDuringVBlank[k] = true;
+ v->AllowDRAMSelfRefreshDuringVBlank[k] = true;
+ v->MinTTUVBlank[k] = dml_max(
+ v->DRAMClockChangeWatermark,
+ dml_max(v->StutterEnterPlusExitWatermark, v->UrgentWatermark));
+ } else if (PrefetchMode == 1) {
+ v->AllowDRAMClockChangeDuringVBlank[k] = false;
+ v->AllowDRAMSelfRefreshDuringVBlank[k] = true;
+ v->MinTTUVBlank[k] = dml_max(v->StutterEnterPlusExitWatermark, v->UrgentWatermark);
+ } else {
+ v->AllowDRAMClockChangeDuringVBlank[k] = false;
+ v->AllowDRAMSelfRefreshDuringVBlank[k] = false;
+ v->MinTTUVBlank[k] = v->UrgentWatermark;
+ }
+ if (!v->DynamicMetadataEnable[k])
+ v->MinTTUVBlank[k] = v->TCalc + v->MinTTUVBlank[k];
+ }
+
+ // DCC Configuration
+ v->ActiveDPPs = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ CalculateDCCConfiguration(v->DCCEnable[k], false, // We should always know the direction DCCProgrammingAssumesScanDirectionUnknown,
+ v->SourcePixelFormat[k],
+ v->SurfaceWidthY[k],
+ v->SurfaceWidthC[k],
+ v->SurfaceHeightY[k],
+ v->SurfaceHeightC[k],
+ v->DETBufferSizeInKByte[0] * 1024,
+ v->BlockHeight256BytesY[k],
+ v->BlockHeight256BytesC[k],
+ v->SurfaceTiling[k],
+ v->BytePerPixelY[k],
+ v->BytePerPixelC[k],
+ v->BytePerPixelDETY[k],
+ v->BytePerPixelDETC[k],
+ v->SourceScan[k],
+ &v->DCCYMaxUncompressedBlock[k],
+ &v->DCCCMaxUncompressedBlock[k],
+ &v->DCCYMaxCompressedBlock[k],
+ &v->DCCCMaxCompressedBlock[k],
+ &v->DCCYIndependentBlock[k],
+ &v->DCCCIndependentBlock[k]);
+ }
+
+ // VStartup Adjustment
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ bool isInterlaceTiming;
+ double Tvstartup_margin = (v->MaxVStartupLines[k] - v->VStartup[k]) * v->HTotal[k] / v->PixelClock[k];
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%d, MinTTUVBlank = %f (before margin)\n", __func__, k, v->MinTTUVBlank[k]);
+#endif
+
+ v->MinTTUVBlank[k] = v->MinTTUVBlank[k] + Tvstartup_margin;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%d, Tvstartup_margin = %f\n", __func__, k, Tvstartup_margin);
+ dml_print("DML::%s: k=%d, MaxVStartupLines = %d\n", __func__, k, v->MaxVStartupLines[k]);
+ dml_print("DML::%s: k=%d, VStartup = %d\n", __func__, k, v->VStartup[k]);
+ dml_print("DML::%s: k=%d, MinTTUVBlank = %f\n", __func__, k, v->MinTTUVBlank[k]);
+#endif
+
+ v->Tdmdl[k] = v->Tdmdl[k] + Tvstartup_margin;
+ if (v->DynamicMetadataEnable[k] && v->DynamicMetadataVMEnabled) {
+ v->Tdmdl_vm[k] = v->Tdmdl_vm[k] + Tvstartup_margin;
+ }
+
+ isInterlaceTiming = (v->Interlace[k] && !v->ProgressiveToInterlaceUnitInOPP);
+ v->VStartup[k] = (isInterlaceTiming ? (2 * v->MaxVStartupLines[k]) : v->MaxVStartupLines[k]);
+ if (v->Interlace[k] && !v->ProgressiveToInterlaceUnitInOPP) {
+ v->MIN_DST_Y_NEXT_START[k] = dml_floor((v->VTotal[k] - v->VFrontPorch[k] + v->VTotal[k] - v->VActive[k] - v->VStartup[k]) / 2.0, 1.0);
+ } else {
+ v->MIN_DST_Y_NEXT_START[k] = v->VTotal[k] - v->VFrontPorch[k] + v->VTotal[k] - v->VActive[k] - v->VStartup[k];
+ }
+ v->MIN_DST_Y_NEXT_START[k] += dml_floor(4.0 * v->TSetup[k] / (double)v->HTotal[k] / v->PixelClock[k], 1.0) / 4.0;
+ if (((v->VUpdateOffsetPix[k] + v->VUpdateWidthPix[k] + v->VReadyOffsetPix[k]) / v->HTotal[k])
+ <= (isInterlaceTiming ?
+ dml_floor((v->VTotal[k] - v->VActive[k] - v->VFrontPorch[k] - v->VStartup[k]) / 2.0, 1.0) :
+ (int) (v->VTotal[k] - v->VActive[k] - v->VFrontPorch[k] - v->VStartup[k]))) {
+ v->VREADY_AT_OR_AFTER_VSYNC[k] = true;
+ } else {
+ v->VREADY_AT_OR_AFTER_VSYNC[k] = false;
+ }
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%d, VStartup = %d (max)\n", __func__, k, v->VStartup[k]);
+ dml_print("DML::%s: k=%d, VUpdateOffsetPix = %d\n", __func__, k, v->VUpdateOffsetPix[k]);
+ dml_print("DML::%s: k=%d, VUpdateWidthPix = %d\n", __func__, k, v->VUpdateWidthPix[k]);
+ dml_print("DML::%s: k=%d, VReadyOffsetPix = %d\n", __func__, k, v->VReadyOffsetPix[k]);
+ dml_print("DML::%s: k=%d, HTotal = %d\n", __func__, k, v->HTotal[k]);
+ dml_print("DML::%s: k=%d, VTotal = %d\n", __func__, k, v->VTotal[k]);
+ dml_print("DML::%s: k=%d, VActive = %d\n", __func__, k, v->VActive[k]);
+ dml_print("DML::%s: k=%d, VFrontPorch = %d\n", __func__, k, v->VFrontPorch[k]);
+ dml_print("DML::%s: k=%d, VStartup = %d\n", __func__, k, v->VStartup[k]);
+ dml_print("DML::%s: k=%d, MIN_DST_Y_NEXT_START = %f\n", __func__, k, v->MIN_DST_Y_NEXT_START[k]);
+ dml_print("DML::%s: k=%d, VREADY_AT_OR_AFTER_VSYNC = %d\n", __func__, k, v->VREADY_AT_OR_AFTER_VSYNC[k]);
+#endif
+ }
+
+ {
+ //Maximum Bandwidth Used
+ double TotalWRBandwidth = 0;
+ double MaxPerPlaneVActiveWRBandwidth = 0;
+ double WRBandwidth = 0;
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->WritebackEnable[k] == true && v->WritebackPixelFormat[k] == dm_444_32) {
+ WRBandwidth = v->WritebackDestinationWidth[k] * v->WritebackDestinationHeight[k]
+ / (v->HTotal[k] * v->WritebackSourceHeight[k] / v->PixelClock[k]) * 4;
+ } else if (v->WritebackEnable[k] == true) {
+ WRBandwidth = v->WritebackDestinationWidth[k] * v->WritebackDestinationHeight[k]
+ / (v->HTotal[k] * v->WritebackSourceHeight[k] / v->PixelClock[k]) * 8;
+ }
+ TotalWRBandwidth = TotalWRBandwidth + WRBandwidth;
+ MaxPerPlaneVActiveWRBandwidth = dml_max(MaxPerPlaneVActiveWRBandwidth, WRBandwidth);
+ }
+
+ v->TotalDataReadBandwidth = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->TotalDataReadBandwidth = v->TotalDataReadBandwidth + v->ReadBandwidthPlaneLuma[k] + v->ReadBandwidthPlaneChroma[k];
+ }
+ }
+ // Stutter Efficiency
+ CalculateStutterEfficiency(
+ mode_lib,
+ v->CompressedBufferSizeInkByte,
+ v->UnboundedRequestEnabled,
+ v->ConfigReturnBufferSizeInKByte,
+ v->MetaFIFOSizeInKEntries,
+ v->ZeroSizeBufferEntries,
+ v->NumberOfActivePlanes,
+ v->ROBBufferSizeInKByte,
+ v->TotalDataReadBandwidth,
+ v->DCFCLK,
+ v->ReturnBW,
+ v->COMPBUF_RESERVED_SPACE_64B,
+ v->COMPBUF_RESERVED_SPACE_ZS,
+ v->SRExitTime,
+ v->SRExitZ8Time,
+ v->SynchronizedVBlank,
+ v->StutterEnterPlusExitWatermark,
+ v->Z8StutterEnterPlusExitWatermark,
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->Interlace,
+ v->MinTTUVBlank,
+ v->DPPPerPlane,
+ v->DETBufferSizeY,
+ v->BytePerPixelY,
+ v->BytePerPixelDETY,
+ v->SwathWidthY,
+ v->SwathHeightY,
+ v->SwathHeightC,
+ v->DCCRateLuma,
+ v->DCCRateChroma,
+ v->DCCFractionOfZeroSizeRequestsLuma,
+ v->DCCFractionOfZeroSizeRequestsChroma,
+ v->HTotal,
+ v->VTotal,
+ v->PixelClock,
+ v->VRatio,
+ v->SourceScan,
+ v->BlockHeight256BytesY,
+ v->BlockWidth256BytesY,
+ v->BlockHeight256BytesC,
+ v->BlockWidth256BytesC,
+ v->DCCYMaxUncompressedBlock,
+ v->DCCCMaxUncompressedBlock,
+ v->VActive,
+ v->DCCEnable,
+ v->WritebackEnable,
+ v->ReadBandwidthPlaneLuma,
+ v->ReadBandwidthPlaneChroma,
+ v->meta_row_bw,
+ v->dpte_row_bw,
+ &v->StutterEfficiencyNotIncludingVBlank,
+ &v->StutterEfficiency,
+ &v->NumberOfStutterBurstsPerFrame,
+ &v->Z8StutterEfficiencyNotIncludingVBlank,
+ &v->Z8StutterEfficiency,
+ &v->Z8NumberOfStutterBurstsPerFrame,
+ &v->StutterPeriod);
+}
+
+static void DisplayPipeConfiguration(struct display_mode_lib *mode_lib)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ // Display Pipe Configuration
+ double BytePerPixDETY[DC__NUM_DPP__MAX];
+ double BytePerPixDETC[DC__NUM_DPP__MAX];
+ int BytePerPixY[DC__NUM_DPP__MAX];
+ int BytePerPixC[DC__NUM_DPP__MAX];
+ int Read256BytesBlockHeightY[DC__NUM_DPP__MAX];
+ int Read256BytesBlockHeightC[DC__NUM_DPP__MAX];
+ int Read256BytesBlockWidthY[DC__NUM_DPP__MAX];
+ int Read256BytesBlockWidthC[DC__NUM_DPP__MAX];
+ double dummy1[DC__NUM_DPP__MAX];
+ double dummy2[DC__NUM_DPP__MAX];
+ double dummy3[DC__NUM_DPP__MAX];
+ double dummy4[DC__NUM_DPP__MAX];
+ int dummy5[DC__NUM_DPP__MAX];
+ int dummy6[DC__NUM_DPP__MAX];
+ bool dummy7[DC__NUM_DPP__MAX];
+ bool dummysinglestring;
+
+ unsigned int k;
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+
+ CalculateBytePerPixelAnd256BBlockSizes(
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ &BytePerPixY[k],
+ &BytePerPixC[k],
+ &BytePerPixDETY[k],
+ &BytePerPixDETC[k],
+ &Read256BytesBlockHeightY[k],
+ &Read256BytesBlockHeightC[k],
+ &Read256BytesBlockWidthY[k],
+ &Read256BytesBlockWidthC[k]);
+ }
+
+ CalculateSwathAndDETConfiguration(
+ false,
+ v->NumberOfActivePlanes,
+ v->DETBufferSizeInKByte[0],
+ dummy1,
+ dummy2,
+ v->SourceScan,
+ v->SourcePixelFormat,
+ v->SurfaceTiling,
+ v->ViewportWidth,
+ v->ViewportHeight,
+ v->SurfaceWidthY,
+ v->SurfaceWidthC,
+ v->SurfaceHeightY,
+ v->SurfaceHeightC,
+ Read256BytesBlockHeightY,
+ Read256BytesBlockHeightC,
+ Read256BytesBlockWidthY,
+ Read256BytesBlockWidthC,
+ v->ODMCombineEnabled,
+ v->BlendingAndTiming,
+ BytePerPixY,
+ BytePerPixC,
+ BytePerPixDETY,
+ BytePerPixDETC,
+ v->HActive,
+ v->HRatio,
+ v->HRatioChroma,
+ v->DPPPerPlane,
+ dummy5,
+ dummy6,
+ dummy3,
+ dummy4,
+ v->SwathHeightY,
+ v->SwathHeightC,
+ v->DETBufferSizeY,
+ v->DETBufferSizeC,
+ dummy7,
+ &dummysinglestring);
+}
+
+static bool CalculateBytePerPixelAnd256BBlockSizes(
+ 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)
+{
+ 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;
+ }
+
+ 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;
+ }
+ return true;
+}
+
+static double CalculateTWait(unsigned int PrefetchMode, double DRAMClockChangeLatency, double UrgentLatency, double SREnterPlusExitTime)
+{
+ if (PrefetchMode == 0) {
+ return dml_max(DRAMClockChangeLatency + UrgentLatency, dml_max(SREnterPlusExitTime, UrgentLatency));
+ } else if (PrefetchMode == 1) {
+ return dml_max(SREnterPlusExitTime, UrgentLatency);
+ } else {
+ return UrgentLatency;
+ }
+}
+
+double dml314_CalculateWriteBackDISPCLK(
+ enum source_format_class WritebackPixelFormat,
+ double PixelClock,
+ double WritebackHRatio,
+ double WritebackVRatio,
+ unsigned int WritebackHTaps,
+ unsigned int WritebackVTaps,
+ long WritebackSourceWidth,
+ long WritebackDestinationWidth,
+ unsigned int HTotal,
+ unsigned int WritebackLineBufferSize)
+{
+ 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 dml_max3(DISPCLK_H, DISPCLK_V, DISPCLK_HB);
+}
+
+static double CalculateWriteBackDelay(
+ enum source_format_class WritebackPixelFormat,
+ double WritebackHRatio,
+ double WritebackVRatio,
+ unsigned int WritebackVTaps,
+ int WritebackDestinationWidth,
+ int WritebackDestinationHeight,
+ 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(WritebackDestinationWidth / 6.0, 1) * WritebackVTaps);
+ Output_lines_last_notclamped = WritebackDestinationHeight - 1 - dml_ceil((WritebackSourceHeight - WritebackVInit) / WritebackVRatio, 1);
+ if (Output_lines_last_notclamped < 0) {
+ CalculateWriteBackDelay = 0;
+ } else {
+ CalculateWriteBackDelay = Output_lines_last_notclamped * Line_length + (HTotal - WritebackDestinationWidth) + 80;
+ }
+ return CalculateWriteBackDelay;
+}
+
+static void CalculateVupdateAndDynamicMetadataParameters(
+ int MaxInterDCNTileRepeaters,
+ double DPPCLK,
+ double DISPCLK,
+ double DCFClkDeepSleep,
+ double PixelClock,
+ int HTotal,
+ int VBlank,
+ int DynamicMetadataTransmittedBytes,
+ int DynamicMetadataLinesBeforeActiveRequired,
+ int InterlaceEnable,
+ bool ProgressiveToInterlaceUnitInOPP,
+ double *TSetup,
+ double *Tdmbf,
+ double *Tdmec,
+ double *Tdmsks,
+ 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);
+ *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);
+#endif
+}
+
+static void 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);
+ }
+}
+
+static void CalculateFlipSchedule(
+ struct display_mode_lib *mode_lib,
+ 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,
+ 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;
+
+ if (GPUVMEnable == true && HostVMEnable == true) {
+ HostVMDynamicLevelsTrips = HostVMMaxNonCachedPageTableLevels;
+ } else {
+ HostVMDynamicLevelsTrips = 0;
+ }
+
+ if (GPUVMEnable == true || DCCEnable == true) {
+ 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;
+ }
+
+ *DestinationLinesToRequestVMInImmediateFlip = dml_ceil(4.0 * (TimeForFetchingMetaPTEImmediateFlip / LineTime), 1) / 4.0;
+ if ((GPUVMEnable == true || DCCEnable == true)) {
+ TimeForFetchingRowInVBlankImmediateFlip = dml_max3(
+ (MetaRowBytes + DPTEBytesPerRow * HostVMInefficiencyFactor) / ImmediateFlipBW,
+ UrgentLatency * (HostVMDynamicLevelsTrips + 1),
+ LineTime / 4);
+ } else {
+ TimeForFetchingRowInVBlankImmediateFlip = 0;
+ }
+
+ *DestinationLinesToRequestRowInImmediateFlip = dml_ceil(4.0 * (TimeForFetchingRowInVBlankImmediateFlip / LineTime), 1) / 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;
+ }
+
+ 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: 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
+
+}
+
+static double TruncToValidBPP(
+ double LinkBitRate,
+ int Lanes,
+ int HTotal,
+ int HActive,
+ double PixelClock,
+ double DesiredBPP,
+ bool DSCEnable,
+ enum output_encoder_class Output,
+ enum output_format_class Format,
+ unsigned int DSCInputBitPerComponent,
+ int DSCSlices,
+ int AudioRate,
+ int AudioLayout,
+ enum odm_combine_mode ODMCombine)
+{
+ double MaxLinkBPP;
+ int MinDSCBPP;
+ double MaxDSCBPP;
+ int NonDSCBPP0;
+ int NonDSCBPP1;
+ 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 {
+
+ 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 (DSCEnable && Output == dm_dp) {
+ MaxLinkBPP = LinkBitRate / 10 * 8 * Lanes / PixelClock * (1 - 2.4 / 100);
+ } else {
+ MaxLinkBPP = LinkBitRate / 10 * 8 * Lanes / PixelClock;
+ }
+
+ if (ODMCombine == dm_odm_combine_mode_4to1 && MaxLinkBPP > 16) {
+ MaxLinkBPP = 16;
+ } else if (ODMCombine == dm_odm_combine_mode_2to1 && MaxLinkBPP > 32) {
+ MaxLinkBPP = 32;
+ }
+
+ 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;
+ }
+ }
+ return BPP_INVALID;
+}
+
+static noinline void CalculatePrefetchSchedulePerPlane(
+ struct display_mode_lib *mode_lib,
+ double HostVMInefficiencyFactor,
+ int i,
+ unsigned int j,
+ unsigned int k)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ Pipe myPipe;
+
+ myPipe.DPPCLK = v->RequiredDPPCLK[i][j][k];
+ myPipe.DISPCLK = v->RequiredDISPCLK[i][j];
+ myPipe.PixelClock = v->PixelClock[k];
+ myPipe.DCFCLKDeepSleep = v->ProjectedDCFCLKDeepSleep[i][j];
+ myPipe.DPPPerPlane = v->NoOfDPP[i][j][k];
+ myPipe.ScalerEnabled = v->ScalerEnabled[k];
+ myPipe.VRatio = mode_lib->vba.VRatio[k];
+ myPipe.VRatioChroma = mode_lib->vba.VRatioChroma[k];
+
+ myPipe.SourceScan = v->SourceScan[k];
+ myPipe.BlockWidth256BytesY = v->Read256BlockWidthY[k];
+ myPipe.BlockHeight256BytesY = v->Read256BlockHeightY[k];
+ myPipe.BlockWidth256BytesC = v->Read256BlockWidthC[k];
+ myPipe.BlockHeight256BytesC = v->Read256BlockHeightC[k];
+ myPipe.InterlaceEnable = v->Interlace[k];
+ myPipe.NumberOfCursors = v->NumberOfCursors[k];
+ myPipe.VBlank = v->VTotal[k] - v->VActive[k];
+ myPipe.HTotal = v->HTotal[k];
+ myPipe.DCCEnable = v->DCCEnable[k];
+ myPipe.ODMCombineIsEnabled = v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_4to1
+ || v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_2to1;
+ myPipe.SourcePixelFormat = v->SourcePixelFormat[k];
+ myPipe.BytePerPixelY = v->BytePerPixelY[k];
+ myPipe.BytePerPixelC = v->BytePerPixelC[k];
+ myPipe.ProgressiveToInterlaceUnitInOPP = v->ProgressiveToInterlaceUnitInOPP;
+ v->NoTimeForPrefetch[i][j][k] = CalculatePrefetchSchedule(
+ mode_lib,
+ HostVMInefficiencyFactor,
+ &myPipe,
+ v->DSCDelayPerState[i][k],
+ v->DPPCLKDelaySubtotal + v->DPPCLKDelayCNVCFormater,
+ v->DPPCLKDelaySCL,
+ v->DPPCLKDelaySCLLBOnly,
+ v->DPPCLKDelayCNVCCursor,
+ v->DISPCLKDelaySubtotal,
+ v->SwathWidthYThisState[k] / v->HRatio[k],
+ v->OutputFormat[k],
+ v->MaxInterDCNTileRepeaters,
+ dml_min(v->MaxVStartup, v->MaximumVStartup[i][j][k]),
+ v->MaximumVStartup[i][j][k],
+ v->GPUVMMaxPageTableLevels,
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->HostVMMinPageSize,
+ v->DynamicMetadataEnable[k],
+ v->DynamicMetadataVMEnabled,
+ v->DynamicMetadataLinesBeforeActiveRequired[k],
+ v->DynamicMetadataTransmittedBytes[k],
+ v->UrgLatency[i],
+ v->ExtraLatency,
+ v->TimeCalc,
+ v->PDEAndMetaPTEBytesPerFrame[i][j][k],
+ v->MetaRowBytes[i][j][k],
+ v->DPTEBytesPerRow[i][j][k],
+ v->PrefetchLinesY[i][j][k],
+ v->SwathWidthYThisState[k],
+ v->PrefillY[k],
+ v->MaxNumSwY[k],
+ v->PrefetchLinesC[i][j][k],
+ v->SwathWidthCThisState[k],
+ v->PrefillC[k],
+ v->MaxNumSwC[k],
+ v->swath_width_luma_ub_this_state[k],
+ v->swath_width_chroma_ub_this_state[k],
+ v->SwathHeightYThisState[k],
+ v->SwathHeightCThisState[k],
+ v->TWait,
+ &v->DSTXAfterScaler[k],
+ &v->DSTYAfterScaler[k],
+ &v->LineTimesForPrefetch[k],
+ &v->PrefetchBW[k],
+ &v->LinesForMetaPTE[k],
+ &v->LinesForMetaAndDPTERow[k],
+ &v->VRatioPreY[i][j][k],
+ &v->VRatioPreC[i][j][k],
+ &v->RequiredPrefetchPixelDataBWLuma[i][j][k],
+ &v->RequiredPrefetchPixelDataBWChroma[i][j][k],
+ &v->NoTimeForDynamicMetadata[i][j][k],
+ &v->Tno_bw[k],
+ &v->prefetch_vmrow_bw[k],
+ &v->dummy7[k],
+ &v->dummy8[k],
+ &v->dummy13[k],
+ &v->VUpdateOffsetPix[k],
+ &v->VUpdateWidthPix[k],
+ &v->VReadyOffsetPix[k]);
+}
+
+void dml314_ModeSupportAndSystemConfigurationFull(struct display_mode_lib *mode_lib)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+
+ int i, j;
+ unsigned int k, m;
+ int ReorderingBytes;
+ int MinPrefetchMode = 0, MaxPrefetchMode = 2;
+ bool NoChroma = true;
+ bool EnoughWritebackUnits = true;
+ bool P2IWith420 = false;
+ bool DSCOnlyIfNecessaryWithBPP = false;
+ bool DSC422NativeNotSupported = false;
+ double MaxTotalVActiveRDBandwidth;
+ bool ViewportExceedsSurface = false;
+ bool FMTBufferExceeded = false;
+
+ /*MODE SUPPORT, VOLTAGE STATE AND SOC CONFIGURATION*/
+
+ CalculateMinAndMaxPrefetchMode(
+ mode_lib->vba.AllowDRAMSelfRefreshOrDRAMClockChangeInVblank,
+ &MinPrefetchMode, &MaxPrefetchMode);
+
+ /*Scale Ratio, taps Support Check*/
+
+ v->ScaleRatioAndTapsSupport = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->ScalerEnabled[k] == false
+ && ((v->SourcePixelFormat[k] != dm_444_64 && v->SourcePixelFormat[k] != dm_444_32
+ && v->SourcePixelFormat[k] != dm_444_16 && v->SourcePixelFormat[k] != dm_mono_16
+ && v->SourcePixelFormat[k] != dm_mono_8 && v->SourcePixelFormat[k] != dm_rgbe
+ && v->SourcePixelFormat[k] != dm_rgbe_alpha) || v->HRatio[k] != 1.0 || v->htaps[k] != 1.0
+ || v->VRatio[k] != 1.0 || v->vtaps[k] != 1.0)) {
+ v->ScaleRatioAndTapsSupport = false;
+ } else if (v->vtaps[k] < 1.0 || v->vtaps[k] > 8.0 || v->htaps[k] < 1.0 || v->htaps[k] > 8.0
+ || (v->htaps[k] > 1.0 && (v->htaps[k] % 2) == 1) || v->HRatio[k] > v->MaxHSCLRatio
+ || v->VRatio[k] > v->MaxVSCLRatio || v->HRatio[k] > v->htaps[k]
+ || v->VRatio[k] > v->vtaps[k]
+ || (v->SourcePixelFormat[k] != dm_444_64 && v->SourcePixelFormat[k] != dm_444_32
+ && v->SourcePixelFormat[k] != dm_444_16 && v->SourcePixelFormat[k] != dm_mono_16
+ && v->SourcePixelFormat[k] != dm_mono_8 && v->SourcePixelFormat[k] != dm_rgbe
+ && (v->VTAPsChroma[k] < 1 || v->VTAPsChroma[k] > 8 || v->HTAPsChroma[k] < 1
+ || v->HTAPsChroma[k] > 8 || (v->HTAPsChroma[k] > 1 && v->HTAPsChroma[k] % 2 == 1)
+ || v->HRatioChroma[k] > v->MaxHSCLRatio
+ || v->VRatioChroma[k] > v->MaxVSCLRatio
+ || v->HRatioChroma[k] > v->HTAPsChroma[k]
+ || v->VRatioChroma[k] > v->VTAPsChroma[k]))) {
+ v->ScaleRatioAndTapsSupport = false;
+ }
+ }
+ /*Source Format, Pixel Format and Scan Support Check*/
+
+ v->SourceFormatPixelAndScanSupport = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if ((v->SurfaceTiling[k] == dm_sw_linear && (!(v->SourceScan[k] != dm_vert) || v->DCCEnable[k] == true))
+ || ((v->SurfaceTiling[k] == dm_sw_64kb_d || v->SurfaceTiling[k] == dm_sw_64kb_d_t
+ || v->SurfaceTiling[k] == dm_sw_64kb_d_x) && !(v->SourcePixelFormat[k] == dm_444_64))) {
+ v->SourceFormatPixelAndScanSupport = false;
+ }
+ }
+ /*Bandwidth Support Check*/
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ CalculateBytePerPixelAnd256BBlockSizes(
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ &v->BytePerPixelY[k],
+ &v->BytePerPixelC[k],
+ &v->BytePerPixelInDETY[k],
+ &v->BytePerPixelInDETC[k],
+ &v->Read256BlockHeightY[k],
+ &v->Read256BlockHeightC[k],
+ &v->Read256BlockWidthY[k],
+ &v->Read256BlockWidthC[k]);
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->SourceScan[k] != dm_vert) {
+ v->SwathWidthYSingleDPP[k] = v->ViewportWidth[k];
+ v->SwathWidthCSingleDPP[k] = v->ViewportWidthChroma[k];
+ } else {
+ v->SwathWidthYSingleDPP[k] = v->ViewportHeight[k];
+ v->SwathWidthCSingleDPP[k] = v->ViewportHeightChroma[k];
+ }
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->ReadBandwidthLuma[k] = v->SwathWidthYSingleDPP[k] * dml_ceil(v->BytePerPixelInDETY[k], 1.0)
+ / (v->HTotal[k] / v->PixelClock[k]) * v->VRatio[k];
+ v->ReadBandwidthChroma[k] = v->SwathWidthYSingleDPP[k] / 2 * dml_ceil(v->BytePerPixelInDETC[k], 2.0)
+ / (v->HTotal[k] / v->PixelClock[k]) * v->VRatio[k] / 2.0;
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->WritebackEnable[k] == true && v->WritebackPixelFormat[k] == dm_444_64) {
+ v->WriteBandwidth[k] = v->WritebackDestinationWidth[k] * v->WritebackDestinationHeight[k]
+ / (v->WritebackSourceHeight[k] * v->HTotal[k] / v->PixelClock[k]) * 8.0;
+ } else if (v->WritebackEnable[k] == true) {
+ v->WriteBandwidth[k] = v->WritebackDestinationWidth[k] * v->WritebackDestinationHeight[k]
+ / (v->WritebackSourceHeight[k] * v->HTotal[k] / v->PixelClock[k]) * 4.0;
+ } else {
+ v->WriteBandwidth[k] = 0.0;
+ }
+ }
+
+ /*Writeback Latency support check*/
+
+ v->WritebackLatencySupport = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->WritebackEnable[k] == true && (v->WriteBandwidth[k] > v->WritebackInterfaceBufferSize * 1024 / v->WritebackLatency)) {
+ v->WritebackLatencySupport = false;
+ }
+ }
+
+ /*Writeback Mode Support Check*/
+
+ v->TotalNumberOfActiveWriteback = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->WritebackEnable[k] == true) {
+ v->TotalNumberOfActiveWriteback = v->TotalNumberOfActiveWriteback + 1;
+ }
+ }
+
+ if (v->TotalNumberOfActiveWriteback > v->MaxNumWriteback) {
+ EnoughWritebackUnits = false;
+ }
+
+ /*Writeback Scale Ratio and Taps Support Check*/
+
+ v->WritebackScaleRatioAndTapsSupport = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->WritebackEnable[k] == true) {
+ if (v->WritebackHRatio[k] > v->WritebackMaxHSCLRatio || v->WritebackVRatio[k] > v->WritebackMaxVSCLRatio
+ || v->WritebackHRatio[k] < v->WritebackMinHSCLRatio
+ || v->WritebackVRatio[k] < v->WritebackMinVSCLRatio
+ || v->WritebackHTaps[k] > v->WritebackMaxHSCLTaps
+ || v->WritebackVTaps[k] > v->WritebackMaxVSCLTaps
+ || v->WritebackHRatio[k] > v->WritebackHTaps[k] || v->WritebackVRatio[k] > v->WritebackVTaps[k]
+ || (v->WritebackHTaps[k] > 2.0 && ((v->WritebackHTaps[k] % 2) == 1))) {
+ v->WritebackScaleRatioAndTapsSupport = false;
+ }
+ if (2.0 * v->WritebackDestinationWidth[k] * (v->WritebackVTaps[k] - 1) * 57 > v->WritebackLineBufferSize) {
+ v->WritebackScaleRatioAndTapsSupport = false;
+ }
+ }
+ }
+ /*Maximum DISPCLK/DPPCLK Support check*/
+
+ v->WritebackRequiredDISPCLK = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->WritebackEnable[k] == true) {
+ v->WritebackRequiredDISPCLK = dml_max(
+ v->WritebackRequiredDISPCLK,
+ dml314_CalculateWriteBackDISPCLK(
+ v->WritebackPixelFormat[k],
+ v->PixelClock[k],
+ v->WritebackHRatio[k],
+ v->WritebackVRatio[k],
+ v->WritebackHTaps[k],
+ v->WritebackVTaps[k],
+ v->WritebackSourceWidth[k],
+ v->WritebackDestinationWidth[k],
+ v->HTotal[k],
+ v->WritebackLineBufferSize));
+ }
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->HRatio[k] > 1.0) {
+ v->PSCL_FACTOR[k] = dml_min(
+ v->MaxDCHUBToPSCLThroughput,
+ v->MaxPSCLToLBThroughput * v->HRatio[k] / dml_ceil(v->htaps[k] / 6.0, 1.0));
+ } else {
+ v->PSCL_FACTOR[k] = dml_min(v->MaxDCHUBToPSCLThroughput, v->MaxPSCLToLBThroughput);
+ }
+ if (v->BytePerPixelC[k] == 0.0) {
+ v->PSCL_FACTOR_CHROMA[k] = 0.0;
+ v->MinDPPCLKUsingSingleDPP[k] = v->PixelClock[k]
+ * dml_max3(
+ v->vtaps[k] / 6.0 * dml_min(1.0, v->HRatio[k]),
+ v->HRatio[k] * v->VRatio[k] / v->PSCL_FACTOR[k],
+ 1.0);
+ if ((v->htaps[k] > 6.0 || v->vtaps[k] > 6.0) && v->MinDPPCLKUsingSingleDPP[k] < 2.0 * v->PixelClock[k]) {
+ v->MinDPPCLKUsingSingleDPP[k] = 2.0 * v->PixelClock[k];
+ }
+ } else {
+ if (v->HRatioChroma[k] > 1.0) {
+ v->PSCL_FACTOR_CHROMA[k] = dml_min(
+ v->MaxDCHUBToPSCLThroughput,
+ v->MaxPSCLToLBThroughput * v->HRatioChroma[k] / dml_ceil(v->HTAPsChroma[k] / 6.0, 1.0));
+ } else {
+ v->PSCL_FACTOR_CHROMA[k] = dml_min(v->MaxDCHUBToPSCLThroughput, v->MaxPSCLToLBThroughput);
+ }
+ v->MinDPPCLKUsingSingleDPP[k] = v->PixelClock[k]
+ * dml_max5(
+ v->vtaps[k] / 6.0 * dml_min(1.0, v->HRatio[k]),
+ v->HRatio[k] * v->VRatio[k] / v->PSCL_FACTOR[k],
+ v->VTAPsChroma[k] / 6.0 * dml_min(1.0, v->HRatioChroma[k]),
+ v->HRatioChroma[k] * v->VRatioChroma[k] / v->PSCL_FACTOR_CHROMA[k],
+ 1.0);
+ if ((v->htaps[k] > 6.0 || v->vtaps[k] > 6.0 || v->HTAPsChroma[k] > 6.0 || v->VTAPsChroma[k] > 6.0)
+ && v->MinDPPCLKUsingSingleDPP[k] < 2.0 * v->PixelClock[k]) {
+ v->MinDPPCLKUsingSingleDPP[k] = 2.0 * v->PixelClock[k];
+ }
+ }
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ int MaximumSwathWidthSupportLuma;
+ int MaximumSwathWidthSupportChroma;
+
+ if (v->SurfaceTiling[k] == dm_sw_linear) {
+ MaximumSwathWidthSupportLuma = 8192.0;
+ } else if (v->SourceScan[k] == dm_vert && v->BytePerPixelC[k] > 0) {
+ MaximumSwathWidthSupportLuma = 2880.0;
+ } else if (v->SourcePixelFormat[k] == dm_rgbe_alpha) {
+ MaximumSwathWidthSupportLuma = 3840.0;
+ } else {
+ MaximumSwathWidthSupportLuma = 5760.0;
+ }
+
+ if (v->SourcePixelFormat[k] == dm_420_8 || v->SourcePixelFormat[k] == dm_420_10 || v->SourcePixelFormat[k] == dm_420_12) {
+ MaximumSwathWidthSupportChroma = MaximumSwathWidthSupportLuma / 2.0;
+ } else {
+ MaximumSwathWidthSupportChroma = MaximumSwathWidthSupportLuma;
+ }
+ v->MaximumSwathWidthInLineBufferLuma = v->LineBufferSize * dml_max(v->HRatio[k], 1.0) / v->LBBitPerPixel[k]
+ / (v->vtaps[k] + dml_max(dml_ceil(v->VRatio[k], 1.0) - 2, 0.0));
+ if (v->BytePerPixelC[k] == 0.0) {
+ v->MaximumSwathWidthInLineBufferChroma = 0;
+ } else {
+ v->MaximumSwathWidthInLineBufferChroma = v->LineBufferSize * dml_max(v->HRatioChroma[k], 1.0) / v->LBBitPerPixel[k]
+ / (v->VTAPsChroma[k] + dml_max(dml_ceil(v->VRatioChroma[k], 1.0) - 2, 0.0));
+ }
+ v->MaximumSwathWidthLuma[k] = dml_min(MaximumSwathWidthSupportLuma, v->MaximumSwathWidthInLineBufferLuma);
+ v->MaximumSwathWidthChroma[k] = dml_min(MaximumSwathWidthSupportChroma, v->MaximumSwathWidthInLineBufferChroma);
+ }
+
+ CalculateSwathAndDETConfiguration(
+ true,
+ v->NumberOfActivePlanes,
+ v->DETBufferSizeInKByte[0],
+ v->MaximumSwathWidthLuma,
+ v->MaximumSwathWidthChroma,
+ v->SourceScan,
+ v->SourcePixelFormat,
+ v->SurfaceTiling,
+ v->ViewportWidth,
+ v->ViewportHeight,
+ v->SurfaceWidthY,
+ v->SurfaceWidthC,
+ v->SurfaceHeightY,
+ v->SurfaceHeightC,
+ v->Read256BlockHeightY,
+ v->Read256BlockHeightC,
+ v->Read256BlockWidthY,
+ v->Read256BlockWidthC,
+ v->odm_combine_dummy,
+ v->BlendingAndTiming,
+ v->BytePerPixelY,
+ v->BytePerPixelC,
+ v->BytePerPixelInDETY,
+ v->BytePerPixelInDETC,
+ v->HActive,
+ v->HRatio,
+ v->HRatioChroma,
+ v->NoOfDPPThisState,
+ v->swath_width_luma_ub_this_state,
+ v->swath_width_chroma_ub_this_state,
+ v->SwathWidthYThisState,
+ v->SwathWidthCThisState,
+ v->SwathHeightYThisState,
+ v->SwathHeightCThisState,
+ v->DETBufferSizeYThisState,
+ v->DETBufferSizeCThisState,
+ v->SingleDPPViewportSizeSupportPerPlane,
+ &v->ViewportSizeSupport[0][0]);
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ for (j = 0; j < 2; j++) {
+ v->MaxDispclkRoundedDownToDFSGranularity = RoundToDFSGranularityDown(v->MaxDispclk[i], v->DISPCLKDPPCLKVCOSpeed);
+ v->MaxDppclkRoundedDownToDFSGranularity = RoundToDFSGranularityDown(v->MaxDppclk[i], v->DISPCLKDPPCLKVCOSpeed);
+ v->RequiredDISPCLK[i][j] = 0.0;
+ v->DISPCLK_DPPCLK_Support[i][j] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->PlaneRequiredDISPCLKWithoutODMCombine = v->PixelClock[k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ * (1.0 + v->DISPCLKRampingMargin / 100.0);
+ if ((v->PlaneRequiredDISPCLKWithoutODMCombine >= v->MaxDispclk[i]
+ && v->MaxDispclk[i] == v->MaxDispclk[v->soc.num_states - 1]
+ && v->MaxDppclk[i] == v->MaxDppclk[v->soc.num_states - 1])) {
+ v->PlaneRequiredDISPCLKWithoutODMCombine = v->PixelClock[k]
+ * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0);
+ }
+ v->PlaneRequiredDISPCLKWithODMCombine2To1 = v->PixelClock[k] / 2 * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ * (1 + v->DISPCLKRampingMargin / 100.0);
+ if ((v->PlaneRequiredDISPCLKWithODMCombine2To1 >= v->MaxDispclk[i]
+ && v->MaxDispclk[i] == v->MaxDispclk[v->soc.num_states - 1]
+ && v->MaxDppclk[i] == v->MaxDppclk[v->soc.num_states - 1])) {
+ v->PlaneRequiredDISPCLKWithODMCombine2To1 = v->PixelClock[k] / 2
+ * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0);
+ }
+ v->PlaneRequiredDISPCLKWithODMCombine4To1 = v->PixelClock[k] / 4 * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ * (1 + v->DISPCLKRampingMargin / 100.0);
+ if ((v->PlaneRequiredDISPCLKWithODMCombine4To1 >= v->MaxDispclk[i]
+ && v->MaxDispclk[i] == v->MaxDispclk[v->soc.num_states - 1]
+ && v->MaxDppclk[i] == v->MaxDppclk[v->soc.num_states - 1])) {
+ v->PlaneRequiredDISPCLKWithODMCombine4To1 = v->PixelClock[k] / 4
+ * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0);
+ }
+
+ if (v->ODMCombinePolicy == dm_odm_combine_policy_none
+ || !(v->Output[k] == dm_dp ||
+ v->Output[k] == dm_dp2p0 ||
+ v->Output[k] == dm_edp)) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_disabled;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithoutODMCombine;
+
+ if (v->HActive[k] / 2 > DCN314_MAX_FMT_420_BUFFER_WIDTH)
+ FMTBufferExceeded = true;
+ } else if (v->ODMCombinePolicy == dm_odm_combine_policy_2to1) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_2to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine2To1;
+ } else if (v->ODMCombinePolicy == dm_odm_combine_policy_4to1
+ || v->PlaneRequiredDISPCLKWithODMCombine2To1 > v->MaxDispclkRoundedDownToDFSGranularity) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_4to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine4To1;
+ } else if (v->PlaneRequiredDISPCLKWithoutODMCombine > v->MaxDispclkRoundedDownToDFSGranularity) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_2to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine2To1;
+ } else {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_disabled;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithoutODMCombine;
+ }
+ if (v->DSCEnabled[k] && v->HActive[k] > DCN314_MAX_DSC_IMAGE_WIDTH
+ && v->ODMCombineEnablePerState[i][k] != dm_odm_combine_mode_4to1) {
+ if (v->HActive[k] / 2 > DCN314_MAX_DSC_IMAGE_WIDTH) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_4to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine4To1;
+ } else {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_2to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine2To1;
+ }
+ }
+ if (v->OutputFormat[k] == dm_420 && v->HActive[k] > DCN314_MAX_FMT_420_BUFFER_WIDTH
+ && v->ODMCombineEnablePerState[i][k] != dm_odm_combine_mode_4to1) {
+ if (v->HActive[k] / 2 > DCN314_MAX_FMT_420_BUFFER_WIDTH) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_4to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine4To1;
+
+ if (v->HActive[k] / 4 > DCN314_MAX_FMT_420_BUFFER_WIDTH)
+ FMTBufferExceeded = true;
+ } else {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_2to1;
+ v->PlaneRequiredDISPCLK = v->PlaneRequiredDISPCLKWithODMCombine2To1;
+ }
+ }
+ if (v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_4to1) {
+ v->MPCCombine[i][j][k] = false;
+ v->NoOfDPP[i][j][k] = 4;
+ v->RequiredDPPCLK[i][j][k] = v->MinDPPCLKUsingSingleDPP[k] * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0) / 4;
+ } else if (v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_2to1) {
+ v->MPCCombine[i][j][k] = false;
+ v->NoOfDPP[i][j][k] = 2;
+ v->RequiredDPPCLK[i][j][k] = v->MinDPPCLKUsingSingleDPP[k] * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0) / 2;
+ } else if ((v->WhenToDoMPCCombine == dm_mpc_never
+ || (v->MinDPPCLKUsingSingleDPP[k] * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ <= v->MaxDppclkRoundedDownToDFSGranularity && v->SingleDPPViewportSizeSupportPerPlane[k] == true))) {
+ v->MPCCombine[i][j][k] = false;
+ v->NoOfDPP[i][j][k] = 1;
+ v->RequiredDPPCLK[i][j][k] = v->MinDPPCLKUsingSingleDPP[k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0);
+ } else {
+ v->MPCCombine[i][j][k] = true;
+ v->NoOfDPP[i][j][k] = 2;
+ v->RequiredDPPCLK[i][j][k] = v->MinDPPCLKUsingSingleDPP[k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0) / 2.0;
+ }
+ v->RequiredDISPCLK[i][j] = dml_max(v->RequiredDISPCLK[i][j], v->PlaneRequiredDISPCLK);
+ if ((v->MinDPPCLKUsingSingleDPP[k] / v->NoOfDPP[i][j][k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ > v->MaxDppclkRoundedDownToDFSGranularity)
+ || (v->PlaneRequiredDISPCLK > v->MaxDispclkRoundedDownToDFSGranularity)) {
+ v->DISPCLK_DPPCLK_Support[i][j] = false;
+ }
+ }
+ v->TotalNumberOfActiveDPP[i][j] = 0;
+ v->TotalNumberOfSingleDPPPlanes[i][j] = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->TotalNumberOfActiveDPP[i][j] = v->TotalNumberOfActiveDPP[i][j] + v->NoOfDPP[i][j][k];
+ if (v->NoOfDPP[i][j][k] == 1)
+ v->TotalNumberOfSingleDPPPlanes[i][j] = v->TotalNumberOfSingleDPPPlanes[i][j] + 1;
+ if (v->SourcePixelFormat[k] == dm_420_8 || v->SourcePixelFormat[k] == dm_420_10
+ || v->SourcePixelFormat[k] == dm_420_12 || v->SourcePixelFormat[k] == dm_rgbe_alpha)
+ NoChroma = false;
+ }
+
+ // UPTO
+ if (j == 1 && v->WhenToDoMPCCombine != dm_mpc_never
+ && !UnboundedRequest(v->UseUnboundedRequesting, v->TotalNumberOfActiveDPP[i][j], NoChroma, v->Output[0])) {
+ while (!(v->TotalNumberOfActiveDPP[i][j] >= v->MaxNumDPP || v->TotalNumberOfSingleDPPPlanes[i][j] == 0)) {
+ double BWOfNonSplitPlaneOfMaximumBandwidth;
+ unsigned int NumberOfNonSplitPlaneOfMaximumBandwidth;
+
+ BWOfNonSplitPlaneOfMaximumBandwidth = 0;
+ NumberOfNonSplitPlaneOfMaximumBandwidth = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->ReadBandwidthLuma[k] + v->ReadBandwidthChroma[k] > BWOfNonSplitPlaneOfMaximumBandwidth
+ && v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_disabled && v->MPCCombine[i][j][k] == false) {
+ BWOfNonSplitPlaneOfMaximumBandwidth = v->ReadBandwidthLuma[k] + v->ReadBandwidthChroma[k];
+ NumberOfNonSplitPlaneOfMaximumBandwidth = k;
+ }
+ }
+ v->MPCCombine[i][j][NumberOfNonSplitPlaneOfMaximumBandwidth] = true;
+ v->NoOfDPP[i][j][NumberOfNonSplitPlaneOfMaximumBandwidth] = 2;
+ v->RequiredDPPCLK[i][j][NumberOfNonSplitPlaneOfMaximumBandwidth] =
+ v->MinDPPCLKUsingSingleDPP[NumberOfNonSplitPlaneOfMaximumBandwidth]
+ * (1 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100) / 2;
+ v->TotalNumberOfActiveDPP[i][j] = v->TotalNumberOfActiveDPP[i][j] + 1;
+ v->TotalNumberOfSingleDPPPlanes[i][j] = v->TotalNumberOfSingleDPPPlanes[i][j] - 1;
+ }
+ }
+ if (v->TotalNumberOfActiveDPP[i][j] > v->MaxNumDPP) {
+ v->RequiredDISPCLK[i][j] = 0.0;
+ v->DISPCLK_DPPCLK_Support[i][j] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->ODMCombineEnablePerState[i][k] = dm_odm_combine_mode_disabled;
+ if (v->SingleDPPViewportSizeSupportPerPlane[k] == false && v->WhenToDoMPCCombine != dm_mpc_never) {
+ v->MPCCombine[i][j][k] = true;
+ v->NoOfDPP[i][j][k] = 2;
+ v->RequiredDPPCLK[i][j][k] = v->MinDPPCLKUsingSingleDPP[k]
+ * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0) / 2.0;
+ } else {
+ v->MPCCombine[i][j][k] = false;
+ v->NoOfDPP[i][j][k] = 1;
+ v->RequiredDPPCLK[i][j][k] = v->MinDPPCLKUsingSingleDPP[k]
+ * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0);
+ }
+ if (!(v->MaxDispclk[i] == v->MaxDispclk[v->soc.num_states - 1]
+ && v->MaxDppclk[i] == v->MaxDppclk[v->soc.num_states - 1])) {
+ v->PlaneRequiredDISPCLK = v->PixelClock[k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ * (1.0 + v->DISPCLKRampingMargin / 100.0);
+ } else {
+ v->PlaneRequiredDISPCLK = v->PixelClock[k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0);
+ }
+ v->RequiredDISPCLK[i][j] = dml_max(v->RequiredDISPCLK[i][j], v->PlaneRequiredDISPCLK);
+ if ((v->MinDPPCLKUsingSingleDPP[k] / v->NoOfDPP[i][j][k] * (1.0 + v->DISPCLKDPPCLKDSCCLKDownSpreading / 100.0)
+ > v->MaxDppclkRoundedDownToDFSGranularity)
+ || (v->PlaneRequiredDISPCLK > v->MaxDispclkRoundedDownToDFSGranularity)) {
+ v->DISPCLK_DPPCLK_Support[i][j] = false;
+ }
+ }
+ v->TotalNumberOfActiveDPP[i][j] = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->TotalNumberOfActiveDPP[i][j] = v->TotalNumberOfActiveDPP[i][j] + v->NoOfDPP[i][j][k];
+ }
+ }
+ v->RequiredDISPCLK[i][j] = dml_max(v->RequiredDISPCLK[i][j], v->WritebackRequiredDISPCLK);
+ if (v->MaxDispclkRoundedDownToDFSGranularity < v->WritebackRequiredDISPCLK) {
+ v->DISPCLK_DPPCLK_Support[i][j] = false;
+ }
+ }
+ }
+
+ /*Total Available Pipes Support Check*/
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ for (j = 0; j < 2; j++) {
+ if (v->TotalNumberOfActiveDPP[i][j] <= v->MaxNumDPP) {
+ v->TotalAvailablePipesSupport[i][j] = true;
+ } else {
+ v->TotalAvailablePipesSupport[i][j] = false;
+ }
+ }
+ }
+ /*Display IO and DSC Support Check*/
+
+ v->NonsupportedDSCInputBPC = false;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (!(v->DSCInputBitPerComponent[k] == 12.0 || v->DSCInputBitPerComponent[k] == 10.0 || v->DSCInputBitPerComponent[k] == 8.0)
+ || v->DSCInputBitPerComponent[k] > v->MaximumDSCBitsPerComponent) {
+ v->NonsupportedDSCInputBPC = true;
+ }
+ }
+
+ /*Number Of DSC Slices*/
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->BlendingAndTiming[k] == k) {
+ if (v->PixelClockBackEnd[k] > 3200) {
+ v->NumberOfDSCSlices[k] = dml_ceil(v->PixelClockBackEnd[k] / 400.0, 4.0);
+ } else if (v->PixelClockBackEnd[k] > 1360) {
+ v->NumberOfDSCSlices[k] = 8;
+ } else if (v->PixelClockBackEnd[k] > 680) {
+ v->NumberOfDSCSlices[k] = 4;
+ } else if (v->PixelClockBackEnd[k] > 340) {
+ v->NumberOfDSCSlices[k] = 2;
+ } else {
+ v->NumberOfDSCSlices[k] = 1;
+ }
+ } else {
+ v->NumberOfDSCSlices[k] = 0;
+ }
+ }
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->RequiresDSC[i][k] = false;
+ v->RequiresFEC[i][k] = false;
+ if (v->BlendingAndTiming[k] == k) {
+ if (v->Output[k] == dm_hdmi) {
+ v->RequiresDSC[i][k] = false;
+ v->RequiresFEC[i][k] = false;
+ v->OutputBppPerState[i][k] = TruncToValidBPP(
+ dml_min(600.0, v->PHYCLKPerState[i]) * 10,
+ 3,
+ v->HTotal[k],
+ v->HActive[k],
+ v->PixelClockBackEnd[k],
+ v->ForcedOutputLinkBPP[k],
+ false,
+ v->Output[k],
+ v->OutputFormat[k],
+ v->DSCInputBitPerComponent[k],
+ v->NumberOfDSCSlices[k],
+ v->AudioSampleRate[k],
+ v->AudioSampleLayout[k],
+ v->ODMCombineEnablePerState[i][k]);
+ } else if (v->Output[k] == dm_dp || v->Output[k] == dm_edp) {
+ if (v->DSCEnable[k] == true) {
+ v->RequiresDSC[i][k] = true;
+ v->LinkDSCEnable = true;
+ if (v->Output[k] == dm_dp) {
+ v->RequiresFEC[i][k] = true;
+ } else {
+ v->RequiresFEC[i][k] = false;
+ }
+ } else {
+ v->RequiresDSC[i][k] = false;
+ v->LinkDSCEnable = false;
+ v->RequiresFEC[i][k] = false;
+ }
+
+ v->Outbpp = BPP_INVALID;
+ if (v->PHYCLKPerState[i] >= 270.0) {
+ v->Outbpp = TruncToValidBPP(
+ (1.0 - v->Downspreading / 100.0) * 2700,
+ v->OutputLinkDPLanes[k],
+ v->HTotal[k],
+ v->HActive[k],
+ v->PixelClockBackEnd[k],
+ v->ForcedOutputLinkBPP[k],
+ v->LinkDSCEnable,
+ v->Output[k],
+ v->OutputFormat[k],
+ v->DSCInputBitPerComponent[k],
+ v->NumberOfDSCSlices[k],
+ v->AudioSampleRate[k],
+ v->AudioSampleLayout[k],
+ v->ODMCombineEnablePerState[i][k]);
+ v->OutputBppPerState[i][k] = v->Outbpp;
+ // TODO: Need some other way to handle this nonsense
+ // v->OutputTypeAndRatePerState[i][k] = v->Output[k] & " HBR"
+ }
+ if (v->Outbpp == BPP_INVALID && v->PHYCLKPerState[i] >= 540.0) {
+ v->Outbpp = TruncToValidBPP(
+ (1.0 - v->Downspreading / 100.0) * 5400,
+ v->OutputLinkDPLanes[k],
+ v->HTotal[k],
+ v->HActive[k],
+ v->PixelClockBackEnd[k],
+ v->ForcedOutputLinkBPP[k],
+ v->LinkDSCEnable,
+ v->Output[k],
+ v->OutputFormat[k],
+ v->DSCInputBitPerComponent[k],
+ v->NumberOfDSCSlices[k],
+ v->AudioSampleRate[k],
+ v->AudioSampleLayout[k],
+ v->ODMCombineEnablePerState[i][k]);
+ v->OutputBppPerState[i][k] = v->Outbpp;
+ // TODO: Need some other way to handle this nonsense
+ // v->OutputTypeAndRatePerState[i][k] = v->Output[k] & " HBR2"
+ }
+ if (v->Outbpp == BPP_INVALID && v->PHYCLKPerState[i] >= 810.0) {
+ v->Outbpp = TruncToValidBPP(
+ (1.0 - v->Downspreading / 100.0) * 8100,
+ v->OutputLinkDPLanes[k],
+ v->HTotal[k],
+ v->HActive[k],
+ v->PixelClockBackEnd[k],
+ v->ForcedOutputLinkBPP[k],
+ v->LinkDSCEnable,
+ v->Output[k],
+ v->OutputFormat[k],
+ v->DSCInputBitPerComponent[k],
+ v->NumberOfDSCSlices[k],
+ v->AudioSampleRate[k],
+ v->AudioSampleLayout[k],
+ v->ODMCombineEnablePerState[i][k]);
+ v->OutputBppPerState[i][k] = v->Outbpp;
+ // TODO: Need some other way to handle this nonsense
+ // v->OutputTypeAndRatePerState[i][k] = v->Output[k] & " HBR3"
+ }
+ if (v->Outbpp == BPP_INVALID && v->PHYCLKD18PerState[i] >= 10000.0 / 18) {
+ v->Outbpp = TruncToValidBPP(
+ (1.0 - v->Downspreading / 100.0) * 10000,
+ 4,
+ v->HTotal[k],
+ v->HActive[k],
+ v->PixelClockBackEnd[k],
+ v->ForcedOutputLinkBPP[k],
+ v->LinkDSCEnable,
+ v->Output[k],
+ v->OutputFormat[k],
+ v->DSCInputBitPerComponent[k],
+ v->NumberOfDSCSlices[k],
+ v->AudioSampleRate[k],
+ v->AudioSampleLayout[k],
+ v->ODMCombineEnablePerState[i][k]);
+ v->OutputBppPerState[i][k] = v->Outbpp;
+ //v->OutputTypeAndRatePerState[i][k] = v->Output[k] & "10x4";
+ }
+ if (v->Outbpp == BPP_INVALID && v->PHYCLKD18PerState[i] >= 12000.0 / 18) {
+ v->Outbpp = TruncToValidBPP(
+ 12000,
+ 4,
+ v->HTotal[k],
+ v->HActive[k],
+ v->PixelClockBackEnd[k],
+ v->ForcedOutputLinkBPP[k],
+ v->LinkDSCEnable,
+ v->Output[k],
+ v->OutputFormat[k],
+ v->DSCInputBitPerComponent[k],
+ v->NumberOfDSCSlices[k],
+ v->AudioSampleRate[k],
+ v->AudioSampleLayout[k],
+ v->ODMCombineEnablePerState[i][k]);
+ v->OutputBppPerState[i][k] = v->Outbpp;
+ //v->OutputTypeAndRatePerState[i][k] = v->Output[k] & "12x4";
+ }
+ }
+ } else {
+ v->OutputBppPerState[i][k] = 0;
+ }
+ }
+ }
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ v->LinkCapacitySupport[i] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->BlendingAndTiming[k] == k
+ && (v->Output[k] == dm_dp ||
+ v->Output[k] == dm_edp ||
+ v->Output[k] == dm_hdmi) && v->OutputBppPerState[i][k] == 0) {
+ v->LinkCapacitySupport[i] = false;
+ }
+ }
+ }
+
+ // UPTO 2172
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->BlendingAndTiming[k] == k
+ && (v->Output[k] == dm_dp ||
+ v->Output[k] == dm_edp ||
+ v->Output[k] == dm_hdmi)) {
+ if (v->OutputFormat[k] == dm_420 && v->Interlace[k] == 1 && v->ProgressiveToInterlaceUnitInOPP == true) {
+ P2IWith420 = true;
+ }
+ if (v->DSCEnable[k] == true && v->OutputFormat[k] == dm_n422
+ && !v->DSC422NativeSupport) {
+ DSC422NativeNotSupported = true;
+ }
+ }
+ }
+
+
+ for (i = 0; i < v->soc.num_states; ++i) {
+ v->ODMCombine4To1SupportCheckOK[i] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->BlendingAndTiming[k] == k && v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_4to1
+ && (v->ODMCombine4To1Supported == false || v->Output[k] == dm_dp || v->Output[k] == dm_edp
+ || v->Output[k] == dm_hdmi)) {
+ v->ODMCombine4To1SupportCheckOK[i] = false;
+ }
+ }
+ }
+
+ /* Skip dscclk validation: as long as dispclk is supported, dscclk is also implicitly supported */
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ v->NotEnoughDSCUnits[i] = false;
+ v->TotalDSCUnitsRequired = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->RequiresDSC[i][k] == true) {
+ if (v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_4to1) {
+ v->TotalDSCUnitsRequired = v->TotalDSCUnitsRequired + 4.0;
+ } else if (v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_2to1) {
+ v->TotalDSCUnitsRequired = v->TotalDSCUnitsRequired + 2.0;
+ } else {
+ v->TotalDSCUnitsRequired = v->TotalDSCUnitsRequired + 1.0;
+ }
+ }
+ }
+ if (v->TotalDSCUnitsRequired > v->NumberOfDSC) {
+ v->NotEnoughDSCUnits[i] = true;
+ }
+ }
+ /*DSC Delay per state*/
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->OutputBppPerState[i][k] == BPP_INVALID) {
+ v->BPP = 0.0;
+ } else {
+ v->BPP = v->OutputBppPerState[i][k];
+ }
+ if (v->RequiresDSC[i][k] == true && v->BPP != 0.0) {
+ if (v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_disabled) {
+ v->DSCDelayPerState[i][k] = dscceComputeDelay(
+ v->DSCInputBitPerComponent[k],
+ v->BPP,
+ dml_ceil(1.0 * v->HActive[k] / v->NumberOfDSCSlices[k], 1.0),
+ v->NumberOfDSCSlices[k],
+ v->OutputFormat[k],
+ v->Output[k]) + dscComputeDelay(v->OutputFormat[k], v->Output[k]);
+ } else if (v->ODMCombineEnablePerState[i][k] == dm_odm_combine_mode_2to1) {
+ v->DSCDelayPerState[i][k] = 2.0
+ * (dscceComputeDelay(
+ v->DSCInputBitPerComponent[k],
+ v->BPP,
+ dml_ceil(1.0 * v->HActive[k] / v->NumberOfDSCSlices[k], 1.0),
+ v->NumberOfDSCSlices[k] / 2,
+ v->OutputFormat[k],
+ v->Output[k]) + dscComputeDelay(v->OutputFormat[k], v->Output[k]));
+ } else {
+ v->DSCDelayPerState[i][k] = 4.0
+ * (dscceComputeDelay(
+ v->DSCInputBitPerComponent[k],
+ v->BPP,
+ dml_ceil(1.0 * v->HActive[k] / v->NumberOfDSCSlices[k], 1.0),
+ v->NumberOfDSCSlices[k] / 4,
+ v->OutputFormat[k],
+ v->Output[k]) + dscComputeDelay(v->OutputFormat[k], v->Output[k]));
+ }
+ v->DSCDelayPerState[i][k] = v->DSCDelayPerState[i][k] * v->PixelClock[k] / v->PixelClockBackEnd[k];
+ } else {
+ v->DSCDelayPerState[i][k] = 0.0;
+ }
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ for (m = 0; m < v->NumberOfActivePlanes; m++) {
+ if (v->BlendingAndTiming[k] == m && v->RequiresDSC[i][m] == true) {
+ v->DSCDelayPerState[i][k] = v->DSCDelayPerState[i][m];
+ }
+ }
+ }
+ }
+
+ //Calculate Swath, DET Configuration, DCFCLKDeepSleep
+ //
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->RequiredDPPCLKThisState[k] = v->RequiredDPPCLK[i][j][k];
+ v->NoOfDPPThisState[k] = v->NoOfDPP[i][j][k];
+ v->ODMCombineEnableThisState[k] = v->ODMCombineEnablePerState[i][k];
+ }
+
+ CalculateSwathAndDETConfiguration(
+ false,
+ v->NumberOfActivePlanes,
+ v->DETBufferSizeInKByte[0],
+ v->MaximumSwathWidthLuma,
+ v->MaximumSwathWidthChroma,
+ v->SourceScan,
+ v->SourcePixelFormat,
+ v->SurfaceTiling,
+ v->ViewportWidth,
+ v->ViewportHeight,
+ v->SurfaceWidthY,
+ v->SurfaceWidthC,
+ v->SurfaceHeightY,
+ v->SurfaceHeightC,
+ v->Read256BlockHeightY,
+ v->Read256BlockHeightC,
+ v->Read256BlockWidthY,
+ v->Read256BlockWidthC,
+ v->ODMCombineEnableThisState,
+ v->BlendingAndTiming,
+ v->BytePerPixelY,
+ v->BytePerPixelC,
+ v->BytePerPixelInDETY,
+ v->BytePerPixelInDETC,
+ v->HActive,
+ v->HRatio,
+ v->HRatioChroma,
+ v->NoOfDPPThisState,
+ v->swath_width_luma_ub_this_state,
+ v->swath_width_chroma_ub_this_state,
+ v->SwathWidthYThisState,
+ v->SwathWidthCThisState,
+ v->SwathHeightYThisState,
+ v->SwathHeightCThisState,
+ v->DETBufferSizeYThisState,
+ v->DETBufferSizeCThisState,
+ v->dummystring,
+ &v->ViewportSizeSupport[i][j]);
+
+ CalculateDCFCLKDeepSleep(
+ mode_lib,
+ v->NumberOfActivePlanes,
+ v->BytePerPixelY,
+ v->BytePerPixelC,
+ v->VRatio,
+ v->VRatioChroma,
+ v->SwathWidthYThisState,
+ v->SwathWidthCThisState,
+ v->NoOfDPPThisState,
+ v->HRatio,
+ v->HRatioChroma,
+ v->PixelClock,
+ v->PSCL_FACTOR,
+ v->PSCL_FACTOR_CHROMA,
+ v->RequiredDPPCLKThisState,
+ v->ReadBandwidthLuma,
+ v->ReadBandwidthChroma,
+ v->ReturnBusWidth,
+ &v->ProjectedDCFCLKDeepSleep[i][j]);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->swath_width_luma_ub_all_states[i][j][k] = v->swath_width_luma_ub_this_state[k];
+ v->swath_width_chroma_ub_all_states[i][j][k] = v->swath_width_chroma_ub_this_state[k];
+ v->SwathWidthYAllStates[i][j][k] = v->SwathWidthYThisState[k];
+ v->SwathWidthCAllStates[i][j][k] = v->SwathWidthCThisState[k];
+ v->SwathHeightYAllStates[i][j][k] = v->SwathHeightYThisState[k];
+ v->SwathHeightCAllStates[i][j][k] = v->SwathHeightCThisState[k];
+ v->DETBufferSizeYAllStates[i][j][k] = v->DETBufferSizeYThisState[k];
+ v->DETBufferSizeCAllStates[i][j][k] = v->DETBufferSizeCThisState[k];
+ }
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->cursor_bw[k] = v->NumberOfCursors[k] * v->CursorWidth[k][0] * v->CursorBPP[k][0] / 8.0
+ / (v->HTotal[k] / v->PixelClock[k]) * v->VRatio[k];
+ }
+
+ for (i = 0; i < v->soc.num_states; i++) {
+ for (j = 0; j < 2; j++) {
+ bool NotUrgentLatencyHiding[DC__NUM_DPP__MAX];
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->swath_width_luma_ub_this_state[k] = v->swath_width_luma_ub_all_states[i][j][k];
+ v->swath_width_chroma_ub_this_state[k] = v->swath_width_chroma_ub_all_states[i][j][k];
+ v->SwathWidthYThisState[k] = v->SwathWidthYAllStates[i][j][k];
+ v->SwathWidthCThisState[k] = v->SwathWidthCAllStates[i][j][k];
+ v->SwathHeightYThisState[k] = v->SwathHeightYAllStates[i][j][k];
+ v->SwathHeightCThisState[k] = v->SwathHeightCAllStates[i][j][k];
+ v->DETBufferSizeYThisState[k] = v->DETBufferSizeYAllStates[i][j][k];
+ v->DETBufferSizeCThisState[k] = v->DETBufferSizeCAllStates[i][j][k];
+ }
+
+ v->TotalNumberOfDCCActiveDPP[i][j] = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->DCCEnable[k] == true) {
+ v->TotalNumberOfDCCActiveDPP[i][j] = v->TotalNumberOfDCCActiveDPP[i][j] + v->NoOfDPP[i][j][k];
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->SourcePixelFormat[k] == dm_420_8 || v->SourcePixelFormat[k] == dm_420_10
+ || v->SourcePixelFormat[k] == dm_420_12 || v->SourcePixelFormat[k] == dm_rgbe_alpha) {
+
+ if ((v->SourcePixelFormat[k] == dm_420_10 || v->SourcePixelFormat[k] == dm_420_12)
+ && v->SourceScan[k] != dm_vert) {
+ v->PTEBufferSizeInRequestsForLuma = (v->PTEBufferSizeInRequestsLuma + v->PTEBufferSizeInRequestsChroma)
+ / 2;
+ v->PTEBufferSizeInRequestsForChroma = v->PTEBufferSizeInRequestsForLuma;
+ } else {
+ v->PTEBufferSizeInRequestsForLuma = v->PTEBufferSizeInRequestsLuma;
+ v->PTEBufferSizeInRequestsForChroma = v->PTEBufferSizeInRequestsChroma;
+ }
+
+ v->PDEAndMetaPTEBytesPerFrameC = CalculateVMAndRowBytes(
+ mode_lib,
+ v->DCCEnable[k],
+ v->Read256BlockHeightC[k],
+ v->Read256BlockWidthC[k],
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ v->BytePerPixelC[k],
+ v->SourceScan[k],
+ v->SwathWidthCThisState[k],
+ v->ViewportHeightChroma[k],
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->GPUVMMinPageSize,
+ v->HostVMMinPageSize,
+ v->PTEBufferSizeInRequestsForChroma,
+ v->PitchC[k],
+ 0.0,
+ &v->MacroTileWidthC[k],
+ &v->MetaRowBytesC,
+ &v->DPTEBytesPerRowC,
+ &v->PTEBufferSizeNotExceededC[i][j][k],
+ &v->dummyinteger7,
+ &v->dpte_row_height_chroma[k],
+ &v->dummyinteger28,
+ &v->dummyinteger26,
+ &v->dummyinteger23,
+ &v->meta_row_height_chroma[k],
+ &v->dummyinteger8,
+ &v->dummyinteger9,
+ &v->dummyinteger19,
+ &v->dummyinteger20,
+ &v->dummyinteger17,
+ &v->dummyinteger10,
+ &v->dummyinteger11);
+
+ v->PrefetchLinesC[i][j][k] = CalculatePrefetchSourceLines(
+ mode_lib,
+ v->VRatioChroma[k],
+ v->VTAPsChroma[k],
+ v->Interlace[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->SwathHeightCThisState[k],
+ v->ViewportYStartC[k],
+ &v->PrefillC[k],
+ &v->MaxNumSwC[k]);
+ } else {
+ v->PTEBufferSizeInRequestsForLuma = v->PTEBufferSizeInRequestsLuma + v->PTEBufferSizeInRequestsChroma;
+ v->PTEBufferSizeInRequestsForChroma = 0;
+ v->PDEAndMetaPTEBytesPerFrameC = 0.0;
+ v->MetaRowBytesC = 0.0;
+ v->DPTEBytesPerRowC = 0.0;
+ v->PrefetchLinesC[i][j][k] = 0.0;
+ v->PTEBufferSizeNotExceededC[i][j][k] = true;
+ }
+ v->PDEAndMetaPTEBytesPerFrameY = CalculateVMAndRowBytes(
+ mode_lib,
+ v->DCCEnable[k],
+ v->Read256BlockHeightY[k],
+ v->Read256BlockWidthY[k],
+ v->SourcePixelFormat[k],
+ v->SurfaceTiling[k],
+ v->BytePerPixelY[k],
+ v->SourceScan[k],
+ v->SwathWidthYThisState[k],
+ v->ViewportHeight[k],
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->GPUVMMinPageSize,
+ v->HostVMMinPageSize,
+ v->PTEBufferSizeInRequestsForLuma,
+ v->PitchY[k],
+ v->DCCMetaPitchY[k],
+ &v->MacroTileWidthY[k],
+ &v->MetaRowBytesY,
+ &v->DPTEBytesPerRowY,
+ &v->PTEBufferSizeNotExceededY[i][j][k],
+ &v->dummyinteger7,
+ &v->dpte_row_height[k],
+ &v->dummyinteger29,
+ &v->dummyinteger27,
+ &v->dummyinteger24,
+ &v->meta_row_height[k],
+ &v->dummyinteger25,
+ &v->dpte_group_bytes[k],
+ &v->dummyinteger21,
+ &v->dummyinteger22,
+ &v->dummyinteger18,
+ &v->dummyinteger5,
+ &v->dummyinteger6);
+ v->PrefetchLinesY[i][j][k] = CalculatePrefetchSourceLines(
+ mode_lib,
+ v->VRatio[k],
+ v->vtaps[k],
+ v->Interlace[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->SwathHeightYThisState[k],
+ v->ViewportYStartY[k],
+ &v->PrefillY[k],
+ &v->MaxNumSwY[k]);
+ v->PDEAndMetaPTEBytesPerFrame[i][j][k] = v->PDEAndMetaPTEBytesPerFrameY + v->PDEAndMetaPTEBytesPerFrameC;
+ v->MetaRowBytes[i][j][k] = v->MetaRowBytesY + v->MetaRowBytesC;
+ v->DPTEBytesPerRow[i][j][k] = v->DPTEBytesPerRowY + v->DPTEBytesPerRowC;
+
+ CalculateRowBandwidth(
+ v->GPUVMEnable,
+ v->SourcePixelFormat[k],
+ v->VRatio[k],
+ v->VRatioChroma[k],
+ v->DCCEnable[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->MetaRowBytesY,
+ v->MetaRowBytesC,
+ v->meta_row_height[k],
+ v->meta_row_height_chroma[k],
+ v->DPTEBytesPerRowY,
+ v->DPTEBytesPerRowC,
+ v->dpte_row_height[k],
+ v->dpte_row_height_chroma[k],
+ &v->meta_row_bandwidth[i][j][k],
+ &v->dpte_row_bandwidth[i][j][k]);
+ }
+ /*
+ * DCCMetaBufferSizeSupport(i, j) = True
+ * For k = 0 To NumberOfActivePlanes - 1
+ * If MetaRowBytes(i, j, k) > 24064 Then
+ * DCCMetaBufferSizeSupport(i, j) = False
+ * End If
+ * Next k
+ */
+ v->DCCMetaBufferSizeSupport[i][j] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->MetaRowBytes[i][j][k] > 24064)
+ v->DCCMetaBufferSizeSupport[i][j] = false;
+ }
+ v->UrgLatency[i] = CalculateUrgentLatency(
+ v->UrgentLatencyPixelDataOnly,
+ v->UrgentLatencyPixelMixedWithVMData,
+ v->UrgentLatencyVMDataOnly,
+ v->DoUrgentLatencyAdjustment,
+ v->UrgentLatencyAdjustmentFabricClockComponent,
+ v->UrgentLatencyAdjustmentFabricClockReference,
+ v->FabricClockPerState[i]);
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ CalculateUrgentBurstFactor(
+ v->swath_width_luma_ub_this_state[k],
+ v->swath_width_chroma_ub_this_state[k],
+ v->SwathHeightYThisState[k],
+ v->SwathHeightCThisState[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->UrgLatency[i],
+ v->CursorBufferSize,
+ v->CursorWidth[k][0],
+ v->CursorBPP[k][0],
+ v->VRatio[k],
+ v->VRatioChroma[k],
+ v->BytePerPixelInDETY[k],
+ v->BytePerPixelInDETC[k],
+ v->DETBufferSizeYThisState[k],
+ v->DETBufferSizeCThisState[k],
+ &v->UrgentBurstFactorCursor[k],
+ &v->UrgentBurstFactorLuma[k],
+ &v->UrgentBurstFactorChroma[k],
+ &NotUrgentLatencyHiding[k]);
+ }
+
+ v->NotEnoughUrgentLatencyHidingA[i][j] = false;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (NotUrgentLatencyHiding[k]) {
+ v->NotEnoughUrgentLatencyHidingA[i][j] = true;
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->VActivePixelBandwidth[i][j][k] = v->ReadBandwidthLuma[k] * v->UrgentBurstFactorLuma[k]
+ + v->ReadBandwidthChroma[k] * v->UrgentBurstFactorChroma[k];
+ v->VActiveCursorBandwidth[i][j][k] = v->cursor_bw[k] * v->UrgentBurstFactorCursor[k];
+ }
+
+ v->TotalVActivePixelBandwidth[i][j] = 0;
+ v->TotalVActiveCursorBandwidth[i][j] = 0;
+ v->TotalMetaRowBandwidth[i][j] = 0;
+ v->TotalDPTERowBandwidth[i][j] = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->TotalVActivePixelBandwidth[i][j] = v->TotalVActivePixelBandwidth[i][j] + v->VActivePixelBandwidth[i][j][k];
+ v->TotalVActiveCursorBandwidth[i][j] = v->TotalVActiveCursorBandwidth[i][j] + v->VActiveCursorBandwidth[i][j][k];
+ v->TotalMetaRowBandwidth[i][j] = v->TotalMetaRowBandwidth[i][j] + v->NoOfDPP[i][j][k] * v->meta_row_bandwidth[i][j][k];
+ v->TotalDPTERowBandwidth[i][j] = v->TotalDPTERowBandwidth[i][j] + v->NoOfDPP[i][j][k] * v->dpte_row_bandwidth[i][j][k];
+ }
+ }
+ }
+
+ //Calculate Return BW
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->BlendingAndTiming[k] == k) {
+ if (v->WritebackEnable[k] == true) {
+ v->WritebackDelayTime[k] = v->WritebackLatency
+ + CalculateWriteBackDelay(
+ v->WritebackPixelFormat[k],
+ v->WritebackHRatio[k],
+ v->WritebackVRatio[k],
+ v->WritebackVTaps[k],
+ v->WritebackDestinationWidth[k],
+ v->WritebackDestinationHeight[k],
+ v->WritebackSourceHeight[k],
+ v->HTotal[k]) / v->RequiredDISPCLK[i][j];
+ } else {
+ v->WritebackDelayTime[k] = 0.0;
+ }
+ for (m = 0; m < v->NumberOfActivePlanes; m++) {
+ if (v->BlendingAndTiming[m] == k && v->WritebackEnable[m] == true) {
+ v->WritebackDelayTime[k] = dml_max(
+ v->WritebackDelayTime[k],
+ v->WritebackLatency
+ + CalculateWriteBackDelay(
+ v->WritebackPixelFormat[m],
+ v->WritebackHRatio[m],
+ v->WritebackVRatio[m],
+ v->WritebackVTaps[m],
+ v->WritebackDestinationWidth[m],
+ v->WritebackDestinationHeight[m],
+ v->WritebackSourceHeight[m],
+ v->HTotal[m]) / v->RequiredDISPCLK[i][j]);
+ }
+ }
+ }
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ for (m = 0; m < v->NumberOfActivePlanes; m++) {
+ if (v->BlendingAndTiming[k] == m) {
+ v->WritebackDelayTime[k] = v->WritebackDelayTime[m];
+ }
+ }
+ }
+ v->MaxMaxVStartup[i][j] = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->MaximumVStartup[i][j][k] =
+ CalculateMaxVStartup(
+ v->VTotal[k],
+ v->VActive[k],
+ v->VBlankNom[k],
+ v->HTotal[k],
+ v->PixelClock[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ v->Interlace[k],
+ v->ip.VBlankNomDefaultUS,
+ v->WritebackDelayTime[k]);
+ v->MaxMaxVStartup[i][j] = dml_max(v->MaxMaxVStartup[i][j], v->MaximumVStartup[i][j][k]);
+ }
+ }
+ }
+
+ ReorderingBytes = v->NumberOfChannels
+ * dml_max3(
+ v->UrgentOutOfOrderReturnPerChannelPixelDataOnly,
+ v->UrgentOutOfOrderReturnPerChannelPixelMixedWithVMData,
+ v->UrgentOutOfOrderReturnPerChannelVMDataOnly);
+
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ v->DCFCLKState[i][j] = v->DCFCLKPerState[i];
+ }
+ }
+
+ if (v->UseMinimumRequiredDCFCLK == true)
+ UseMinimumDCFCLK(mode_lib, MaxPrefetchMode, ReorderingBytes);
+
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ double IdealFabricAndSDPPortBandwidthPerState = dml_min(
+ v->ReturnBusWidth * v->DCFCLKState[i][j],
+ v->FabricClockPerState[i] * v->FabricDatapathToDCNDataReturn);
+ double IdealDRAMBandwidthPerState = v->DRAMSpeedPerState[i] * v->NumberOfChannels * v->DRAMChannelWidth;
+ double PixelDataOnlyReturnBWPerState = dml_min(
+ IdealFabricAndSDPPortBandwidthPerState * v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0,
+ IdealDRAMBandwidthPerState * v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyPixelDataOnly / 100.0);
+ double PixelMixedWithVMDataReturnBWPerState = dml_min(
+ IdealFabricAndSDPPortBandwidthPerState * v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0,
+ IdealDRAMBandwidthPerState * v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyPixelMixedWithVMData / 100.0);
+
+ if (v->HostVMEnable != true) {
+ v->ReturnBWPerState[i][j] = PixelDataOnlyReturnBWPerState;
+ } else {
+ v->ReturnBWPerState[i][j] = PixelMixedWithVMDataReturnBWPerState;
+ }
+ }
+ }
+
+ //Re-ordering Buffer Support Check
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ if ((v->ROBBufferSizeInKByte - v->PixelChunkSizeInKByte) * 1024 / v->ReturnBWPerState[i][j]
+ > (v->RoundTripPingLatencyCycles + __DML_ARB_TO_RET_DELAY__) / v->DCFCLKState[i][j] + ReorderingBytes / v->ReturnBWPerState[i][j]) {
+ v->ROBSupport[i][j] = true;
+ } else {
+ v->ROBSupport[i][j] = false;
+ }
+ }
+ }
+
+ //Vertical Active BW support check
+
+ MaxTotalVActiveRDBandwidth = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ MaxTotalVActiveRDBandwidth = MaxTotalVActiveRDBandwidth + v->ReadBandwidthLuma[k] + v->ReadBandwidthChroma[k];
+ }
+
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ v->MaxTotalVerticalActiveAvailableBandwidth[i][j] = dml_min(
+ dml_min(
+ v->ReturnBusWidth * v->DCFCLKState[i][j],
+ v->FabricClockPerState[i] * v->FabricDatapathToDCNDataReturn)
+ * v->MaxAveragePercentOfIdealFabricAndSDPPortBWDisplayCanUseInNormalSystemOperation / 100,
+ v->DRAMSpeedPerState[i] * v->NumberOfChannels * v->DRAMChannelWidth
+ * v->MaxAveragePercentOfIdealDRAMBWDisplayCanUseInNormalSystemOperation / 100);
+
+ if (MaxTotalVActiveRDBandwidth <= v->MaxTotalVerticalActiveAvailableBandwidth[i][j]) {
+ v->TotalVerticalActiveBandwidthSupport[i][j] = true;
+ } else {
+ v->TotalVerticalActiveBandwidthSupport[i][j] = false;
+ }
+ }
+ }
+
+ v->UrgentLatency = CalculateUrgentLatency(
+ v->UrgentLatencyPixelDataOnly,
+ v->UrgentLatencyPixelMixedWithVMData,
+ v->UrgentLatencyVMDataOnly,
+ v->DoUrgentLatencyAdjustment,
+ v->UrgentLatencyAdjustmentFabricClockComponent,
+ v->UrgentLatencyAdjustmentFabricClockReference,
+ v->FabricClock);
+ //Prefetch Check
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ double VMDataOnlyReturnBWPerState;
+ double HostVMInefficiencyFactor = 1;
+ int NextPrefetchModeState = MinPrefetchMode;
+ bool UnboundedRequestEnabledThisState = false;
+ int CompressedBufferSizeInkByteThisState = 0;
+ double dummy;
+
+ v->TimeCalc = 24 / v->ProjectedDCFCLKDeepSleep[i][j];
+
+ v->BandwidthWithoutPrefetchSupported[i][j] = true;
+ if (v->TotalVActivePixelBandwidth[i][j] + v->TotalVActiveCursorBandwidth[i][j] + v->TotalMetaRowBandwidth[i][j]
+ + v->TotalDPTERowBandwidth[i][j] > v->ReturnBWPerState[i][j] || v->NotEnoughUrgentLatencyHidingA[i][j]) {
+ v->BandwidthWithoutPrefetchSupported[i][j] = false;
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ v->NoOfDPPThisState[k] = v->NoOfDPP[i][j][k];
+ v->swath_width_luma_ub_this_state[k] = v->swath_width_luma_ub_all_states[i][j][k];
+ v->swath_width_chroma_ub_this_state[k] = v->swath_width_chroma_ub_all_states[i][j][k];
+ v->SwathWidthYThisState[k] = v->SwathWidthYAllStates[i][j][k];
+ v->SwathWidthCThisState[k] = v->SwathWidthCAllStates[i][j][k];
+ v->SwathHeightYThisState[k] = v->SwathHeightYAllStates[i][j][k];
+ v->SwathHeightCThisState[k] = v->SwathHeightCAllStates[i][j][k];
+ v->DETBufferSizeYThisState[k] = v->DETBufferSizeYAllStates[i][j][k];
+ v->DETBufferSizeCThisState[k] = v->DETBufferSizeCAllStates[i][j][k];
+ }
+
+ VMDataOnlyReturnBWPerState = dml_min(
+ dml_min(
+ v->ReturnBusWidth * v->DCFCLKState[i][j],
+ v->FabricClockPerState[i] * v->FabricDatapathToDCNDataReturn)
+ * v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0,
+ v->DRAMSpeedPerState[i] * v->NumberOfChannels * v->DRAMChannelWidth
+ * v->PercentOfIdealDRAMBWReceivedAfterUrgLatencyVMDataOnly / 100.0);
+ if (v->GPUVMEnable && v->HostVMEnable)
+ HostVMInefficiencyFactor = v->ReturnBWPerState[i][j] / VMDataOnlyReturnBWPerState;
+
+ v->ExtraLatency = CalculateExtraLatency(
+ v->RoundTripPingLatencyCycles,
+ ReorderingBytes,
+ v->DCFCLKState[i][j],
+ v->TotalNumberOfActiveDPP[i][j],
+ v->PixelChunkSizeInKByte,
+ v->TotalNumberOfDCCActiveDPP[i][j],
+ v->MetaChunkSize,
+ v->ReturnBWPerState[i][j],
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->NumberOfActivePlanes,
+ v->NoOfDPPThisState,
+ v->dpte_group_bytes,
+ HostVMInefficiencyFactor,
+ v->HostVMMinPageSize,
+ v->HostVMMaxNonCachedPageTableLevels);
+
+ v->NextMaxVStartup = v->MaxMaxVStartup[i][j];
+ do {
+ v->PrefetchModePerState[i][j] = NextPrefetchModeState;
+ v->MaxVStartup = v->NextMaxVStartup;
+
+ v->TWait = CalculateTWait(
+ v->PrefetchModePerState[i][j],
+ v->DRAMClockChangeLatency,
+ v->UrgLatency[i],
+ v->SREnterPlusExitTime);
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ CalculatePrefetchSchedulePerPlane(mode_lib,
+ HostVMInefficiencyFactor,
+ i, j, k);
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ CalculateUrgentBurstFactor(
+ v->swath_width_luma_ub_this_state[k],
+ v->swath_width_chroma_ub_this_state[k],
+ v->SwathHeightYThisState[k],
+ v->SwathHeightCThisState[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->UrgentLatency,
+ v->CursorBufferSize,
+ v->CursorWidth[k][0],
+ v->CursorBPP[k][0],
+ v->VRatioPreY[i][j][k],
+ v->VRatioPreC[i][j][k],
+ v->BytePerPixelInDETY[k],
+ v->BytePerPixelInDETC[k],
+ v->DETBufferSizeYThisState[k],
+ v->DETBufferSizeCThisState[k],
+ &v->UrgentBurstFactorCursorPre[k],
+ &v->UrgentBurstFactorLumaPre[k],
+ &v->UrgentBurstFactorChroma[k],
+ &v->NotUrgentLatencyHidingPre[k]);
+ }
+
+ v->MaximumReadBandwidthWithPrefetch = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->cursor_bw_pre[k] = v->NumberOfCursors[k] * v->CursorWidth[k][0] * v->CursorBPP[k][0] / 8.0
+ / (v->HTotal[k] / v->PixelClock[k]) * v->VRatioPreY[i][j][k];
+
+ v->MaximumReadBandwidthWithPrefetch =
+ v->MaximumReadBandwidthWithPrefetch
+ + dml_max3(
+ v->VActivePixelBandwidth[i][j][k]
+ + v->VActiveCursorBandwidth[i][j][k]
+ + v->NoOfDPP[i][j][k]
+ * (v->meta_row_bandwidth[i][j][k]
+ + v->dpte_row_bandwidth[i][j][k]),
+ v->NoOfDPP[i][j][k] * v->prefetch_vmrow_bw[k],
+ v->NoOfDPP[i][j][k]
+ * (v->RequiredPrefetchPixelDataBWLuma[i][j][k]
+ * v->UrgentBurstFactorLumaPre[k]
+ + v->RequiredPrefetchPixelDataBWChroma[i][j][k]
+ * v->UrgentBurstFactorChromaPre[k])
+ + v->cursor_bw_pre[k] * v->UrgentBurstFactorCursorPre[k]);
+ }
+
+ v->NotEnoughUrgentLatencyHidingPre = false;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->NotUrgentLatencyHidingPre[k] == true) {
+ v->NotEnoughUrgentLatencyHidingPre = true;
+ }
+ }
+
+ v->PrefetchSupported[i][j] = true;
+ if (v->BandwidthWithoutPrefetchSupported[i][j] == false || v->MaximumReadBandwidthWithPrefetch > v->ReturnBWPerState[i][j]
+ || v->NotEnoughUrgentLatencyHidingPre == 1) {
+ v->PrefetchSupported[i][j] = false;
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->LineTimesForPrefetch[k] < 2.0 || v->LinesForMetaPTE[k] >= 32.0 || v->LinesForMetaAndDPTERow[k] >= 16.0
+ || v->NoTimeForPrefetch[i][j][k] == true) {
+ v->PrefetchSupported[i][j] = false;
+ }
+ }
+
+ v->DynamicMetadataSupported[i][j] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->NoTimeForDynamicMetadata[i][j][k] == true) {
+ v->DynamicMetadataSupported[i][j] = false;
+ }
+ }
+
+ v->VRatioInPrefetchSupported[i][j] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->VRatioPreY[i][j][k] > 4.0 || v->VRatioPreC[i][j][k] > 4.0 || v->NoTimeForPrefetch[i][j][k] == true) {
+ v->VRatioInPrefetchSupported[i][j] = false;
+ }
+ }
+ v->AnyLinesForVMOrRowTooLarge = false;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ if (v->LinesForMetaAndDPTERow[k] >= 16 || v->LinesForMetaPTE[k] >= 32) {
+ v->AnyLinesForVMOrRowTooLarge = true;
+ }
+ }
+
+ v->NextPrefetchMode = v->NextPrefetchMode + 1;
+
+ if (v->PrefetchSupported[i][j] == true && v->VRatioInPrefetchSupported[i][j] == true) {
+ v->BandwidthAvailableForImmediateFlip = v->ReturnBWPerState[i][j];
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->BandwidthAvailableForImmediateFlip = v->BandwidthAvailableForImmediateFlip
+ - dml_max(
+ v->VActivePixelBandwidth[i][j][k] + v->VActiveCursorBandwidth[i][j][k],
+ v->NoOfDPP[i][j][k]
+ * (v->RequiredPrefetchPixelDataBWLuma[i][j][k]
+ * v->UrgentBurstFactorLumaPre[k]
+ + v->RequiredPrefetchPixelDataBWChroma[i][j][k]
+ * v->UrgentBurstFactorChromaPre[k])
+ + v->cursor_bw_pre[k] * v->UrgentBurstFactorCursorPre[k]);
+ }
+ v->TotImmediateFlipBytes = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->TotImmediateFlipBytes = v->TotImmediateFlipBytes
+ + v->NoOfDPP[i][j][k] * v->PDEAndMetaPTEBytesPerFrame[i][j][k] + v->MetaRowBytes[i][j][k]
+ + v->DPTEBytesPerRow[i][j][k];
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ CalculateFlipSchedule(
+ mode_lib,
+ HostVMInefficiencyFactor,
+ v->ExtraLatency,
+ v->UrgLatency[i],
+ v->GPUVMMaxPageTableLevels,
+ v->HostVMEnable,
+ v->HostVMMaxNonCachedPageTableLevels,
+ v->GPUVMEnable,
+ v->HostVMMinPageSize,
+ v->PDEAndMetaPTEBytesPerFrame[i][j][k],
+ v->MetaRowBytes[i][j][k],
+ v->DPTEBytesPerRow[i][j][k],
+ v->BandwidthAvailableForImmediateFlip,
+ v->TotImmediateFlipBytes,
+ v->SourcePixelFormat[k],
+ v->HTotal[k] / v->PixelClock[k],
+ v->VRatio[k],
+ v->VRatioChroma[k],
+ v->Tno_bw[k],
+ v->DCCEnable[k],
+ v->dpte_row_height[k],
+ v->meta_row_height[k],
+ v->dpte_row_height_chroma[k],
+ v->meta_row_height_chroma[k],
+ &v->DestinationLinesToRequestVMInImmediateFlip[k],
+ &v->DestinationLinesToRequestRowInImmediateFlip[k],
+ &v->final_flip_bw[k],
+ &v->ImmediateFlipSupportedForPipe[k]);
+ }
+ v->total_dcn_read_bw_with_flip = 0.0;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->total_dcn_read_bw_with_flip = v->total_dcn_read_bw_with_flip
+ + dml_max3(
+ v->NoOfDPP[i][j][k] * v->prefetch_vmrow_bw[k],
+ v->NoOfDPP[i][j][k] * v->final_flip_bw[k] + v->VActivePixelBandwidth[i][j][k]
+ + v->VActiveCursorBandwidth[i][j][k],
+ v->NoOfDPP[i][j][k]
+ * (v->final_flip_bw[k]
+ + v->RequiredPrefetchPixelDataBWLuma[i][j][k]
+ * v->UrgentBurstFactorLumaPre[k]
+ + v->RequiredPrefetchPixelDataBWChroma[i][j][k]
+ * v->UrgentBurstFactorChromaPre[k])
+ + v->cursor_bw_pre[k] * v->UrgentBurstFactorCursorPre[k]);
+ }
+ v->ImmediateFlipSupportedForState[i][j] = true;
+ if (v->total_dcn_read_bw_with_flip > v->ReturnBWPerState[i][j]) {
+ v->ImmediateFlipSupportedForState[i][j] = false;
+ }
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->ImmediateFlipSupportedForPipe[k] == false) {
+ v->ImmediateFlipSupportedForState[i][j] = false;
+ }
+ }
+ } else {
+ v->ImmediateFlipSupportedForState[i][j] = false;
+ }
+
+ if (v->MaxVStartup <= __DML_VBA_MIN_VSTARTUP__ || v->AnyLinesForVMOrRowTooLarge == false) {
+ v->NextMaxVStartup = v->MaxMaxVStartup[i][j];
+ NextPrefetchModeState = NextPrefetchModeState + 1;
+ } else {
+ v->NextMaxVStartup = v->NextMaxVStartup - 1;
+ }
+ v->NextPrefetchMode = v->NextPrefetchMode + 1;
+ } while (!((v->PrefetchSupported[i][j] == true && v->DynamicMetadataSupported[i][j] == true && v->VRatioInPrefetchSupported[i][j] == true
+ && ((v->HostVMEnable == false &&
+ v->ImmediateFlipRequirement[0] != dm_immediate_flip_required)
+ || v->ImmediateFlipSupportedForState[i][j] == true))
+ || (v->NextMaxVStartup == v->MaxMaxVStartup[i][j] && NextPrefetchModeState > MaxPrefetchMode)));
+
+ CalculateUnboundedRequestAndCompressedBufferSize(
+ v->DETBufferSizeInKByte[0],
+ v->ConfigReturnBufferSizeInKByte,
+ v->UseUnboundedRequesting,
+ v->TotalNumberOfActiveDPP[i][j],
+ NoChroma,
+ v->MaxNumDPP,
+ v->CompressedBufferSegmentSizeInkByte,
+ v->Output,
+ &UnboundedRequestEnabledThisState,
+ &CompressedBufferSizeInkByteThisState);
+
+ CalculateWatermarksAndDRAMSpeedChangeSupport(
+ mode_lib,
+ v->PrefetchModePerState[i][j],
+ v->NumberOfActivePlanes,
+ v->MaxLineBufferLines,
+ v->LineBufferSize,
+ v->WritebackInterfaceBufferSize,
+ v->DCFCLKState[i][j],
+ v->ReturnBWPerState[i][j],
+ v->SynchronizedVBlank,
+ v->dpte_group_bytes,
+ v->MetaChunkSize,
+ v->UrgLatency[i],
+ v->ExtraLatency,
+ v->WritebackLatency,
+ v->WritebackChunkSize,
+ v->SOCCLKPerState[i],
+ v->DRAMClockChangeLatency,
+ v->SRExitTime,
+ v->SREnterPlusExitTime,
+ v->SRExitZ8Time,
+ v->SREnterPlusExitZ8Time,
+ v->ProjectedDCFCLKDeepSleep[i][j],
+ v->DETBufferSizeYThisState,
+ v->DETBufferSizeCThisState,
+ v->SwathHeightYThisState,
+ v->SwathHeightCThisState,
+ v->LBBitPerPixel,
+ v->SwathWidthYThisState,
+ v->SwathWidthCThisState,
+ v->HRatio,
+ v->HRatioChroma,
+ v->vtaps,
+ v->VTAPsChroma,
+ v->VRatio,
+ v->VRatioChroma,
+ v->HTotal,
+ v->PixelClock,
+ v->BlendingAndTiming,
+ v->NoOfDPPThisState,
+ v->BytePerPixelInDETY,
+ v->BytePerPixelInDETC,
+ v->DSTXAfterScaler,
+ v->DSTYAfterScaler,
+ v->WritebackEnable,
+ v->WritebackPixelFormat,
+ v->WritebackDestinationWidth,
+ v->WritebackDestinationHeight,
+ v->WritebackSourceHeight,
+ UnboundedRequestEnabledThisState,
+ CompressedBufferSizeInkByteThisState,
+ &v->DRAMClockChangeSupport[i][j],
+ &v->UrgentWatermark,
+ &v->WritebackUrgentWatermark,
+ &v->DRAMClockChangeWatermark,
+ &v->WritebackDRAMClockChangeWatermark,
+ &dummy,
+ &dummy,
+ &dummy,
+ &dummy,
+ &v->MinActiveDRAMClockChangeLatencySupported);
+ }
+ }
+
+ /*PTE Buffer Size Check*/
+ for (i = 0; i < v->soc.num_states; i++) {
+ for (j = 0; j < 2; j++) {
+ v->PTEBufferSizeNotExceeded[i][j] = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->PTEBufferSizeNotExceededY[i][j][k] == false || v->PTEBufferSizeNotExceededC[i][j][k] == false) {
+ v->PTEBufferSizeNotExceeded[i][j] = false;
+ }
+ }
+ }
+ }
+
+ /*Cursor Support Check*/
+ v->CursorSupport = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->CursorWidth[k][0] > 0.0) {
+ if (v->CursorBPP[k][0] == 64 && v->Cursor64BppSupport == false) {
+ v->CursorSupport = false;
+ }
+ }
+ }
+
+ /*Valid Pitch Check*/
+ v->PitchSupport = true;
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ v->AlignedYPitch[k] = dml_ceil(dml_max(v->PitchY[k], v->SurfaceWidthY[k]), v->MacroTileWidthY[k]);
+ if (v->DCCEnable[k] == true) {
+ v->AlignedDCCMetaPitchY[k] = dml_ceil(dml_max(v->DCCMetaPitchY[k], v->SurfaceWidthY[k]), 64.0 * v->Read256BlockWidthY[k]);
+ } else {
+ v->AlignedDCCMetaPitchY[k] = v->DCCMetaPitchY[k];
+ }
+ if (v->SourcePixelFormat[k] != dm_444_64 && v->SourcePixelFormat[k] != dm_444_32 && v->SourcePixelFormat[k] != dm_444_16
+ && v->SourcePixelFormat[k] != dm_mono_16 && v->SourcePixelFormat[k] != dm_rgbe
+ && v->SourcePixelFormat[k] != dm_mono_8) {
+ v->AlignedCPitch[k] = dml_ceil(dml_max(v->PitchC[k], v->SurfaceWidthC[k]), v->MacroTileWidthC[k]);
+ if (v->DCCEnable[k] == true) {
+ v->AlignedDCCMetaPitchC[k] = dml_ceil(
+ dml_max(v->DCCMetaPitchC[k], v->SurfaceWidthC[k]),
+ 64.0 * v->Read256BlockWidthC[k]);
+ } else {
+ v->AlignedDCCMetaPitchC[k] = v->DCCMetaPitchC[k];
+ }
+ } else {
+ v->AlignedCPitch[k] = v->PitchC[k];
+ v->AlignedDCCMetaPitchC[k] = v->DCCMetaPitchC[k];
+ }
+ if (v->AlignedYPitch[k] > v->PitchY[k] || v->AlignedCPitch[k] > v->PitchC[k]
+ || v->AlignedDCCMetaPitchY[k] > v->DCCMetaPitchY[k] || v->AlignedDCCMetaPitchC[k] > v->DCCMetaPitchC[k]) {
+ v->PitchSupport = false;
+ }
+ }
+
+ for (k = 0; k < v->NumberOfActivePlanes; k++) {
+ if (v->ViewportWidth[k] > v->SurfaceWidthY[k] || v->ViewportHeight[k] > v->SurfaceHeightY[k]) {
+ ViewportExceedsSurface = true;
+ if (v->SourcePixelFormat[k] != dm_444_64 && v->SourcePixelFormat[k] != dm_444_32
+ && v->SourcePixelFormat[k] != dm_444_16 && v->SourcePixelFormat[k] != dm_444_8
+ && v->SourcePixelFormat[k] != dm_rgbe) {
+ if (v->ViewportWidthChroma[k] > v->SurfaceWidthC[k]
+ || v->ViewportHeightChroma[k] > v->SurfaceHeightC[k]) {
+ ViewportExceedsSurface = true;
+ }
+ }
+ }
+ }
+
+ /*Mode Support, Voltage State and SOC Configuration*/
+ for (i = v->soc.num_states - 1; i >= 0; i--) {
+ for (j = 0; j < 2; j++) {
+ if (v->ScaleRatioAndTapsSupport == true && v->SourceFormatPixelAndScanSupport == true && v->ViewportSizeSupport[i][j] == true
+ && v->LinkCapacitySupport[i] == true && !P2IWith420 && !DSCOnlyIfNecessaryWithBPP
+ && !DSC422NativeNotSupported && v->ODMCombine4To1SupportCheckOK[i] == true && v->NotEnoughDSCUnits[i] == false
+ && v->DTBCLKRequiredMoreThanSupported[i] == false
+ && v->ROBSupport[i][j] == true && v->DISPCLK_DPPCLK_Support[i][j] == true
+ && v->TotalAvailablePipesSupport[i][j] == true && EnoughWritebackUnits == true
+ && v->WritebackLatencySupport == true && v->WritebackScaleRatioAndTapsSupport == true
+ && v->CursorSupport == true && v->PitchSupport == true && ViewportExceedsSurface == false
+ && v->PrefetchSupported[i][j] == true && v->DynamicMetadataSupported[i][j] == true
+ && v->TotalVerticalActiveBandwidthSupport[i][j] == true && v->VRatioInPrefetchSupported[i][j] == true
+ && v->PTEBufferSizeNotExceeded[i][j] == true && v->NonsupportedDSCInputBPC == false
+ && ((v->HostVMEnable == false
+ && v->ImmediateFlipRequirement[0] != dm_immediate_flip_required)
+ || v->ImmediateFlipSupportedForState[i][j] == true)
+ && FMTBufferExceeded == false) {
+ v->ModeSupport[i][j] = true;
+ } else {
+ v->ModeSupport[i][j] = false;
+ }
+ }
+ }
+
+ {
+ unsigned int MaximumMPCCombine = 0;
+
+ for (i = v->soc.num_states; i >= 0; i--) {
+ if (i == v->soc.num_states || v->ModeSupport[i][0] == true || v->ModeSupport[i][1] == true) {
+ v->VoltageLevel = i;
+ v->ModeIsSupported = v->ModeSupport[i][0] == true || v->ModeSupport[i][1] == true;
+ if (v->ModeSupport[i][0] == true) {
+ MaximumMPCCombine = 0;
+ } else {
+ MaximumMPCCombine = 1;
+ }
+ }
+ }
+ v->ImmediateFlipSupport = v->ImmediateFlipSupportedForState[v->VoltageLevel][MaximumMPCCombine];
+ for (k = 0; k <= v->NumberOfActivePlanes - 1; k++) {
+ v->MPCCombineEnable[k] = v->MPCCombine[v->VoltageLevel][MaximumMPCCombine][k];
+ v->DPPPerPlane[k] = v->NoOfDPP[v->VoltageLevel][MaximumMPCCombine][k];
+ }
+ v->DCFCLK = v->DCFCLKState[v->VoltageLevel][MaximumMPCCombine];
+ v->DRAMSpeed = v->DRAMSpeedPerState[v->VoltageLevel];
+ v->FabricClock = v->FabricClockPerState[v->VoltageLevel];
+ v->SOCCLK = v->SOCCLKPerState[v->VoltageLevel];
+ v->ReturnBW = v->ReturnBWPerState[v->VoltageLevel][MaximumMPCCombine];
+ v->maxMpcComb = MaximumMPCCombine;
+ }
+}
+
+static void CalculateWatermarksAndDRAMSpeedChangeSupport(
+ struct display_mode_lib *mode_lib,
+ unsigned int PrefetchMode,
+ unsigned int NumberOfActivePlanes,
+ unsigned int MaxLineBufferLines,
+ unsigned int LineBufferSize,
+ unsigned int WritebackInterfaceBufferSize,
+ double DCFCLK,
+ double ReturnBW,
+ bool SynchronizedVBlank,
+ unsigned int dpte_group_bytes[],
+ unsigned int MetaChunkSize,
+ double UrgentLatency,
+ double ExtraLatency,
+ double WritebackLatency,
+ double WritebackChunkSize,
+ double SOCCLK,
+ double DRAMClockChangeLatency,
+ double SRExitTime,
+ double SREnterPlusExitTime,
+ double SRExitZ8Time,
+ double SREnterPlusExitZ8Time,
+ double DCFCLKDeepSleep,
+ unsigned int DETBufferSizeY[],
+ unsigned int DETBufferSizeC[],
+ unsigned int SwathHeightY[],
+ unsigned int SwathHeightC[],
+ unsigned int LBBitPerPixel[],
+ double SwathWidthY[],
+ double SwathWidthC[],
+ double HRatio[],
+ double HRatioChroma[],
+ unsigned int vtaps[],
+ unsigned int VTAPsChroma[],
+ double VRatio[],
+ double VRatioChroma[],
+ unsigned int HTotal[],
+ double PixelClock[],
+ unsigned int BlendingAndTiming[],
+ unsigned int DPPPerPlane[],
+ double BytePerPixelDETY[],
+ double BytePerPixelDETC[],
+ double DSTXAfterScaler[],
+ double DSTYAfterScaler[],
+ bool WritebackEnable[],
+ enum source_format_class WritebackPixelFormat[],
+ double WritebackDestinationWidth[],
+ double WritebackDestinationHeight[],
+ double WritebackSourceHeight[],
+ bool UnboundedRequestEnabled,
+ unsigned int CompressedBufferSizeInkByte,
+ enum clock_change_support *DRAMClockChangeSupport,
+ double *UrgentWatermark,
+ double *WritebackUrgentWatermark,
+ double *DRAMClockChangeWatermark,
+ double *WritebackDRAMClockChangeWatermark,
+ double *StutterExitWatermark,
+ double *StutterEnterPlusExitWatermark,
+ double *Z8StutterExitWatermark,
+ double *Z8StutterEnterPlusExitWatermark,
+ double *MinActiveDRAMClockChangeLatencySupported)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ double EffectiveLBLatencyHidingY;
+ double EffectiveLBLatencyHidingC;
+ double LinesInDETY[DC__NUM_DPP__MAX];
+ double LinesInDETC;
+ unsigned int LinesInDETYRoundedDownToSwath[DC__NUM_DPP__MAX];
+ unsigned int LinesInDETCRoundedDownToSwath;
+ double FullDETBufferingTimeY;
+ double FullDETBufferingTimeC;
+ double ActiveDRAMClockChangeLatencyMarginY;
+ double ActiveDRAMClockChangeLatencyMarginC;
+ double WritebackDRAMClockChangeLatencyMargin;
+ double PlaneWithMinActiveDRAMClockChangeMargin;
+ double SecondMinActiveDRAMClockChangeMarginOneDisplayInVBLank;
+ double WritebackDRAMClockChangeLatencyHiding;
+ double TotalPixelBW = 0.0;
+ int k, j;
+
+ *UrgentWatermark = UrgentLatency + ExtraLatency;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: UrgentLatency = %f\n", __func__, UrgentLatency);
+ dml_print("DML::%s: ExtraLatency = %f\n", __func__, ExtraLatency);
+ dml_print("DML::%s: UrgentWatermark = %f\n", __func__, *UrgentWatermark);
+#endif
+
+ *DRAMClockChangeWatermark = DRAMClockChangeLatency + *UrgentWatermark;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: DRAMClockChangeLatency = %f\n", __func__, DRAMClockChangeLatency);
+ dml_print("DML::%s: DRAMClockChangeWatermark = %f\n", __func__, *DRAMClockChangeWatermark);
+#endif
+
+ v->TotalActiveWriteback = 0;
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (WritebackEnable[k] == true) {
+ v->TotalActiveWriteback = v->TotalActiveWriteback + 1;
+ }
+ }
+
+ if (v->TotalActiveWriteback <= 1) {
+ *WritebackUrgentWatermark = WritebackLatency;
+ } else {
+ *WritebackUrgentWatermark = WritebackLatency + WritebackChunkSize * 1024.0 / 32.0 / SOCCLK;
+ }
+
+ if (v->TotalActiveWriteback <= 1) {
+ *WritebackDRAMClockChangeWatermark = DRAMClockChangeLatency + WritebackLatency;
+ } else {
+ *WritebackDRAMClockChangeWatermark = DRAMClockChangeLatency + WritebackLatency + WritebackChunkSize * 1024.0 / 32.0 / SOCCLK;
+ }
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ TotalPixelBW = TotalPixelBW
+ + DPPPerPlane[k] * (SwathWidthY[k] * BytePerPixelDETY[k] * VRatio[k] + SwathWidthC[k] * BytePerPixelDETC[k] * VRatioChroma[k])
+ / (HTotal[k] / PixelClock[k]);
+ }
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ double EffectiveDETBufferSizeY = DETBufferSizeY[k];
+
+ v->LBLatencyHidingSourceLinesY = dml_min(
+ (double) MaxLineBufferLines,
+ dml_floor(LineBufferSize / LBBitPerPixel[k] / (SwathWidthY[k] / dml_max(HRatio[k], 1.0)), 1)) - (vtaps[k] - 1);
+
+ v->LBLatencyHidingSourceLinesC = dml_min(
+ (double) MaxLineBufferLines,
+ dml_floor(LineBufferSize / LBBitPerPixel[k] / (SwathWidthC[k] / dml_max(HRatioChroma[k], 1.0)), 1)) - (VTAPsChroma[k] - 1);
+
+ EffectiveLBLatencyHidingY = v->LBLatencyHidingSourceLinesY / VRatio[k] * (HTotal[k] / PixelClock[k]);
+
+ EffectiveLBLatencyHidingC = v->LBLatencyHidingSourceLinesC / VRatioChroma[k] * (HTotal[k] / PixelClock[k]);
+
+ if (UnboundedRequestEnabled) {
+ EffectiveDETBufferSizeY = EffectiveDETBufferSizeY
+ + CompressedBufferSizeInkByte * 1024 * SwathWidthY[k] * BytePerPixelDETY[k] * VRatio[k] / (HTotal[k] / PixelClock[k]) / TotalPixelBW;
+ }
+
+ LinesInDETY[k] = (double) EffectiveDETBufferSizeY / BytePerPixelDETY[k] / SwathWidthY[k];
+ LinesInDETYRoundedDownToSwath[k] = dml_floor(LinesInDETY[k], SwathHeightY[k]);
+ FullDETBufferingTimeY = LinesInDETYRoundedDownToSwath[k] * (HTotal[k] / PixelClock[k]) / VRatio[k];
+ if (BytePerPixelDETC[k] > 0) {
+ LinesInDETC = v->DETBufferSizeC[k] / BytePerPixelDETC[k] / SwathWidthC[k];
+ LinesInDETCRoundedDownToSwath = dml_floor(LinesInDETC, SwathHeightC[k]);
+ FullDETBufferingTimeC = LinesInDETCRoundedDownToSwath * (HTotal[k] / PixelClock[k]) / VRatioChroma[k];
+ } else {
+ LinesInDETC = 0;
+ FullDETBufferingTimeC = 999999;
+ }
+
+ ActiveDRAMClockChangeLatencyMarginY = EffectiveLBLatencyHidingY + FullDETBufferingTimeY
+ - ((double) DSTXAfterScaler[k] / HTotal[k] + DSTYAfterScaler[k]) * HTotal[k] / PixelClock[k] - *UrgentWatermark - *DRAMClockChangeWatermark;
+
+ if (NumberOfActivePlanes > 1) {
+ ActiveDRAMClockChangeLatencyMarginY = ActiveDRAMClockChangeLatencyMarginY
+ - (1 - 1.0 / NumberOfActivePlanes) * SwathHeightY[k] * HTotal[k] / PixelClock[k] / VRatio[k];
+ }
+
+ if (BytePerPixelDETC[k] > 0) {
+ ActiveDRAMClockChangeLatencyMarginC = EffectiveLBLatencyHidingC + FullDETBufferingTimeC
+ - ((double) DSTXAfterScaler[k] / HTotal[k] + DSTYAfterScaler[k]) * HTotal[k] / PixelClock[k] - *UrgentWatermark - *DRAMClockChangeWatermark;
+
+ if (NumberOfActivePlanes > 1) {
+ ActiveDRAMClockChangeLatencyMarginC = ActiveDRAMClockChangeLatencyMarginC
+ - (1 - 1.0 / NumberOfActivePlanes) * SwathHeightC[k] * HTotal[k] / PixelClock[k] / VRatioChroma[k];
+ }
+ v->ActiveDRAMClockChangeLatencyMargin[k] = dml_min(ActiveDRAMClockChangeLatencyMarginY, ActiveDRAMClockChangeLatencyMarginC);
+ } else {
+ v->ActiveDRAMClockChangeLatencyMargin[k] = ActiveDRAMClockChangeLatencyMarginY;
+ }
+
+ if (WritebackEnable[k] == true) {
+ WritebackDRAMClockChangeLatencyHiding = WritebackInterfaceBufferSize * 1024
+ / (WritebackDestinationWidth[k] * WritebackDestinationHeight[k] / (WritebackSourceHeight[k] * HTotal[k] / PixelClock[k]) * 4);
+ if (WritebackPixelFormat[k] == dm_444_64) {
+ WritebackDRAMClockChangeLatencyHiding = WritebackDRAMClockChangeLatencyHiding / 2;
+ }
+ WritebackDRAMClockChangeLatencyMargin = WritebackDRAMClockChangeLatencyHiding - v->WritebackDRAMClockChangeWatermark;
+ v->ActiveDRAMClockChangeLatencyMargin[k] = dml_min(v->ActiveDRAMClockChangeLatencyMargin[k], WritebackDRAMClockChangeLatencyMargin);
+ }
+ }
+
+ v->MinActiveDRAMClockChangeMargin = 999999;
+ PlaneWithMinActiveDRAMClockChangeMargin = 0;
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (v->ActiveDRAMClockChangeLatencyMargin[k] < v->MinActiveDRAMClockChangeMargin) {
+ v->MinActiveDRAMClockChangeMargin = v->ActiveDRAMClockChangeLatencyMargin[k];
+ if (BlendingAndTiming[k] == k) {
+ PlaneWithMinActiveDRAMClockChangeMargin = k;
+ } else {
+ for (j = 0; j < NumberOfActivePlanes; ++j) {
+ if (BlendingAndTiming[k] == j) {
+ PlaneWithMinActiveDRAMClockChangeMargin = j;
+ }
+ }
+ }
+ }
+ }
+
+ *MinActiveDRAMClockChangeLatencySupported = v->MinActiveDRAMClockChangeMargin + DRAMClockChangeLatency;
+
+ SecondMinActiveDRAMClockChangeMarginOneDisplayInVBLank = 999999;
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (!((k == PlaneWithMinActiveDRAMClockChangeMargin) && (BlendingAndTiming[k] == k)) && !(BlendingAndTiming[k] == PlaneWithMinActiveDRAMClockChangeMargin)
+ && v->ActiveDRAMClockChangeLatencyMargin[k] < SecondMinActiveDRAMClockChangeMarginOneDisplayInVBLank) {
+ SecondMinActiveDRAMClockChangeMarginOneDisplayInVBLank = v->ActiveDRAMClockChangeLatencyMargin[k];
+ }
+ }
+
+ v->TotalNumberOfActiveOTG = 0;
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (BlendingAndTiming[k] == k) {
+ v->TotalNumberOfActiveOTG = v->TotalNumberOfActiveOTG + 1;
+ }
+ }
+
+ if (v->MinActiveDRAMClockChangeMargin > 0 && PrefetchMode == 0) {
+ *DRAMClockChangeSupport = dm_dram_clock_change_vactive;
+ } else if ((SynchronizedVBlank == true || v->TotalNumberOfActiveOTG == 1
+ || SecondMinActiveDRAMClockChangeMarginOneDisplayInVBLank > 0) && PrefetchMode == 0) {
+ *DRAMClockChangeSupport = dm_dram_clock_change_vblank;
+ } else {
+ *DRAMClockChangeSupport = dm_dram_clock_change_unsupported;
+ }
+
+ *StutterExitWatermark = SRExitTime + ExtraLatency + 10 / DCFCLKDeepSleep;
+ *StutterEnterPlusExitWatermark = (SREnterPlusExitTime + ExtraLatency + 10 / DCFCLKDeepSleep);
+ *Z8StutterExitWatermark = SRExitZ8Time + ExtraLatency + 10 / DCFCLKDeepSleep;
+ *Z8StutterEnterPlusExitWatermark = SREnterPlusExitZ8Time + ExtraLatency + 10 / DCFCLKDeepSleep;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: StutterExitWatermark = %f\n", __func__, *StutterExitWatermark);
+ dml_print("DML::%s: StutterEnterPlusExitWatermark = %f\n", __func__, *StutterEnterPlusExitWatermark);
+ dml_print("DML::%s: Z8StutterExitWatermark = %f\n", __func__, *Z8StutterExitWatermark);
+ dml_print("DML::%s: Z8StutterEnterPlusExitWatermark = %f\n", __func__, *Z8StutterEnterPlusExitWatermark);
+#endif
+}
+
+static void CalculateDCFCLKDeepSleep(
+ struct display_mode_lib *mode_lib,
+ unsigned int NumberOfActivePlanes,
+ int BytePerPixelY[],
+ int BytePerPixelC[],
+ double VRatio[],
+ double VRatioChroma[],
+ double SwathWidthY[],
+ double SwathWidthC[],
+ unsigned int DPPPerPlane[],
+ double HRatio[],
+ double HRatioChroma[],
+ double PixelClock[],
+ double PSCL_THROUGHPUT[],
+ double PSCL_THROUGHPUT_CHROMA[],
+ double DPPCLK[],
+ double ReadBandwidthLuma[],
+ double ReadBandwidthChroma[],
+ int ReturnBusWidth,
+ double *DCFCLKDeepSleep)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ double DisplayPipeLineDeliveryTimeLuma;
+ double DisplayPipeLineDeliveryTimeChroma;
+ double ReadBandwidth = 0.0;
+ int k;
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+
+ if (VRatio[k] <= 1) {
+ DisplayPipeLineDeliveryTimeLuma = SwathWidthY[k] * DPPPerPlane[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] * DPPPerPlane[k] / HRatioChroma[k] / PixelClock[k];
+ } else {
+ DisplayPipeLineDeliveryTimeChroma = SwathWidthC[k] / PSCL_THROUGHPUT_CHROMA[k] / DPPCLK[k];
+ }
+ }
+
+ if (BytePerPixelC[k] > 0) {
+ v->DCFCLKDeepSleepPerPlane[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 {
+ v->DCFCLKDeepSleepPerPlane[k] = __DML_MIN_DCFCLK_FACTOR__ * SwathWidthY[k] * BytePerPixelY[k] / 64.0 / DisplayPipeLineDeliveryTimeLuma;
+ }
+ v->DCFCLKDeepSleepPerPlane[k] = dml_max(v->DCFCLKDeepSleepPerPlane[k], PixelClock[k] / 16);
+
+ }
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ ReadBandwidth = ReadBandwidth + ReadBandwidthLuma[k] + ReadBandwidthChroma[k];
+ }
+
+ *DCFCLKDeepSleep = dml_max(8.0, __DML_MIN_DCFCLK_FACTOR__ * ReadBandwidth / ReturnBusWidth);
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ *DCFCLKDeepSleep = dml_max(*DCFCLKDeepSleep, v->DCFCLKDeepSleepPerPlane[k]);
+ }
+}
+
+static void CalculateUrgentBurstFactor(
+ int swath_width_luma_ub,
+ 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,
+ double DETBufferSizeY,
+ double 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 = 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 = 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;
+ }
+ }
+}
+
+static void CalculatePixelDeliveryTimes(
+ unsigned int NumberOfActivePlanes,
+ double VRatio[],
+ double VRatioChroma[],
+ double VRatioPrefetchY[],
+ double VRatioPrefetchC[],
+ unsigned int swath_width_luma_ub[],
+ unsigned int swath_width_chroma_ub[],
+ unsigned int DPPPerPlane[],
+ double HRatio[],
+ double HRatioChroma[],
+ double PixelClock[],
+ double PSCL_THROUGHPUT[],
+ double PSCL_THROUGHPUT_CHROMA[],
+ double DPPCLK[],
+ int BytePerPixelC[],
+ enum scan_direction_class SourceScan[],
+ 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;
+ int k;
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (VRatio[k] <= 1) {
+ DisplayPipeLineDeliveryTimeLuma[k] = swath_width_luma_ub[k] * DPPPerPlane[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] * DPPPerPlane[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] * DPPPerPlane[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] * DPPPerPlane[k] / HRatioChroma[k] / PixelClock[k];
+ } else {
+ DisplayPipeLineDeliveryTimeChromaPrefetch[k] = swath_width_chroma_ub[k] / PSCL_THROUGHPUT_CHROMA[k] / DPPCLK[k];
+ }
+ }
+ }
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (SourceScan[k] != dm_vert) {
+ req_per_swath_ub = swath_width_luma_ub[k] / BlockWidth256BytesY[k];
+ } else {
+ req_per_swath_ub = swath_width_luma_ub[k] / BlockHeight256BytesY[k];
+ }
+ 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 (SourceScan[k] != dm_vert) {
+ req_per_swath_ub = swath_width_chroma_ub[k] / BlockWidth256BytesC[k];
+ } else {
+ req_per_swath_ub = swath_width_chroma_ub[k] / BlockHeight256BytesC[k];
+ }
+ 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 : 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 : 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]);
+ 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 < NumberOfActivePlanes; ++k) {
+ int cursor_req_per_width;
+
+ cursor_req_per_width = dml_ceil(CursorWidth[k][0] * CursorBPP[k][0] / 256 / 8, 1);
+ if (NumberOfCursors[k] > 0) {
+ if (VRatio[k] <= 1) {
+ CursorRequestDeliveryTime[k] = CursorWidth[k][0] / HRatio[k] / PixelClock[k] / cursor_req_per_width;
+ } else {
+ CursorRequestDeliveryTime[k] = CursorWidth[k][0] / PSCL_THROUGHPUT[k] / DPPCLK[k] / cursor_req_per_width;
+ }
+ if (VRatioPrefetchY[k] <= 1) {
+ CursorRequestDeliveryTimePrefetch[k] = CursorWidth[k][0] / HRatio[k] / PixelClock[k] / cursor_req_per_width;
+ } else {
+ CursorRequestDeliveryTimePrefetch[k] = 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
+ }
+}
+
+static void CalculateMetaAndPTETimes(
+ int NumberOfActivePlanes,
+ bool GPUVMEnable,
+ int MetaChunkSize,
+ int MinMetaChunkSizeBytes,
+ int HTotal[],
+ double VRatio[],
+ double VRatioChroma[],
+ double DestinationLinesToRequestRowInVBlank[],
+ double DestinationLinesToRequestRowInImmediateFlip[],
+ bool DCCEnable[],
+ double PixelClock[],
+ int BytePerPixelY[],
+ int BytePerPixelC[],
+ enum scan_direction_class SourceScan[],
+ int dpte_row_height[],
+ int dpte_row_height_chroma[],
+ int meta_row_width[],
+ int meta_row_width_chroma[],
+ int meta_row_height[],
+ int meta_row_height_chroma[],
+ int meta_req_width[],
+ int meta_req_width_chroma[],
+ int meta_req_height[],
+ int meta_req_height_chroma[],
+ int dpte_group_bytes[],
+ int PTERequestSizeY[],
+ int PTERequestSizeC[],
+ int PixelPTEReqWidthY[],
+ int PixelPTEReqHeightY[],
+ int PixelPTEReqWidthC[],
+ int PixelPTEReqHeightC[],
+ int dpte_row_width_luma_ub[],
+ 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;
+ int k;
+
+ for (k = 0; k < NumberOfActivePlanes; ++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 < NumberOfActivePlanes; ++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 (SourceScan[k] != dm_vert) {
+ 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 (SourceScan[k] != dm_vert) {
+ 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 < NumberOfActivePlanes; ++k) {
+ if (GPUVMEnable == true) {
+ if (SourceScan[k] != dm_vert) {
+ dpte_group_width_luma = dpte_group_bytes[k] / PTERequestSizeY[k] * PixelPTEReqWidthY[k];
+ } else {
+ dpte_group_width_luma = dpte_group_bytes[k] / PTERequestSizeY[k] * PixelPTEReqHeightY[k];
+ }
+ dpte_groups_per_row_luma_ub = dml_ceil(1.0 * dpte_row_width_luma_ub[k] / dpte_group_width_luma, 1);
+ 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 (SourceScan[k] != dm_vert) {
+ dpte_group_width_chroma = dpte_group_bytes[k] / PTERequestSizeC[k] * PixelPTEReqWidthC[k];
+ } else {
+ dpte_group_width_chroma = dpte_group_bytes[k] / PTERequestSizeC[k] * PixelPTEReqHeightC[k];
+ }
+ dpte_groups_per_row_chroma_ub = dml_ceil(1.0 * dpte_row_width_chroma_ub[k] / dpte_group_width_chroma, 1);
+ 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;
+ }
+ }
+}
+
+static void CalculateVMGroupAndRequestTimes(
+ unsigned int NumberOfActivePlanes,
+ bool GPUVMEnable,
+ unsigned int GPUVMMaxPageTableLevels,
+ unsigned int HTotal[],
+ int BytePerPixelC[],
+ double DestinationLinesToRequestVMInVBlank[],
+ double DestinationLinesToRequestVMInImmediateFlip[],
+ bool DCCEnable[],
+ double PixelClock[],
+ int dpte_row_width_luma_ub[],
+ int dpte_row_width_chroma_ub[],
+ int vm_group_bytes[],
+ unsigned int dpde0_bytes_per_frame_ub_l[],
+ unsigned int dpde0_bytes_per_frame_ub_c[],
+ int meta_pte_bytes_per_frame_ub_l[],
+ int meta_pte_bytes_per_frame_ub_c[],
+ double TimePerVMGroupVBlank[],
+ double TimePerVMGroupFlip[],
+ double TimePerVMRequestVBlank[],
+ double TimePerVMRequestFlip[])
+{
+ int num_group_per_lower_vm_stage;
+ int num_req_per_lower_vm_stage;
+ int k;
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ 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)
+ + dml_ceil((double) (dpde0_bytes_per_frame_ub_c[k]) / (double) (vm_group_bytes[k]), 1);
+ } else {
+ num_group_per_lower_vm_stage = dml_ceil((double) (dpde0_bytes_per_frame_ub_l[k]) / (double) (vm_group_bytes[k]), 1);
+ }
+ } 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)
+ + dml_ceil((double) (meta_pte_bytes_per_frame_ub_c[k]) / (double) (vm_group_bytes[k]), 1);
+ } else {
+ num_group_per_lower_vm_stage = dml_ceil((double) (meta_pte_bytes_per_frame_ub_l[k]) / (double) (vm_group_bytes[k]), 1);
+ }
+ } 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;
+ }
+ }
+}
+
+static void CalculateStutterEfficiency(
+ struct display_mode_lib *mode_lib,
+ int CompressedBufferSizeInkByte,
+ bool UnboundedRequestEnabled,
+ int ConfigReturnBufferSizeInKByte,
+ int MetaFIFOSizeInKEntries,
+ int ZeroSizeBufferEntries,
+ int NumberOfActivePlanes,
+ int ROBBufferSizeInKByte,
+ double TotalDataReadBandwidth,
+ double DCFCLK,
+ double ReturnBW,
+ double COMPBUF_RESERVED_SPACE_64B,
+ double COMPBUF_RESERVED_SPACE_ZS,
+ double SRExitTime,
+ double SRExitZ8Time,
+ bool SynchronizedVBlank,
+ double Z8StutterEnterPlusExitWatermark,
+ double StutterEnterPlusExitWatermark,
+ bool ProgressiveToInterlaceUnitInOPP,
+ bool Interlace[],
+ double MinTTUVBlank[],
+ int DPPPerPlane[],
+ unsigned int DETBufferSizeY[],
+ int BytePerPixelY[],
+ double BytePerPixelDETY[],
+ double SwathWidthY[],
+ int SwathHeightY[],
+ int SwathHeightC[],
+ double NetDCCRateLuma[],
+ double NetDCCRateChroma[],
+ double DCCFractionOfZeroSizeRequestsLuma[],
+ double DCCFractionOfZeroSizeRequestsChroma[],
+ int HTotal[],
+ int VTotal[],
+ double PixelClock[],
+ double VRatio[],
+ enum scan_direction_class SourceScan[],
+ int BlockHeight256BytesY[],
+ int BlockWidth256BytesY[],
+ int BlockHeight256BytesC[],
+ int BlockWidth256BytesC[],
+ int DCCYMaxUncompressedBlock[],
+ int DCCCMaxUncompressedBlock[],
+ int VActive[],
+ bool DCCEnable[],
+ bool WritebackEnable[],
+ double ReadBandwidthPlaneLuma[],
+ double ReadBandwidthPlaneChroma[],
+ double meta_row_bw[],
+ double dpte_row_bw[],
+ double *StutterEfficiencyNotIncludingVBlank,
+ double *StutterEfficiency,
+ int *NumberOfStutterBurstsPerFrame,
+ double *Z8StutterEfficiencyNotIncludingVBlank,
+ double *Z8StutterEfficiency,
+ int *Z8NumberOfStutterBurstsPerFrame,
+ double *StutterPeriod)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+
+ double DETBufferingTimeY;
+ double SwathWidthYCriticalPlane = 0;
+ double VActiveTimeCriticalPlane = 0;
+ double FrameTimeCriticalPlane = 0;
+ int BytePerPixelYCriticalPlane = 0;
+ double LinesToFinishSwathTransferStutterCriticalPlane = 0;
+ double MinTTUVBlankCriticalPlane = 0;
+ double TotalCompressedReadBandwidth;
+ double TotalRowReadBandwidth;
+ double AverageDCCCompressionRate;
+ double EffectiveCompressedBufferSize;
+ double PartOfUncompressedPixelBurstThatFitsInROBAndCompressedBuffer;
+ double StutterBurstTime;
+ int TotalActiveWriteback;
+ double LinesInDETY;
+ double LinesInDETYRoundedDownToSwath;
+ double MaximumEffectiveCompressionLuma;
+ double MaximumEffectiveCompressionChroma;
+ double TotalZeroSizeRequestReadBandwidth;
+ double TotalZeroSizeCompressedReadBandwidth;
+ double AverageDCCZeroSizeFraction;
+ double AverageZeroSizeCompressionRate;
+ int TotalNumberOfActiveOTG = 0;
+ double LastStutterPeriod = 0.0;
+ double LastZ8StutterPeriod = 0.0;
+ int k;
+
+ TotalZeroSizeRequestReadBandwidth = 0;
+ TotalZeroSizeCompressedReadBandwidth = 0;
+ TotalRowReadBandwidth = 0;
+ TotalCompressedReadBandwidth = 0;
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (DCCEnable[k] == true) {
+ if ((SourceScan[k] == dm_vert && BlockWidth256BytesY[k] > SwathHeightY[k]) || (SourceScan[k] != dm_vert && BlockHeight256BytesY[k] > SwathHeightY[k])
+ || DCCYMaxUncompressedBlock[k] < 256) {
+ MaximumEffectiveCompressionLuma = 2;
+ } else {
+ MaximumEffectiveCompressionLuma = 4;
+ }
+ TotalCompressedReadBandwidth = TotalCompressedReadBandwidth + ReadBandwidthPlaneLuma[k] / dml_min(NetDCCRateLuma[k], MaximumEffectiveCompressionLuma);
+ TotalZeroSizeRequestReadBandwidth = TotalZeroSizeRequestReadBandwidth + ReadBandwidthPlaneLuma[k] * DCCFractionOfZeroSizeRequestsLuma[k];
+ TotalZeroSizeCompressedReadBandwidth = TotalZeroSizeCompressedReadBandwidth
+ + ReadBandwidthPlaneLuma[k] * DCCFractionOfZeroSizeRequestsLuma[k] / MaximumEffectiveCompressionLuma;
+ if (ReadBandwidthPlaneChroma[k] > 0) {
+ if ((SourceScan[k] == dm_vert && BlockWidth256BytesC[k] > SwathHeightC[k])
+ || (SourceScan[k] != dm_vert && BlockHeight256BytesC[k] > SwathHeightC[k]) || DCCCMaxUncompressedBlock[k] < 256) {
+ MaximumEffectiveCompressionChroma = 2;
+ } else {
+ MaximumEffectiveCompressionChroma = 4;
+ }
+ TotalCompressedReadBandwidth = TotalCompressedReadBandwidth
+ + ReadBandwidthPlaneChroma[k] / dml_min(NetDCCRateChroma[k], MaximumEffectiveCompressionChroma);
+ TotalZeroSizeRequestReadBandwidth = TotalZeroSizeRequestReadBandwidth + ReadBandwidthPlaneChroma[k] * DCCFractionOfZeroSizeRequestsChroma[k];
+ TotalZeroSizeCompressedReadBandwidth = TotalZeroSizeCompressedReadBandwidth
+ + ReadBandwidthPlaneChroma[k] * DCCFractionOfZeroSizeRequestsChroma[k] / MaximumEffectiveCompressionChroma;
+ }
+ } else {
+ TotalCompressedReadBandwidth = TotalCompressedReadBandwidth + ReadBandwidthPlaneLuma[k] + ReadBandwidthPlaneChroma[k];
+ }
+ TotalRowReadBandwidth = TotalRowReadBandwidth + DPPPerPlane[k] * (meta_row_bw[k] + dpte_row_bw[k]);
+ }
+
+ AverageDCCCompressionRate = TotalDataReadBandwidth / TotalCompressedReadBandwidth;
+ AverageDCCZeroSizeFraction = TotalZeroSizeRequestReadBandwidth / TotalDataReadBandwidth;
+
+#ifdef __DML_VBA_DEBUG__
+ 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: CompressedBufferSizeInkByte = %d\n", __func__, CompressedBufferSizeInkByte);
+#endif
+
+ if (AverageDCCZeroSizeFraction == 1) {
+ AverageZeroSizeCompressionRate = TotalZeroSizeRequestReadBandwidth / TotalZeroSizeCompressedReadBandwidth;
+ EffectiveCompressedBufferSize = MetaFIFOSizeInKEntries * 1024 * 64 * AverageZeroSizeCompressionRate + (ZeroSizeBufferEntries - COMPBUF_RESERVED_SPACE_ZS) * 64 * AverageZeroSizeCompressionRate;
+ } else if (AverageDCCZeroSizeFraction > 0) {
+ AverageZeroSizeCompressionRate = TotalZeroSizeRequestReadBandwidth / TotalZeroSizeCompressedReadBandwidth;
+ EffectiveCompressedBufferSize = dml_min(
+ CompressedBufferSizeInkByte * 1024 * AverageDCCCompressionRate,
+ MetaFIFOSizeInKEntries * 1024 * 64 / (AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate + 1 / AverageDCCCompressionRate))
+ + dml_min((ROBBufferSizeInKByte * 1024 - COMPBUF_RESERVED_SPACE_64B * 64) * AverageDCCCompressionRate,
+ (ZeroSizeBufferEntries - COMPBUF_RESERVED_SPACE_ZS) * 64 / (AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate));
+ 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 * AverageDCCCompressionRate);
+ dml_print("DML::%s: min 4 = %f\n", __func__, ZeroSizeBufferEntries * 64 / (AverageDCCZeroSizeFraction / AverageZeroSizeCompressionRate));
+ } else {
+ EffectiveCompressedBufferSize = dml_min(
+ CompressedBufferSizeInkByte * 1024 * AverageDCCCompressionRate,
+ MetaFIFOSizeInKEntries * 1024 * 64 * AverageDCCCompressionRate) + (ROBBufferSizeInKByte * 1024 - COMPBUF_RESERVED_SPACE_64B * 64) * AverageDCCCompressionRate;
+ 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);
+ }
+
+#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 < NumberOfActivePlanes; ++k) {
+ LinesInDETY = (DETBufferSizeY[k] + (UnboundedRequestEnabled == true ? EffectiveCompressedBufferSize : 0) * ReadBandwidthPlaneLuma[k] / TotalDataReadBandwidth)
+ / BytePerPixelDETY[k] / SwathWidthY[k];
+ LinesInDETYRoundedDownToSwath = dml_floor(LinesInDETY, SwathHeightY[k]);
+ DETBufferingTimeY = LinesInDETYRoundedDownToSwath * (HTotal[k] / PixelClock[k]) / VRatio[k];
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%0d DETBufferSizeY = %f\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 = %f\n", __func__, k, SwathWidthY[k]);
+ dml_print("DML::%s: k=%0d ReadBandwidthPlaneLuma = %f\n", __func__, k, ReadBandwidthPlaneLuma[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 (k == 0 || DETBufferingTimeY < *StutterPeriod) {
+ bool isInterlaceTiming = Interlace[k] && !ProgressiveToInterlaceUnitInOPP;
+
+ *StutterPeriod = DETBufferingTimeY;
+ FrameTimeCriticalPlane = (isInterlaceTiming ? dml_floor(VTotal[k] / 2.0, 1.0) : VTotal[k]) * HTotal[k] / PixelClock[k];
+ VActiveTimeCriticalPlane = (isInterlaceTiming ? dml_floor(VActive[k] / 2.0, 1.0) : VActive[k]) * HTotal[k] / PixelClock[k];
+ BytePerPixelYCriticalPlane = BytePerPixelY[k];
+ SwathWidthYCriticalPlane = SwathWidthY[k];
+ LinesToFinishSwathTransferStutterCriticalPlane = SwathHeightY[k] - (LinesInDETY - LinesInDETYRoundedDownToSwath);
+ MinTTUVBlankCriticalPlane = MinTTUVBlank[k];
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: StutterPeriod = %f\n", __func__, *StutterPeriod);
+ dml_print("DML::%s: MinTTUVBlankCriticalPlane = %f\n", __func__, MinTTUVBlankCriticalPlane);
+ dml_print("DML::%s: FrameTimeCriticalPlane = %f\n", __func__, FrameTimeCriticalPlane);
+ dml_print("DML::%s: VActiveTimeCriticalPlane = %f\n", __func__, VActiveTimeCriticalPlane);
+ dml_print("DML::%s: BytePerPixelYCriticalPlane = %d\n", __func__, BytePerPixelYCriticalPlane);
+ dml_print("DML::%s: SwathWidthYCriticalPlane = %f\n", __func__, SwathWidthYCriticalPlane);
+ dml_print("DML::%s: LinesToFinishSwathTransferStutterCriticalPlane = %f\n", __func__, LinesToFinishSwathTransferStutterCriticalPlane);
+#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: ROBBufferSizeInKByte * 1024 * AverageDCCCompressionRate + EffectiveCompressedBufferSize = %f\n", __func__, ROBBufferSizeInKByte * 1024 * AverageDCCCompressionRate + EffectiveCompressedBufferSize);
+ 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, LinesToFinishSwathTransferStutterCriticalPlane * BytePerPixelYCriticalPlane * SwathWidthYCriticalPlane / ReturnBW);
+
+ dml_print(
+ "DML::%s: Time to finish residue swath=%f\n",
+ __func__,
+ LinesToFinishSwathTransferStutterCriticalPlane * BytePerPixelYCriticalPlane * SwathWidthYCriticalPlane / ReturnBW);
+
+ TotalActiveWriteback = 0;
+ for (k = 0; k < NumberOfActivePlanes; ++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(VActiveTimeCriticalPlane / *StutterPeriod, 1) : 0);
+ *Z8NumberOfStutterBurstsPerFrame = (*Z8StutterEfficiencyNotIncludingVBlank > 0 ? dml_ceil(VActiveTimeCriticalPlane / *StutterPeriod, 1) : 0);
+ } else {
+ *StutterEfficiencyNotIncludingVBlank = 0.;
+ *Z8StutterEfficiencyNotIncludingVBlank = 0.;
+ *NumberOfStutterBurstsPerFrame = 0;
+ *Z8NumberOfStutterBurstsPerFrame = 0;
+ }
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: VActiveTimeCriticalPlane = %f\n", __func__, VActiveTimeCriticalPlane);
+ 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 < NumberOfActivePlanes; ++k) {
+ if (v->BlendingAndTiming[k] == k) {
+ TotalNumberOfActiveOTG = TotalNumberOfActiveOTG + 1;
+ }
+ }
+
+ if (*StutterEfficiencyNotIncludingVBlank > 0) {
+ LastStutterPeriod = VActiveTimeCriticalPlane - (*NumberOfStutterBurstsPerFrame - 1) * *StutterPeriod;
+
+ if ((SynchronizedVBlank || TotalNumberOfActiveOTG == 1) && LastStutterPeriod + MinTTUVBlankCriticalPlane > StutterEnterPlusExitWatermark) {
+ *StutterEfficiency = (1 - (*NumberOfStutterBurstsPerFrame * SRExitTime + StutterBurstTime * VActiveTimeCriticalPlane
+ / *StutterPeriod) / FrameTimeCriticalPlane) * 100;
+ } else {
+ *StutterEfficiency = *StutterEfficiencyNotIncludingVBlank;
+ }
+ } else {
+ *StutterEfficiency = 0;
+ }
+
+ if (*Z8StutterEfficiencyNotIncludingVBlank > 0) {
+ LastZ8StutterPeriod = VActiveTimeCriticalPlane - (*NumberOfStutterBurstsPerFrame - 1) * *StutterPeriod;
+ if ((SynchronizedVBlank || TotalNumberOfActiveOTG == 1) && LastZ8StutterPeriod + MinTTUVBlankCriticalPlane > Z8StutterEnterPlusExitWatermark) {
+ *Z8StutterEfficiency = (1 - (*NumberOfStutterBurstsPerFrame * SRExitZ8Time + StutterBurstTime * VActiveTimeCriticalPlane
+ / *StutterPeriod) / FrameTimeCriticalPlane) * 100;
+ } else {
+ *Z8StutterEfficiency = *Z8StutterEfficiencyNotIncludingVBlank;
+ }
+ } else {
+ *Z8StutterEfficiency = 0.;
+ }
+
+ 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);
+}
+
+static void CalculateSwathAndDETConfiguration(
+ bool ForceSingleDPP,
+ int NumberOfActivePlanes,
+ unsigned int DETBufferSizeInKByte,
+ double MaximumSwathWidthLuma[],
+ double MaximumSwathWidthChroma[],
+ enum scan_direction_class SourceScan[],
+ enum source_format_class SourcePixelFormat[],
+ enum dm_swizzle_mode SurfaceTiling[],
+ int ViewportWidth[],
+ int ViewportHeight[],
+ int SurfaceWidthY[],
+ int SurfaceWidthC[],
+ int SurfaceHeightY[],
+ int SurfaceHeightC[],
+ int Read256BytesBlockHeightY[],
+ int Read256BytesBlockHeightC[],
+ int Read256BytesBlockWidthY[],
+ int Read256BytesBlockWidthC[],
+ enum odm_combine_mode ODMCombineEnabled[],
+ int BlendingAndTiming[],
+ int BytePerPixY[],
+ int BytePerPixC[],
+ double BytePerPixDETY[],
+ double BytePerPixDETC[],
+ int HActive[],
+ double HRatio[],
+ double HRatioChroma[],
+ int DPPPerPlane[],
+ int swath_width_luma_ub[],
+ int swath_width_chroma_ub[],
+ double SwathWidth[],
+ double SwathWidthChroma[],
+ int SwathHeightY[],
+ int SwathHeightC[],
+ unsigned int DETBufferSizeY[],
+ unsigned int DETBufferSizeC[],
+ bool ViewportSizeSupportPerPlane[],
+ bool *ViewportSizeSupport)
+{
+ int MaximumSwathHeightY[DC__NUM_DPP__MAX];
+ int MaximumSwathHeightC[DC__NUM_DPP__MAX];
+ int MinimumSwathHeightY;
+ int MinimumSwathHeightC;
+ int RoundedUpMaxSwathSizeBytesY;
+ int RoundedUpMaxSwathSizeBytesC;
+ int RoundedUpMinSwathSizeBytesY;
+ int RoundedUpMinSwathSizeBytesC;
+ int RoundedUpSwathSizeBytesY;
+ int RoundedUpSwathSizeBytesC;
+ double SwathWidthSingleDPP[DC__NUM_DPP__MAX];
+ double SwathWidthSingleDPPChroma[DC__NUM_DPP__MAX];
+ int k;
+
+ CalculateSwathWidth(
+ ForceSingleDPP,
+ NumberOfActivePlanes,
+ SourcePixelFormat,
+ SourceScan,
+ ViewportWidth,
+ ViewportHeight,
+ SurfaceWidthY,
+ SurfaceWidthC,
+ SurfaceHeightY,
+ SurfaceHeightC,
+ ODMCombineEnabled,
+ BytePerPixY,
+ BytePerPixC,
+ Read256BytesBlockHeightY,
+ Read256BytesBlockHeightC,
+ Read256BytesBlockWidthY,
+ Read256BytesBlockWidthC,
+ BlendingAndTiming,
+ HActive,
+ HRatio,
+ DPPPerPlane,
+ SwathWidthSingleDPP,
+ SwathWidthSingleDPPChroma,
+ SwathWidth,
+ SwathWidthChroma,
+ MaximumSwathHeightY,
+ MaximumSwathHeightC,
+ swath_width_luma_ub,
+ swath_width_chroma_ub);
+
+ *ViewportSizeSupport = true;
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if ((SourcePixelFormat[k] == dm_444_64 || SourcePixelFormat[k] == dm_444_32 || SourcePixelFormat[k] == dm_444_16 || SourcePixelFormat[k] == dm_mono_16
+ || SourcePixelFormat[k] == dm_mono_8 || SourcePixelFormat[k] == dm_rgbe)) {
+ if (SurfaceTiling[k] == dm_sw_linear
+ || (SourcePixelFormat[k] == dm_444_64
+ && (SurfaceTiling[k] == dm_sw_64kb_s || SurfaceTiling[k] == dm_sw_64kb_s_t || SurfaceTiling[k] == dm_sw_64kb_s_x)
+ && SourceScan[k] != dm_vert)) {
+ MinimumSwathHeightY = MaximumSwathHeightY[k];
+ } else if (SourcePixelFormat[k] == dm_444_8 && SourceScan[k] == dm_vert) {
+ MinimumSwathHeightY = MaximumSwathHeightY[k];
+ } else {
+ MinimumSwathHeightY = MaximumSwathHeightY[k] / 2;
+ }
+ MinimumSwathHeightC = MaximumSwathHeightC[k];
+ } else {
+ if (SurfaceTiling[k] == dm_sw_linear) {
+ MinimumSwathHeightY = MaximumSwathHeightY[k];
+ MinimumSwathHeightC = MaximumSwathHeightC[k];
+ } else if (SourcePixelFormat[k] == dm_rgbe_alpha && SourceScan[k] == dm_vert) {
+ MinimumSwathHeightY = MaximumSwathHeightY[k] / 2;
+ MinimumSwathHeightC = MaximumSwathHeightC[k];
+ } else if (SourcePixelFormat[k] == dm_rgbe_alpha) {
+ MinimumSwathHeightY = MaximumSwathHeightY[k] / 2;
+ MinimumSwathHeightC = MaximumSwathHeightC[k] / 2;
+ } else if (SourcePixelFormat[k] == dm_420_8 && SourceScan[k] == dm_vert) {
+ MinimumSwathHeightY = MaximumSwathHeightY[k];
+ MinimumSwathHeightC = MaximumSwathHeightC[k] / 2;
+ } else {
+ MinimumSwathHeightC = MaximumSwathHeightC[k] / 2;
+ MinimumSwathHeightY = MaximumSwathHeightY[k] / 2;
+ }
+ }
+
+ RoundedUpMaxSwathSizeBytesY = swath_width_luma_ub[k] * BytePerPixDETY[k] * MaximumSwathHeightY[k];
+ RoundedUpMinSwathSizeBytesY = swath_width_luma_ub[k] * BytePerPixDETY[k] * MinimumSwathHeightY;
+ if (SourcePixelFormat[k] == dm_420_10) {
+ RoundedUpMaxSwathSizeBytesY = dml_ceil((double) RoundedUpMaxSwathSizeBytesY, 256);
+ RoundedUpMinSwathSizeBytesY = dml_ceil((double) RoundedUpMinSwathSizeBytesY, 256);
+ }
+ RoundedUpMaxSwathSizeBytesC = swath_width_chroma_ub[k] * BytePerPixDETC[k] * MaximumSwathHeightC[k];
+ RoundedUpMinSwathSizeBytesC = swath_width_chroma_ub[k] * BytePerPixDETC[k] * MinimumSwathHeightC;
+ if (SourcePixelFormat[k] == dm_420_10) {
+ RoundedUpMaxSwathSizeBytesC = dml_ceil(RoundedUpMaxSwathSizeBytesC, 256);
+ RoundedUpMinSwathSizeBytesC = dml_ceil(RoundedUpMinSwathSizeBytesC, 256);
+ }
+
+ if (RoundedUpMaxSwathSizeBytesY + RoundedUpMaxSwathSizeBytesC <= DETBufferSizeInKByte * 1024 / 2) {
+ SwathHeightY[k] = MaximumSwathHeightY[k];
+ SwathHeightC[k] = MaximumSwathHeightC[k];
+ RoundedUpSwathSizeBytesY = RoundedUpMaxSwathSizeBytesY;
+ RoundedUpSwathSizeBytesC = RoundedUpMaxSwathSizeBytesC;
+ } else if (RoundedUpMaxSwathSizeBytesY >= 1.5 * RoundedUpMaxSwathSizeBytesC
+ && RoundedUpMinSwathSizeBytesY + RoundedUpMaxSwathSizeBytesC <= DETBufferSizeInKByte * 1024 / 2) {
+ SwathHeightY[k] = MinimumSwathHeightY;
+ SwathHeightC[k] = MaximumSwathHeightC[k];
+ RoundedUpSwathSizeBytesY = RoundedUpMinSwathSizeBytesY;
+ RoundedUpSwathSizeBytesC = RoundedUpMaxSwathSizeBytesC;
+ } else if (RoundedUpMaxSwathSizeBytesY < 1.5 * RoundedUpMaxSwathSizeBytesC
+ && RoundedUpMaxSwathSizeBytesY + RoundedUpMinSwathSizeBytesC <= DETBufferSizeInKByte * 1024 / 2) {
+ SwathHeightY[k] = MaximumSwathHeightY[k];
+ SwathHeightC[k] = MinimumSwathHeightC;
+ RoundedUpSwathSizeBytesY = RoundedUpMaxSwathSizeBytesY;
+ RoundedUpSwathSizeBytesC = RoundedUpMinSwathSizeBytesC;
+ } else {
+ SwathHeightY[k] = MinimumSwathHeightY;
+ SwathHeightC[k] = MinimumSwathHeightC;
+ RoundedUpSwathSizeBytesY = RoundedUpMinSwathSizeBytesY;
+ RoundedUpSwathSizeBytesC = RoundedUpMinSwathSizeBytesC;
+ }
+ {
+ double actDETBufferSizeInKByte = dml_ceil(DETBufferSizeInKByte, 64);
+
+ if (SwathHeightC[k] == 0) {
+ DETBufferSizeY[k] = actDETBufferSizeInKByte * 1024;
+ DETBufferSizeC[k] = 0;
+ } else if (RoundedUpSwathSizeBytesY <= 1.5 * RoundedUpSwathSizeBytesC) {
+ DETBufferSizeY[k] = actDETBufferSizeInKByte * 1024 / 2;
+ DETBufferSizeC[k] = actDETBufferSizeInKByte * 1024 / 2;
+ } else {
+ DETBufferSizeY[k] = dml_floor(actDETBufferSizeInKByte * 1024 * 2 / 3, 1024);
+ DETBufferSizeC[k] = actDETBufferSizeInKByte * 1024 / 3;
+ }
+
+ if (RoundedUpMinSwathSizeBytesY + RoundedUpMinSwathSizeBytesC > actDETBufferSizeInKByte * 1024 / 2 || SwathWidth[k] > MaximumSwathWidthLuma[k]
+ || (SwathHeightC[k] > 0 && SwathWidthChroma[k] > MaximumSwathWidthChroma[k])) {
+ *ViewportSizeSupport = false;
+ ViewportSizeSupportPerPlane[k] = false;
+ } else {
+ ViewportSizeSupportPerPlane[k] = true;
+ }
+ }
+ }
+}
+
+static void CalculateSwathWidth(
+ bool ForceSingleDPP,
+ int NumberOfActivePlanes,
+ enum source_format_class SourcePixelFormat[],
+ enum scan_direction_class SourceScan[],
+ int ViewportWidth[],
+ int ViewportHeight[],
+ int SurfaceWidthY[],
+ int SurfaceWidthC[],
+ int SurfaceHeightY[],
+ int SurfaceHeightC[],
+ enum odm_combine_mode ODMCombineEnabled[],
+ int BytePerPixY[],
+ int BytePerPixC[],
+ int Read256BytesBlockHeightY[],
+ int Read256BytesBlockHeightC[],
+ int Read256BytesBlockWidthY[],
+ int Read256BytesBlockWidthC[],
+ int BlendingAndTiming[],
+ int HActive[],
+ double HRatio[],
+ int DPPPerPlane[],
+ double SwathWidthSingleDPPY[],
+ double SwathWidthSingleDPPC[],
+ double SwathWidthY[],
+ double SwathWidthC[],
+ int MaximumSwathHeightY[],
+ int MaximumSwathHeightC[],
+ int swath_width_luma_ub[],
+ int swath_width_chroma_ub[])
+{
+ enum odm_combine_mode MainPlaneODMCombine;
+ int j, k;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: NumberOfActivePlanes = %d\n", __func__, NumberOfActivePlanes);
+#endif
+
+ for (k = 0; k < NumberOfActivePlanes; ++k) {
+ if (SourceScan[k] != dm_vert) {
+ SwathWidthSingleDPPY[k] = ViewportWidth[k];
+ } else {
+ SwathWidthSingleDPPY[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
+
+ MainPlaneODMCombine = ODMCombineEnabled[k];
+ for (j = 0; j < NumberOfActivePlanes; ++j) {
+ if (BlendingAndTiming[k] == j) {
+ MainPlaneODMCombine = ODMCombineEnabled[j];
+ }
+ }
+
+ if (MainPlaneODMCombine == dm_odm_combine_mode_4to1)
+ SwathWidthY[k] = dml_min(SwathWidthSingleDPPY[k], dml_round(HActive[k] / 4.0 * HRatio[k]));
+ else if (MainPlaneODMCombine == dm_odm_combine_mode_2to1)
+ SwathWidthY[k] = dml_min(SwathWidthSingleDPPY[k], dml_round(HActive[k] / 2.0 * HRatio[k]));
+ else if (DPPPerPlane[k] == 2)
+ SwathWidthY[k] = SwathWidthSingleDPPY[k] / 2;
+ else
+ SwathWidthY[k] = SwathWidthSingleDPPY[k];
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%d SwathWidthSingleDPPY=%f\n", __func__, k, SwathWidthSingleDPPY[k]);
+ dml_print("DML::%s: k=%d SwathWidthY=%f\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;
+ SwathWidthSingleDPPC[k] = SwathWidthSingleDPPY[k] / 2;
+ } else {
+ SwathWidthC[k] = SwathWidthY[k];
+ SwathWidthSingleDPPC[k] = SwathWidthSingleDPPY[k];
+ }
+
+ if (ForceSingleDPP == true) {
+ SwathWidthY[k] = SwathWidthSingleDPPY[k];
+ SwathWidthC[k] = SwathWidthSingleDPPC[k];
+ }
+ {
+ int surface_width_ub_l = dml_ceil(SurfaceWidthY[k], Read256BytesBlockWidthY[k]);
+ int surface_height_ub_l = dml_ceil(SurfaceHeightY[k], Read256BytesBlockHeightY[k]);
+ int surface_width_ub_c = dml_ceil(SurfaceWidthC[k], Read256BytesBlockWidthC[k]);
+ int surface_height_ub_c = dml_ceil(SurfaceHeightC[k], Read256BytesBlockHeightC[k]);
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: k=%d surface_width_ub_l=%0d\n", __func__, k, surface_width_ub_l);
+#endif
+
+ if (SourceScan[k] != dm_vert) {
+ MaximumSwathHeightY[k] = Read256BytesBlockHeightY[k];
+ MaximumSwathHeightC[k] = Read256BytesBlockHeightC[k];
+ swath_width_luma_ub[k] = dml_min(surface_width_ub_l, (int) dml_ceil(SwathWidthY[k] - 1, Read256BytesBlockWidthY[k]) + Read256BytesBlockWidthY[k]);
+ if (BytePerPixC[k] > 0) {
+ swath_width_chroma_ub[k] = dml_min(
+ surface_width_ub_c,
+ (int) 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];
+ swath_width_luma_ub[k] = dml_min(surface_height_ub_l, (int) dml_ceil(SwathWidthY[k] - 1, Read256BytesBlockHeightY[k]) + Read256BytesBlockHeightY[k]);
+ if (BytePerPixC[k] > 0) {
+ swath_width_chroma_ub[k] = dml_min(
+ surface_height_ub_c,
+ (int) dml_ceil(SwathWidthC[k] - 1, Read256BytesBlockHeightC[k]) + Read256BytesBlockHeightC[k]);
+ } else {
+ swath_width_chroma_ub[k] = 0;
+ }
+ }
+ }
+ }
+}
+
+static double CalculateExtraLatency(
+ int RoundTripPingLatencyCycles,
+ int ReorderingBytes,
+ double DCFCLK,
+ int TotalNumberOfActiveDPP,
+ int PixelChunkSizeInKByte,
+ int TotalNumberOfDCCActiveDPP,
+ int MetaChunkSize,
+ double ReturnBW,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ int NumberOfActivePlanes,
+ int NumberOfDPP[],
+ int dpte_group_bytes[],
+ double HostVMInefficiencyFactor,
+ double HostVMMinPageSize,
+ int HostVMMaxNonCachedPageTableLevels)
+{
+ double ExtraLatencyBytes;
+ double ExtraLatency;
+
+ ExtraLatencyBytes = CalculateExtraLatencyBytes(
+ ReorderingBytes,
+ TotalNumberOfActiveDPP,
+ PixelChunkSizeInKByte,
+ TotalNumberOfDCCActiveDPP,
+ MetaChunkSize,
+ GPUVMEnable,
+ HostVMEnable,
+ NumberOfActivePlanes,
+ 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;
+}
+
+static double CalculateExtraLatencyBytes(
+ int ReorderingBytes,
+ int TotalNumberOfActiveDPP,
+ int PixelChunkSizeInKByte,
+ int TotalNumberOfDCCActiveDPP,
+ int MetaChunkSize,
+ bool GPUVMEnable,
+ bool HostVMEnable,
+ int NumberOfActivePlanes,
+ int NumberOfDPP[],
+ int dpte_group_bytes[],
+ double HostVMInefficiencyFactor,
+ double HostVMMinPageSize,
+ int HostVMMaxNonCachedPageTableLevels)
+{
+ double ret;
+ int HostVMDynamicLevels = 0, k;
+
+ 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 < NumberOfActivePlanes; ++k)
+ ret = ret + NumberOfDPP[k] * dpte_group_bytes[k] * (1 + 8 * HostVMDynamicLevels) * HostVMInefficiencyFactor;
+ }
+ return ret;
+}
+
+static double 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;
+}
+
+static void UseMinimumDCFCLK(
+ struct display_mode_lib *mode_lib,
+ int MaxPrefetchMode,
+ int ReorderingBytes)
+{
+ struct vba_vars_st *v = &mode_lib->vba;
+ int dummy1, i, j, k;
+ double NormalEfficiency, dummy2, dummy3;
+ double TotalMaxPrefetchFlipDPTERowBandwidth[DC__VOLTAGE_STATES][2];
+
+ NormalEfficiency = v->PercentOfIdealFabricAndSDPPortBWReceivedAfterUrgLatency / 100.0;
+ for (i = 0; i < v->soc.num_states; ++i) {
+ for (j = 0; j <= 1; ++j) {
+ double PixelDCFCLKCyclesRequiredInPrefetch[DC__NUM_DPP__MAX];
+ double PrefetchPixelLinesTime[DC__NUM_DPP__MAX];
+ double DCFCLKRequiredForPeakBandwidthPerPlane[DC__NUM_DPP__MAX];
+ double DynamicMetadataVMExtraLatency[DC__NUM_DPP__MAX];
+ double MinimumTWait;
+ double NonDPTEBandwidth;
+ double DPTEBandwidth;
+ double DCFCLKRequiredForAverageBandwidth;
+ double ExtraLatencyBytes;
+ double ExtraLatencyCycles;
+ double DCFCLKRequiredForPeakBandwidth;
+ int NoOfDPPState[DC__NUM_DPP__MAX];
+ double MinimumTvmPlus2Tr0;
+
+ TotalMaxPrefetchFlipDPTERowBandwidth[i][j] = 0;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ TotalMaxPrefetchFlipDPTERowBandwidth[i][j] = TotalMaxPrefetchFlipDPTERowBandwidth[i][j]
+ + v->NoOfDPP[i][j][k] * v->DPTEBytesPerRow[i][j][k] / (15.75 * v->HTotal[k] / v->PixelClock[k]);
+ }
+
+ for (k = 0; k <= v->NumberOfActivePlanes - 1; ++k)
+ NoOfDPPState[k] = v->NoOfDPP[i][j][k];
+
+ MinimumTWait = CalculateTWait(MaxPrefetchMode, v->FinalDRAMClockChangeLatency, v->UrgLatency[i], v->SREnterPlusExitTime);
+ NonDPTEBandwidth = v->TotalVActivePixelBandwidth[i][j] + v->TotalVActiveCursorBandwidth[i][j] + v->TotalMetaRowBandwidth[i][j];
+ DPTEBandwidth = (v->HostVMEnable == true || v->ImmediateFlipRequirement[0] == dm_immediate_flip_required) ?
+ TotalMaxPrefetchFlipDPTERowBandwidth[i][j] : v->TotalDPTERowBandwidth[i][j];
+ DCFCLKRequiredForAverageBandwidth = dml_max3(
+ v->ProjectedDCFCLKDeepSleep[i][j],
+ (NonDPTEBandwidth + v->TotalDPTERowBandwidth[i][j]) / v->ReturnBusWidth
+ / (v->MaxAveragePercentOfIdealFabricAndSDPPortBWDisplayCanUseInNormalSystemOperation / 100),
+ (NonDPTEBandwidth + DPTEBandwidth / NormalEfficiency) / NormalEfficiency / v->ReturnBusWidth);
+
+ ExtraLatencyBytes = CalculateExtraLatencyBytes(
+ ReorderingBytes,
+ v->TotalNumberOfActiveDPP[i][j],
+ v->PixelChunkSizeInKByte,
+ v->TotalNumberOfDCCActiveDPP[i][j],
+ v->MetaChunkSize,
+ v->GPUVMEnable,
+ v->HostVMEnable,
+ v->NumberOfActivePlanes,
+ NoOfDPPState,
+ v->dpte_group_bytes,
+ 1,
+ v->HostVMMinPageSize,
+ v->HostVMMaxNonCachedPageTableLevels);
+ ExtraLatencyCycles = v->RoundTripPingLatencyCycles + __DML_ARB_TO_RET_DELAY__ + ExtraLatencyBytes / NormalEfficiency / v->ReturnBusWidth;
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ double DCFCLKCyclesRequiredInPrefetch;
+ double ExpectedPrefetchBWAcceleration;
+ double PrefetchTime;
+
+ PixelDCFCLKCyclesRequiredInPrefetch[k] = (v->PrefetchLinesY[i][j][k] * v->swath_width_luma_ub_all_states[i][j][k] * v->BytePerPixelY[k]
+ + v->PrefetchLinesC[i][j][k] * v->swath_width_chroma_ub_all_states[i][j][k] * v->BytePerPixelC[k]) / NormalEfficiency / v->ReturnBusWidth;
+ DCFCLKCyclesRequiredInPrefetch = 2 * ExtraLatencyCycles / NoOfDPPState[k]
+ + v->PDEAndMetaPTEBytesPerFrame[i][j][k] / NormalEfficiency / NormalEfficiency / v->ReturnBusWidth * (v->GPUVMMaxPageTableLevels > 2 ? 1 : 0)
+ + 2 * v->DPTEBytesPerRow[i][j][k] / NormalEfficiency / NormalEfficiency / v->ReturnBusWidth
+ + 2 * v->MetaRowBytes[i][j][k] / NormalEfficiency / v->ReturnBusWidth + PixelDCFCLKCyclesRequiredInPrefetch[k];
+ PrefetchPixelLinesTime[k] = dml_max(v->PrefetchLinesY[i][j][k], v->PrefetchLinesC[i][j][k]) * v->HTotal[k] / v->PixelClock[k];
+ ExpectedPrefetchBWAcceleration = (v->VActivePixelBandwidth[i][j][k] + v->VActiveCursorBandwidth[i][j][k])
+ / (v->ReadBandwidthLuma[k] + v->ReadBandwidthChroma[k]);
+ DynamicMetadataVMExtraLatency[k] =
+ (v->GPUVMEnable == true && v->DynamicMetadataEnable[k] == true && v->DynamicMetadataVMEnabled == true) ?
+ v->UrgLatency[i] * v->GPUVMMaxPageTableLevels * (v->HostVMEnable == true ? v->HostVMMaxNonCachedPageTableLevels + 1 : 1) : 0;
+ PrefetchTime = (v->MaximumVStartup[i][j][k] - 1) * v->HTotal[k] / v->PixelClock[k] - MinimumTWait
+ - v->UrgLatency[i]
+ * ((v->GPUVMMaxPageTableLevels <= 2 ? v->GPUVMMaxPageTableLevels : v->GPUVMMaxPageTableLevels - 2)
+ * (v->HostVMEnable == true ? v->HostVMMaxNonCachedPageTableLevels + 1 : 1) - 1)
+ - DynamicMetadataVMExtraLatency[k];
+
+ if (PrefetchTime > 0) {
+ double ExpectedVRatioPrefetch;
+
+ ExpectedVRatioPrefetch = PrefetchPixelLinesTime[k]
+ / (PrefetchTime * PixelDCFCLKCyclesRequiredInPrefetch[k] / DCFCLKCyclesRequiredInPrefetch);
+ DCFCLKRequiredForPeakBandwidthPerPlane[k] = NoOfDPPState[k] * PixelDCFCLKCyclesRequiredInPrefetch[k] / PrefetchPixelLinesTime[k]
+ * dml_max(1.0, ExpectedVRatioPrefetch) * dml_max(1.0, ExpectedVRatioPrefetch / 4) * ExpectedPrefetchBWAcceleration;
+ if (v->HostVMEnable == true || v->ImmediateFlipRequirement[0] == dm_immediate_flip_required) {
+ DCFCLKRequiredForPeakBandwidthPerPlane[k] = DCFCLKRequiredForPeakBandwidthPerPlane[k]
+ + NoOfDPPState[k] * DPTEBandwidth / NormalEfficiency / NormalEfficiency / v->ReturnBusWidth;
+ }
+ } else {
+ DCFCLKRequiredForPeakBandwidthPerPlane[k] = v->DCFCLKPerState[i];
+ }
+ if (v->DynamicMetadataEnable[k] == true) {
+ double TSetupPipe;
+ double TdmbfPipe;
+ double TdmsksPipe;
+ double TdmecPipe;
+ double AllowedTimeForUrgentExtraLatency;
+
+ CalculateVupdateAndDynamicMetadataParameters(
+ v->MaxInterDCNTileRepeaters,
+ v->RequiredDPPCLK[i][j][k],
+ v->RequiredDISPCLK[i][j],
+ v->ProjectedDCFCLKDeepSleep[i][j],
+ v->PixelClock[k],
+ v->HTotal[k],
+ v->VTotal[k] - v->VActive[k],
+ v->DynamicMetadataTransmittedBytes[k],
+ v->DynamicMetadataLinesBeforeActiveRequired[k],
+ v->Interlace[k],
+ v->ProgressiveToInterlaceUnitInOPP,
+ &TSetupPipe,
+ &TdmbfPipe,
+ &TdmecPipe,
+ &TdmsksPipe,
+ &dummy1,
+ &dummy2,
+ &dummy3);
+ AllowedTimeForUrgentExtraLatency = v->MaximumVStartup[i][j][k] * v->HTotal[k] / v->PixelClock[k] - MinimumTWait - TSetupPipe - TdmbfPipe - TdmecPipe
+ - TdmsksPipe - DynamicMetadataVMExtraLatency[k];
+ if (AllowedTimeForUrgentExtraLatency > 0) {
+ DCFCLKRequiredForPeakBandwidthPerPlane[k] = dml_max(
+ DCFCLKRequiredForPeakBandwidthPerPlane[k],
+ ExtraLatencyCycles / AllowedTimeForUrgentExtraLatency);
+ } else {
+ DCFCLKRequiredForPeakBandwidthPerPlane[k] = v->DCFCLKPerState[i];
+ }
+ }
+ }
+ DCFCLKRequiredForPeakBandwidth = 0;
+ for (k = 0; k <= v->NumberOfActivePlanes - 1; ++k)
+ DCFCLKRequiredForPeakBandwidth = DCFCLKRequiredForPeakBandwidth + DCFCLKRequiredForPeakBandwidthPerPlane[k];
+
+ MinimumTvmPlus2Tr0 = v->UrgLatency[i]
+ * (v->GPUVMEnable == true ?
+ (v->HostVMEnable == true ?
+ (v->GPUVMMaxPageTableLevels + 2) * (v->HostVMMaxNonCachedPageTableLevels + 1) - 1 : v->GPUVMMaxPageTableLevels + 1) :
+ 0);
+ for (k = 0; k < v->NumberOfActivePlanes; ++k) {
+ double MaximumTvmPlus2Tr0PlusTsw;
+
+ MaximumTvmPlus2Tr0PlusTsw = (v->MaximumVStartup[i][j][k] - 2) * v->HTotal[k] / v->PixelClock[k] - MinimumTWait - DynamicMetadataVMExtraLatency[k];
+ if (MaximumTvmPlus2Tr0PlusTsw <= MinimumTvmPlus2Tr0 + PrefetchPixelLinesTime[k] / 4) {
+ DCFCLKRequiredForPeakBandwidth = v->DCFCLKPerState[i];
+ } else {
+ DCFCLKRequiredForPeakBandwidth = dml_max3(
+ DCFCLKRequiredForPeakBandwidth,
+ 2 * ExtraLatencyCycles / (MaximumTvmPlus2Tr0PlusTsw - MinimumTvmPlus2Tr0 - PrefetchPixelLinesTime[k] / 4),
+ (2 * ExtraLatencyCycles + PixelDCFCLKCyclesRequiredInPrefetch[k]) / (MaximumTvmPlus2Tr0PlusTsw - MinimumTvmPlus2Tr0));
+ }
+ }
+ v->DCFCLKState[i][j] = dml_min(v->DCFCLKPerState[i], 1.05 * dml_max(DCFCLKRequiredForAverageBandwidth, DCFCLKRequiredForPeakBandwidth));
+ }
+ }
+}
+
+static void CalculateUnboundedRequestAndCompressedBufferSize(
+ unsigned int DETBufferSizeInKByte,
+ int ConfigReturnBufferSizeInKByte,
+ enum unbounded_requesting_policy UseUnboundedRequestingFinal,
+ int TotalActiveDPP,
+ bool NoChromaPlanes,
+ int MaxNumDPP,
+ int CompressedBufferSegmentSizeInkByteFinal,
+ enum output_encoder_class *Output,
+ bool *UnboundedRequestEnabled,
+ int *CompressedBufferSizeInkByte)
+{
+ double actDETBufferSizeInKByte = dml_ceil(DETBufferSizeInKByte, 64);
+
+ *UnboundedRequestEnabled = UnboundedRequest(UseUnboundedRequestingFinal, TotalActiveDPP, NoChromaPlanes, Output[0]);
+ *CompressedBufferSizeInkByte = (
+ *UnboundedRequestEnabled == true ?
+ ConfigReturnBufferSizeInKByte - TotalActiveDPP * actDETBufferSizeInKByte :
+ ConfigReturnBufferSizeInKByte - MaxNumDPP * actDETBufferSizeInKByte);
+ *CompressedBufferSizeInkByte = *CompressedBufferSizeInkByte * CompressedBufferSegmentSizeInkByteFinal / 64;
+
+#ifdef __DML_VBA_DEBUG__
+ dml_print("DML::%s: TotalActiveDPP = %d\n", __func__, TotalActiveDPP);
+ dml_print("DML::%s: DETBufferSizeInKByte = %d\n", __func__, DETBufferSizeInKByte);
+ dml_print("DML::%s: ConfigReturnBufferSizeInKByte = %d\n", __func__, ConfigReturnBufferSizeInKByte);
+ dml_print("DML::%s: UseUnboundedRequestingFinal = %d\n", __func__, UseUnboundedRequestingFinal);
+ dml_print("DML::%s: actDETBufferSizeInKByte = %f\n", __func__, actDETBufferSizeInKByte);
+ dml_print("DML::%s: UnboundedRequestEnabled = %d\n", __func__, *UnboundedRequestEnabled);
+ dml_print("DML::%s: CompressedBufferSizeInkByte = %d\n", __func__, *CompressedBufferSizeInkByte);
+#endif
+}
+
+static bool UnboundedRequest(enum unbounded_requesting_policy UseUnboundedRequestingFinal, int TotalNumberOfActiveDPP, bool NoChroma, enum output_encoder_class Output)
+{
+ 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;
+ return (ret_val);
+}
+
+static unsigned int CalculateMaxVStartup(
+ unsigned int VTotal,
+ unsigned int VActive,
+ unsigned int VBlankNom,
+ unsigned int HTotal,
+ double PixelClock,
+ bool ProgressiveTointerlaceUnitinOPP,
+ bool Interlace,
+ unsigned int VBlankNomDefaultUS,
+ double WritebackDelayTime)
+{
+ unsigned int MaxVStartup = 0;
+ unsigned int vblank_size = 0;
+ double line_time_us = HTotal / PixelClock;
+ unsigned int vblank_actual = VTotal - VActive;
+ unsigned int vblank_nom_default_in_line = dml_floor(VBlankNomDefaultUS / line_time_us, 1.0);
+ unsigned int vblank_nom_input = dml_min(VBlankNom, vblank_nom_default_in_line);
+ unsigned int vblank_avail = vblank_nom_input == 0 ? vblank_nom_default_in_line : vblank_nom_input;
+
+ vblank_size = (unsigned int) dml_min(vblank_actual, vblank_avail);
+ if (Interlace && !ProgressiveTointerlaceUnitinOPP)
+ MaxVStartup = dml_floor(vblank_size / 2.0, 1.0);
+ else
+ MaxVStartup = vblank_size - dml_max(1.0, dml_ceil(WritebackDelayTime / line_time_us, 1.0));
+ if (MaxVStartup > 1023)
+ MaxVStartup = 1023;
+ return MaxVStartup;
+}
diff --git a/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.h b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.h
new file mode 100644
index 000000000000..a8199ab7d26a
--- /dev/null
+++ b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_mode_vba_314.h
@@ -0,0 +1,44 @@
+/* SPDX-License-Identifier: MIT */
+/*
+ * Copyright 2022 Advanced Micro Devices, Inc.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
+ * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ *
+ * Authors: AMD
+ *
+ */
+
+#ifndef __DML314_DISPLAY_MODE_VBA_H__
+#define __DML314_DISPLAY_MODE_VBA_H__
+
+void dml314_recalculate(struct display_mode_lib *mode_lib);
+void dml314_ModeSupportAndSystemConfigurationFull(struct display_mode_lib *mode_lib);
+double dml314_CalculateWriteBackDISPCLK(
+ enum source_format_class WritebackPixelFormat,
+ double PixelClock,
+ double WritebackHRatio,
+ double WritebackVRatio,
+ unsigned int WritebackHTaps,
+ unsigned int WritebackVTaps,
+ long WritebackSourceWidth,
+ long WritebackDestinationWidth,
+ unsigned int HTotal,
+ unsigned int WritebackLineBufferSize);
+
+#endif /* __DML314_DISPLAY_MODE_VBA_H__ */
diff --git a/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.c b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.c
new file mode 100644
index 000000000000..61ee9ba063a7
--- /dev/null
+++ b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.c
@@ -0,0 +1,1733 @@
+// SPDX-License-Identifier: MIT
+/*
+ * Copyright 2022 Advanced Micro Devices, Inc.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
+ * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ *
+ * Authors: AMD
+ *
+ */
+
+#include "../display_mode_lib.h"
+#include "../display_mode_vba.h"
+#include "../dml_inline_defs.h"
+#include "display_rq_dlg_calc_314.h"
+
+static bool CalculateBytePerPixelAnd256BBlockSizes(
+ 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)
+{
+ 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 || 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;
+ }
+
+ 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;
+ }
+ return true;
+}
+
+static bool is_dual_plane(enum source_format_class source_format)
+{
+ bool ret_val = 0;
+
+ if ((source_format == dm_420_12) || (source_format == dm_420_8) || (source_format == dm_420_10) || (source_format == dm_rgbe_alpha))
+ ret_val = 1;
+
+ return ret_val;
+}
+
+static double get_refcyc_per_delivery(
+ struct display_mode_lib *mode_lib,
+ double refclk_freq_in_mhz,
+ double pclk_freq_in_mhz,
+ unsigned int odm_combine,
+ unsigned int recout_width,
+ unsigned int hactive,
+ double vratio,
+ double hscale_pixel_rate,
+ unsigned int delivery_width,
+ unsigned int req_per_swath_ub)
+{
+ double refcyc_per_delivery = 0.0;
+
+ if (vratio <= 1.0) {
+ if (odm_combine)
+ refcyc_per_delivery = (double) refclk_freq_in_mhz * (double) ((unsigned int) odm_combine * 2)
+ * dml_min((double) recout_width, (double) hactive / ((unsigned int) odm_combine * 2)) / pclk_freq_in_mhz / (double) req_per_swath_ub;
+ else
+ refcyc_per_delivery = (double) refclk_freq_in_mhz * (double) recout_width / pclk_freq_in_mhz / (double) req_per_swath_ub;
+ } else {
+ refcyc_per_delivery = (double) refclk_freq_in_mhz * (double) delivery_width / (double) hscale_pixel_rate / (double) req_per_swath_ub;
+ }
+
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: refclk_freq_in_mhz = %3.2f\n", __func__, refclk_freq_in_mhz);
+ dml_print("DML_DLG: %s: pclk_freq_in_mhz = %3.2f\n", __func__, pclk_freq_in_mhz);
+ dml_print("DML_DLG: %s: recout_width = %d\n", __func__, recout_width);
+ dml_print("DML_DLG: %s: vratio = %3.2f\n", __func__, vratio);
+ dml_print("DML_DLG: %s: req_per_swath_ub = %d\n", __func__, req_per_swath_ub);
+ dml_print("DML_DLG: %s: hscale_pixel_rate = %3.2f\n", __func__, hscale_pixel_rate);
+ dml_print("DML_DLG: %s: delivery_width = %d\n", __func__, delivery_width);
+ dml_print("DML_DLG: %s: refcyc_per_delivery= %3.2f\n", __func__, refcyc_per_delivery);
+#endif
+
+ return refcyc_per_delivery;
+
+}
+
+static unsigned int get_blk_size_bytes(const enum source_macro_tile_size tile_size)
+{
+ if (tile_size == dm_256k_tile)
+ return (256 * 1024);
+ else if (tile_size == dm_64k_tile)
+ return (64 * 1024);
+ else
+ return (4 * 1024);
+}
+
+static void extract_rq_sizing_regs(struct display_mode_lib *mode_lib, display_data_rq_regs_st *rq_regs, const display_data_rq_sizing_params_st *rq_sizing)
+{
+ print__data_rq_sizing_params_st(mode_lib, rq_sizing);
+
+ rq_regs->chunk_size = dml_log2(rq_sizing->chunk_bytes) - 10;
+
+ if (rq_sizing->min_chunk_bytes == 0)
+ rq_regs->min_chunk_size = 0;
+ else
+ rq_regs->min_chunk_size = dml_log2(rq_sizing->min_chunk_bytes) - 8 + 1;
+
+ rq_regs->meta_chunk_size = dml_log2(rq_sizing->meta_chunk_bytes) - 10;
+ if (rq_sizing->min_meta_chunk_bytes == 0)
+ rq_regs->min_meta_chunk_size = 0;
+ else
+ rq_regs->min_meta_chunk_size = dml_log2(rq_sizing->min_meta_chunk_bytes) - 6 + 1;
+
+ rq_regs->dpte_group_size = dml_log2(rq_sizing->dpte_group_bytes) - 6;
+ rq_regs->mpte_group_size = dml_log2(rq_sizing->mpte_group_bytes) - 6;
+}
+
+static void extract_rq_regs(struct display_mode_lib *mode_lib, display_rq_regs_st *rq_regs, const display_rq_params_st *rq_param)
+{
+ unsigned int detile_buf_size_in_bytes = mode_lib->ip.det_buffer_size_kbytes * 1024;
+ unsigned int detile_buf_plane1_addr = 0;
+
+ extract_rq_sizing_regs(mode_lib, &(rq_regs->rq_regs_l), &rq_param->sizing.rq_l);
+
+ rq_regs->rq_regs_l.pte_row_height_linear = dml_floor(dml_log2(rq_param->dlg.rq_l.dpte_row_height), 1) - 3;
+
+ if (rq_param->yuv420) {
+ extract_rq_sizing_regs(mode_lib, &(rq_regs->rq_regs_c), &rq_param->sizing.rq_c);
+ rq_regs->rq_regs_c.pte_row_height_linear = dml_floor(dml_log2(rq_param->dlg.rq_c.dpte_row_height), 1) - 3;
+ }
+
+ rq_regs->rq_regs_l.swath_height = dml_log2(rq_param->dlg.rq_l.swath_height);
+ rq_regs->rq_regs_c.swath_height = dml_log2(rq_param->dlg.rq_c.swath_height);
+
+ // FIXME: take the max between luma, chroma chunk size?
+ // okay for now, as we are setting chunk_bytes to 8kb anyways
+ if (rq_param->sizing.rq_l.chunk_bytes >= 32 * 1024 || (rq_param->yuv420 && rq_param->sizing.rq_c.chunk_bytes >= 32 * 1024)) { //32kb
+ rq_regs->drq_expansion_mode = 0;
+ } else {
+ rq_regs->drq_expansion_mode = 2;
+ }
+ rq_regs->prq_expansion_mode = 1;
+ rq_regs->mrq_expansion_mode = 1;
+ rq_regs->crq_expansion_mode = 1;
+
+ // Note: detile_buf_plane1_addr is in unit of 1KB
+ if (rq_param->yuv420) {
+ if ((double) rq_param->misc.rq_l.stored_swath_bytes / (double) rq_param->misc.rq_c.stored_swath_bytes <= 1.5) {
+ detile_buf_plane1_addr = (detile_buf_size_in_bytes / 2.0 / 1024.0); // half to chroma
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: detile_buf_plane1_addr = %0d (1/2 to chroma)\n", __func__, detile_buf_plane1_addr);
+#endif
+ } else {
+ detile_buf_plane1_addr = dml_round_to_multiple((unsigned int) ((2.0 * detile_buf_size_in_bytes) / 3.0), 1024, 0) / 1024.0; // 2/3 to luma
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: detile_buf_plane1_addr = %0d (1/3 chroma)\n", __func__, detile_buf_plane1_addr);
+#endif
+ }
+ }
+ rq_regs->plane1_base_address = detile_buf_plane1_addr;
+
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: detile_buf_size_in_bytes = %0d\n", __func__, detile_buf_size_in_bytes);
+ dml_print("DML_DLG: %s: detile_buf_plane1_addr = %0d\n", __func__, detile_buf_plane1_addr);
+ dml_print("DML_DLG: %s: plane1_base_address = %0d\n", __func__, rq_regs->plane1_base_address);
+ dml_print("DML_DLG: %s: rq_l.stored_swath_bytes = %0d\n", __func__, rq_param->misc.rq_l.stored_swath_bytes);
+ dml_print("DML_DLG: %s: rq_c.stored_swath_bytes = %0d\n", __func__, rq_param->misc.rq_c.stored_swath_bytes);
+ dml_print("DML_DLG: %s: rq_l.swath_height = %0d\n", __func__, rq_param->dlg.rq_l.swath_height);
+ dml_print("DML_DLG: %s: rq_c.swath_height = %0d\n", __func__, rq_param->dlg.rq_c.swath_height);
+#endif
+}
+
+static void handle_det_buf_split(struct display_mode_lib *mode_lib, display_rq_params_st *rq_param, const display_pipe_source_params_st *pipe_src_param)
+{
+ unsigned int total_swath_bytes = 0;
+ unsigned int swath_bytes_l = 0;
+ unsigned int swath_bytes_c = 0;
+ unsigned int full_swath_bytes_packed_l = 0;
+ unsigned int full_swath_bytes_packed_c = 0;
+ bool req128_l = 0;
+ bool req128_c = 0;
+ bool surf_linear = (pipe_src_param->sw_mode == dm_sw_linear);
+ bool surf_vert = (pipe_src_param->source_scan == dm_vert);
+ unsigned int log2_swath_height_l = 0;
+ unsigned int log2_swath_height_c = 0;
+ unsigned int detile_buf_size_in_bytes = mode_lib->ip.det_buffer_size_kbytes * 1024;
+
+ full_swath_bytes_packed_l = rq_param->misc.rq_l.full_swath_bytes;
+ full_swath_bytes_packed_c = rq_param->misc.rq_c.full_swath_bytes;
+
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: full_swath_bytes_packed_l = %0d\n", __func__, full_swath_bytes_packed_l);
+ dml_print("DML_DLG: %s: full_swath_bytes_packed_c = %0d\n", __func__, full_swath_bytes_packed_c);
+#endif
+
+ if (rq_param->yuv420_10bpc) {
+ full_swath_bytes_packed_l = dml_round_to_multiple(rq_param->misc.rq_l.full_swath_bytes * 2.0 / 3.0, 256, 1) + 256;
+ full_swath_bytes_packed_c = dml_round_to_multiple(rq_param->misc.rq_c.full_swath_bytes * 2.0 / 3.0, 256, 1) + 256;
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: full_swath_bytes_packed_l = %0d (3-2 packing)\n", __func__, full_swath_bytes_packed_l);
+ dml_print("DML_DLG: %s: full_swath_bytes_packed_c = %0d (3-2 packing)\n", __func__, full_swath_bytes_packed_c);
+#endif
+ }
+
+ if (rq_param->yuv420)
+ total_swath_bytes = 2 * full_swath_bytes_packed_l + 2 * full_swath_bytes_packed_c;
+ else
+ total_swath_bytes = 2 * full_swath_bytes_packed_l;
+
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: total_swath_bytes = %0d\n", __func__, total_swath_bytes);
+ dml_print("DML_DLG: %s: detile_buf_size_in_bytes = %0d\n", __func__, detile_buf_size_in_bytes);
+#endif
+
+ if (total_swath_bytes <= detile_buf_size_in_bytes) { //full 256b request
+ req128_l = 0;
+ req128_c = 0;
+ swath_bytes_l = full_swath_bytes_packed_l;
+ swath_bytes_c = full_swath_bytes_packed_c;
+ } else if (!rq_param->yuv420) {
+ req128_l = 1;
+ req128_c = 0;
+ swath_bytes_c = full_swath_bytes_packed_c;
+ swath_bytes_l = full_swath_bytes_packed_l / 2;
+ } else if ((double) full_swath_bytes_packed_l / (double) full_swath_bytes_packed_c < 1.5) {
+ req128_l = 0;
+ req128_c = 1;
+ swath_bytes_l = full_swath_bytes_packed_l;
+ swath_bytes_c = full_swath_bytes_packed_c / 2;
+
+ total_swath_bytes = 2 * swath_bytes_l + 2 * swath_bytes_c;
+
+ if (total_swath_bytes > detile_buf_size_in_bytes) {
+ req128_l = 1;
+ swath_bytes_l = full_swath_bytes_packed_l / 2;
+ }
+ } else {
+ req128_l = 1;
+ req128_c = 0;
+ swath_bytes_l = full_swath_bytes_packed_l / 2;
+ swath_bytes_c = full_swath_bytes_packed_c;
+
+ total_swath_bytes = 2 * swath_bytes_l + 2 * swath_bytes_c;
+
+ if (total_swath_bytes > detile_buf_size_in_bytes) {
+ req128_c = 1;
+ swath_bytes_c = full_swath_bytes_packed_c / 2;
+ }
+ }
+
+ if (rq_param->yuv420)
+ total_swath_bytes = 2 * swath_bytes_l + 2 * swath_bytes_c;
+ else
+ total_swath_bytes = 2 * swath_bytes_l;
+
+ rq_param->misc.rq_l.stored_swath_bytes = swath_bytes_l;
+ rq_param->misc.rq_c.stored_swath_bytes = swath_bytes_c;
+
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: total_swath_bytes = %0d\n", __func__, total_swath_bytes);
+ dml_print("DML_DLG: %s: rq_l.stored_swath_bytes = %0d\n", __func__, rq_param->misc.rq_l.stored_swath_bytes);
+ dml_print("DML_DLG: %s: rq_c.stored_swath_bytes = %0d\n", __func__, rq_param->misc.rq_c.stored_swath_bytes);
+#endif
+ if (surf_linear) {
+ log2_swath_height_l = 0;
+ log2_swath_height_c = 0;
+ } else {
+ unsigned int swath_height_l;
+ unsigned int swath_height_c;
+
+ if (!surf_vert) {
+ swath_height_l = rq_param->misc.rq_l.blk256_height;
+ swath_height_c = rq_param->misc.rq_c.blk256_height;
+ } else {
+ swath_height_l = rq_param->misc.rq_l.blk256_width;
+ swath_height_c = rq_param->misc.rq_c.blk256_width;
+ }
+
+ if (swath_height_l > 0)
+ log2_swath_height_l = dml_log2(swath_height_l);
+
+ if (req128_l && log2_swath_height_l > 0)
+ log2_swath_height_l -= 1;
+
+ if (swath_height_c > 0)
+ log2_swath_height_c = dml_log2(swath_height_c);
+
+ if (req128_c && log2_swath_height_c > 0)
+ log2_swath_height_c -= 1;
+ }
+
+ rq_param->dlg.rq_l.swath_height = 1 << log2_swath_height_l;
+ rq_param->dlg.rq_c.swath_height = 1 << log2_swath_height_c;
+
+#ifdef __DML_RQ_DLG_CALC_DEBUG__
+ dml_print("DML_DLG: %s: req128_l = %0d\n", __func__, req128_l);
+ dml_print("DML_DLG: %s: req128_c = %0d\n", __func__, req128_c);
+ dml_print("DML_DLG: %s: full_swath_bytes_packed_l = %0d\n", __func__, full_swath_bytes_packed_l);
+ dml_print("DML_DLG: %s: full_swath_bytes_packed_c = %0d\n", __func__, full_swath_bytes_packed_c);
+ dml_print("DML_DLG: %s: swath_height luma = %0d\n", __func__, rq_param->dlg.rq_l.swath_height);
+ dml_print("DML_DLG: %s: swath_height chroma = %0d\n", __func__, rq_param->dlg.rq_c.swath_height);
+#endif
+}
+
+static void get_meta_and_pte_attr(
+ struct display_mode_lib *mode_lib,
+ display_data_rq_dlg_params_st *rq_dlg_param,
+ display_data_rq_misc_params_st *rq_misc_param,
+ display_data_rq_sizing_params_st *rq_sizing_param,
+ unsigned int vp_width,
+ unsigned int vp_height,
+ unsigned int data_pitch,
+ unsigned int meta_pitch,
+ unsigned int source_format,
+ unsigned int tiling,
+ unsigned int macro_tile_size,
+ unsigned int source_scan,
+ unsigned int hostvm_enable,
+ unsigned int is_chroma,
+ unsigned int surface_height)
+{
+ bool surf_linear = (tiling == dm_sw_linear);
+ bool surf_vert = (source_scan == dm_vert);
+
+ unsigned int bytes_per_element;
+ unsigned int bytes_per_element_y;
+ unsigned int bytes_per_element_c;
+
+ unsigned int blk256_width = 0;
+ unsigned int blk256_height = 0;
+
+ unsigned int blk256_width_y = 0;
+ unsigned int blk256_height_y = 0;
+ unsigned int blk256_width_c = 0;
+ unsigned int blk256_height_c = 0;
+ unsigned int log2_bytes_per_element;
+ unsigned int log2_blk256_width;
+ unsigned int log2_blk256_height;
+ unsigned int blk_bytes;
+ unsigned int log2_blk_bytes;
+ unsigned int log2_blk_height;
+ unsigned int log2_blk_width;
+ unsigned int log2_meta_req_bytes;
+ unsigned int log2_meta_req_height;
+ unsigned int log2_meta_req_width;
+ unsigned int meta_req_width;
+ unsigned int meta_req_height;
+ unsigned int log2_meta_row_height;
+ unsigned int meta_row_width_ub;
+ unsigned int log2_meta_chunk_bytes;
+ unsigned int log2_meta_chunk_height;
+
+ //full sized meta chunk width in unit of data elements
+ unsigned int log2_meta_chunk_width;
+ unsigned int log2_min_meta_chunk_bytes;
+ unsigned int min_meta_chunk_width;
+ unsigned int meta_chunk_width;
+ unsigned int meta_chunk_per_row_int;
+ unsigned int meta_row_remainder;
+ unsigned int meta_chunk_threshold;
+ unsigned int meta_blk_height;
+ unsigned int meta_surface_bytes;
+ unsigned int vmpg_bytes;
+ unsigned int meta_pte_req_per_frame_ub;
+ unsigned int meta_pte_bytes_per_frame_ub;
+ const unsigned int log2_vmpg_bytes = dml_log2(mode_lib->soc.gpuvm_min_page_size_bytes);
+ const bool dual_plane_en = is_dual_plane((enum source_format_class) (source_format));
+ const unsigned int dpte_buf_in_pte_reqs =
+ dual_plane_en ? (is_chroma ? mode_lib->ip.dpte_buffer_size_in_pte_reqs_chroma : mode_lib->ip.dpte_buffer_size_in_pte_reqs_luma) : (mode_lib->ip.dpte_buffer_size_in_pte_reqs_luma
+ + mode_lib->ip.dpte_buffer_size_in_pte_reqs_chroma);
+
+ unsigned int log2_vmpg_height = 0;
+ unsigned int log2_vmpg_width = 0;
+ unsigned int log2_dpte_req_height_ptes = 0;
+ unsigned int log2_dpte_req_height = 0;
+ unsigned int log2_dpte_req_width = 0;
+ unsigned int log2_dpte_row_height_linear = 0;
+ unsigned int log2_dpte_row_height = 0;
+ unsigned int log2_dpte_group_width = 0;
+ unsigned int dpte_row_width_ub = 0;
+ unsigned int dpte_req_height = 0;
+ unsigned int dpte_req_width = 0;
+ unsigned int dpte_group_width = 0;
+ unsigned int log2_dpte_group_bytes = 0;
+ unsigned int log2_dpte_group_length = 0;
+ double byte_per_pixel_det_y;
+ double byte_per_pixel_det_c;
+
+ CalculateBytePerPixelAnd256BBlockSizes(
+ (enum source_format_class) (source_format),
+ (enum dm_swizzle_mode) (tiling),
+ &bytes_per_element_y,
+ &bytes_per_element_c,
+ &byte_per_pixel_det_y,
+ &byte_per_pixel_det_c,
+ &blk256_height_y,
+ &blk256_height_c,
+ &blk256_width_y,
+ &blk256_width_c);
+
+ if (!is_chroma) {
+ blk256_width = blk256_width_y;
+ blk256_height = blk256_height_y;
+ bytes_per_element = bytes_per_element_y;
+ } else {
+ blk256_width = blk256_width_c;
+ blk256_height = blk256_height_c;
+ bytes_per_element = bytes_per_element_c;
+ }
+
+ log2_bytes_per_element = dml_log2(bytes_per_element);
+
+ dml_print("DML_DLG: %s: surf_linear = %d\n", __func__, surf_linear);
+ dml_print("DML_DLG: %s: surf_vert = %d\n", __func__, surf_vert);
+ dml_print("DML_DLG: %s: blk256_width = %d\n", __func__, blk256_width);
+ dml_print("DML_DLG: %s: blk256_height = %d\n", __func__, blk256_height);
+
+ log2_blk256_width = dml_log2((double) blk256_width);
+ log2_blk256_height = dml_log2((double) blk256_height);
+ blk_bytes = surf_linear ? 256 : get_blk_size_bytes((enum source_macro_tile_size) macro_tile_size);
+ log2_blk_bytes = dml_log2((double) blk_bytes);
+ log2_blk_height = 0;
+ log2_blk_width = 0;
+
+ // remember log rule
+ // "+" in log is multiply
+ // "-" in log is divide
+ // "/2" is like square root
+ // blk is vertical biased
+ if (tiling != dm_sw_linear)
+ log2_blk_height = log2_blk256_height + dml_ceil((double) (log2_blk_bytes - 8) / 2.0, 1);
+ else
+ log2_blk_height = 0; // blk height of 1
+
+ log2_blk_width = log2_blk_bytes - log2_bytes_per_element - log2_blk_height;
+
+ if (!surf_vert) {
+ unsigned int temp;
+
+ temp = dml_round_to_multiple(vp_width - 1, blk256_width, 1) + blk256_width;
+ if (data_pitch < blk256_width) {
+ dml_print("WARNING: DML_DLG: %s: swath_size calculation ignoring data_pitch=%u < blk256_width=%u\n", __func__, data_pitch, blk256_width);
+ } else {
+ if (temp > data_pitch) {
+ if (data_pitch >= vp_width)
+ temp = data_pitch;
+ else
+ dml_print("WARNING: DML_DLG: %s: swath_size calculation ignoring data_pitch=%u < vp_width=%u\n", __func__, data_pitch, vp_width);
+ }
+ }
+ rq_dlg_param->swath_width_ub = temp;
+ rq_dlg_param->req_per_swath_ub = temp >> log2_blk256_width;
+ } else {
+ unsigned int temp;
+
+ temp = dml_round_to_multiple(vp_height - 1, blk256_height, 1) + blk256_height;
+ if (surface_height < blk256_height) {
+ dml_print("WARNING: DML_DLG: %s swath_size calculation ignored surface_height=%u < blk256_height=%u\n", __func__, surface_height, blk256_height);
+ } else {
+ if (temp > surface_height) {
+ if (surface_height >= vp_height)
+ temp = surface_height;
+ else
+ dml_print("WARNING: DML_DLG: %s swath_size calculation ignored surface_height=%u < vp_height=%u\n", __func__, surface_height, vp_height);
+ }
+ }
+ rq_dlg_param->swath_width_ub = temp;
+ rq_dlg_param->req_per_swath_ub = temp >> log2_blk256_height;
+ }
+
+ if (!surf_vert)
+ rq_misc_param->full_swath_bytes = rq_dlg_param->swath_width_ub * blk256_height * bytes_per_element;
+ else
+ rq_misc_param->full_swath_bytes = rq_dlg_param->swath_width_ub * blk256_width * bytes_per_element;
+
+ rq_misc_param->blk256_height = blk256_height;
+ rq_misc_param->blk256_width = blk256_width;
+
+ // -------
+ // meta
+ // -------
+ log2_meta_req_bytes = 6; // meta request is 64b and is 8x8byte meta element
+
+ // each 64b meta request for dcn is 8x8 meta elements and
+ // a meta element covers one 256b block of the data surface.
+ log2_meta_req_height = log2_blk256_height + 3; // meta req is 8x8 byte, each byte represent 1 blk256
+ log2_meta_req_width = log2_meta_req_bytes + 8 - log2_bytes_per_element - log2_meta_req_height;
+ meta_req_width = 1 << log2_meta_req_width;
+ meta_req_height = 1 << log2_meta_req_height;
+ log2_meta_row_height = 0;
+ meta_row_width_ub = 0;
+
+ // the dimensions of a meta row are meta_row_width x meta_row_height in elements.
+ // calculate upper bound of the meta_row_width
+ if (!surf_vert) {
+ log2_meta_row_height = log2_meta_req_height;
+ meta_row_width_ub = dml_round_to_multiple(vp_width - 1, meta_req_width, 1) + meta_req_width;
+ rq_dlg_param->meta_req_per_row_ub = meta_row_width_ub / meta_req_width;
+ } else {
+ log2_meta_row_height = log2_meta_req_width;
+ meta_row_width_ub = dml_round_to_multiple(vp_height - 1, meta_req_height, 1) + meta_req_height;
+ rq_dlg_param->meta_req_per_row_ub = meta_row_width_ub / meta_req_height;
+ }
+ rq_dlg_param->meta_bytes_per_row_ub = rq_dlg_param->meta_req_per_row_ub * 64;
+
+ rq_dlg_param->meta_row_height = 1 << log2_meta_row_height;
+
+ log2_meta_chunk_bytes = dml_log2(rq_sizing_param->meta_chunk_bytes);
+ log2_meta_chunk_height = log2_meta_row_height;
+
+ //full sized meta chunk width in unit of data elements
+ log2_meta_chunk_width = log2_meta_chunk_bytes + 8 - log2_bytes_per_element - log2_meta_chunk_height;
+ log2_min_meta_chunk_bytes = dml_log2(rq_sizing_param->min_meta_chunk_bytes);
+ min_meta_chunk_width = 1 << (log2_min_meta_chunk_bytes + 8 - log2_bytes_per_element - log2_meta_chunk_height);
+ meta_chunk_width = 1 << log2_meta_chunk_width;
+ meta_chunk_per_row_int = (unsigned int) (meta_row_width_ub / meta_chunk_width);
+ meta_row_remainder = meta_row_width_ub % meta_chunk_width;
+ meta_chunk_threshold = 0;
+ meta_blk_height = blk256_height * 64;
+ meta_surface_bytes = meta_pitch * (dml_round_to_multiple(vp_height - 1, meta_blk_height, 1) + meta_blk_height) * bytes_per_element / 256;
+ vmpg_bytes = mode_lib->soc.gpuvm_min_page_size_bytes;
+ meta_pte_req_per_frame_ub = (dml_round_to_multiple(meta_surface_bytes - vmpg_bytes, 8 * vmpg_bytes, 1) + 8 * vmpg_bytes) / (8 * vmpg_bytes);
+ meta_pte_bytes_per_frame_ub = meta_pte_req_per_frame_ub * 64; //64B mpte request
+ rq_dlg_param->meta_pte_bytes_per_frame_ub = meta_pte_bytes_per_frame_ub;
+
+ dml_print("DML_DLG: %s: meta_blk_height = %d\n", __func__, meta_blk_height);
+ dml_print("DML_DLG: %s: meta_surface_bytes = %d\n", __func__, meta_surface_bytes);
+ dml_print("DML_DLG: %s: meta_pte_req_per_frame_ub = %d\n", __func__, meta_pte_req_per_frame_ub);
+ dml_print("DML_DLG: %s: meta_pte_bytes_per_frame_ub = %d\n", __func__, meta_pte_bytes_per_frame_ub);
+
+ if (!surf_vert)
+ meta_chunk_threshold = 2 * min_meta_chunk_width - meta_req_width;
+ else
+ meta_chunk_threshold = 2 * min_meta_chunk_width - meta_req_height;
+
+ if (meta_row_remainder <= meta_chunk_threshold)
+ rq_dlg_param->meta_chunks_per_row_ub = meta_chunk_per_row_int + 1;
+ else
+ rq_dlg_param->meta_chunks_per_row_ub = meta_chunk_per_row_int + 2;
+
+ // ------
+ // dpte
+ // ------
+ if (surf_linear)
+ log2_vmpg_height = 0; // one line high
+ else
+ log2_vmpg_height = (log2_vmpg_bytes - 8) / 2 + log2_blk256_height;
+
+ log2_vmpg_width = log2_vmpg_bytes - log2_bytes_per_element - log2_vmpg_height;
+
+ // only 3 possible shapes for dpte request in dimensions of ptes: 8x1, 4x2, 2x4.
+ if (surf_linear) { //one 64B PTE request returns 8 PTEs
+ log2_dpte_req_height_ptes = 0;
+ log2_dpte_req_width = log2_vmpg_width + 3;
+ log2_dpte_req_height = 0;
+ } else if (log2_blk_bytes == 12) { //4KB tile means 4kB page size
+ //one 64B req gives 8x1 PTEs for 4KB tile
+ log2_dpte_req_height_ptes = 0;
+ log2_dpte_req_width = log2_blk_width + 3;
+ log2_dpte_req_height = log2_blk_height + 0;
+ } else if ((log2_blk_bytes >= 16) && (log2_vmpg_bytes == 12)) { // tile block >= 64KB
+ //two 64B reqs of 2x4 PTEs give 16 PTEs to cover 64KB
+ log2_dpte_req_height_ptes = 4;
+ log2_dpte_req_width = log2_blk256_width + 4; // log2_64KB_width
+ log2_dpte_req_height = log2_blk256_height + 4; // log2_64KB_height
+ } else { //64KB page size and must 64KB tile block
+ //one 64B req gives 8x1 PTEs for 64KB tile
+ log2_dpte_req_height_ptes = 0;
+ log2_dpte_req_width = log2_blk_width + 3;
+ log2_dpte_req_height = log2_blk_height + 0;
+ }
+
+ // The dpte request dimensions in data elements is dpte_req_width x dpte_req_height
+ // log2_vmpg_width is how much 1 pte represent, now calculating how much a 64b pte req represent
+ // That depends on the pte shape (i.e. 8x1, 4x2, 2x4)
+ //log2_dpte_req_height = log2_vmpg_height + log2_dpte_req_height_ptes;
+ //log2_dpte_req_width = log2_vmpg_width + log2_dpte_req_width_ptes;
+ dpte_req_height = 1 << log2_dpte_req_height;
+ dpte_req_width = 1 << log2_dpte_req_width;
+
+ // calculate pitch dpte row buffer can hold
+ // round the result down to a power of two.
+ if (surf_linear) {
+ unsigned int dpte_row_height;
+
+ log2_dpte_row_height_linear = dml_floor(dml_log2(dpte_buf_in_pte_reqs * dpte_req_width / data_pitch), 1);
+
+ dml_print("DML_DLG: %s: is_chroma = %d\n", __func__, is_chroma);
+ dml_print("DML_DLG: %s: dpte_buf_in_pte_reqs = %d\n", __func__, dpte_buf_in_pte_reqs);
+ dml_print("DML_DLG: %s: log2_dpte_row_height_linear = %d\n", __func__, log2_dpte_row_height_linear);
+
+ ASSERT(log2_dpte_row_height_linear >= 3);
+
+ if (log2_dpte_row_height_linear > 7)
+ log2_dpte_row_height_linear = 7;
+
+ log2_dpte_row_height = log2_dpte_row_height_linear;
+ // For linear, the dpte row is pitch dependent and the pte requests wrap at the pitch boundary.
+ // the dpte_row_width_ub is the upper bound of data_pitch*dpte_row_height in elements with this unique buffering.
+ dpte_row_height = 1 << log2_dpte_row_height;
+ dpte_row_width_ub = dml_round_to_multiple(data_pitch * dpte_row_height - 1, dpte_req_width, 1) + dpte_req_width;
+ rq_dlg_param->dpte_req_per_row_ub = dpte_row_width_ub / dpte_req_width;
+ } else {
+ // the upper bound of the dpte_row_width without dependency on viewport position follows.
+ // for tiled mode, row height is the same as req height and row store up to vp size upper bound
+ if (!surf_vert) {
+ log2_dpte_row_height = log2_dpte_req_height;
+ dpte_row_width_ub = dml_round_to_multiple(vp_width - 1, dpte_req_width, 1) + dpte_req_width;
+ rq_dlg_param->dpte_req_per_row_ub = dpte_row_width_ub / dpte_req_width;
+ } else {
+ log2_dpte_row_height = (log2_blk_width < log2_dpte_req_width) ? log2_blk_width : log2_dpte_req_width;
+ dpte_row_width_ub = dml_round_to_multiple(vp_height - 1, dpte_req_height, 1) + dpte_req_height;
+ rq_dlg_param->dpte_req_per_row_ub = dpte_row_width_ub / dpte_req_height;
+ }
+ }
+ if (log2_blk_bytes >= 16 && log2_vmpg_bytes == 12) // tile block >= 64KB
+ rq_dlg_param->dpte_bytes_per_row_ub = rq_dlg_param->dpte_req_per_row_ub * 128; //2*64B dpte request
+ else
+ rq_dlg_param->dpte_bytes_per_row_ub = rq_dlg_param->dpte_req_per_row_ub * 64; //64B dpte request
+
+ rq_dlg_param->dpte_row_height = 1 << log2_dpte_row_height;
+
+ // the dpte_group_bytes is reduced for the specific case of vertical
+ // access of a tile surface that has dpte request of 8x1 ptes.
+ if (hostvm_enable)
+ rq_sizing_param->dpte_group_bytes = 512;
+ else {
+ if (!surf_linear & (log2_dpte_req_height_ptes == 0) & surf_vert) //reduced, in this case, will have page fault within a group
+ rq_sizing_param->dpte_group_bytes = 512;
+ else
+ rq_sizing_param->dpte_group_bytes = 2048;
+ }
+
+ //since pte request size is 64byte, the number of data pte requests per full sized group is as follows.
+ log2_dpte_group_bytes = dml_log2(rq_sizing_param->dpte_group_bytes);
+ log2_dpte_group_length = log2_dpte_group_bytes - 6; //length in 64b requests
+
+ // full sized data pte group width in elements
+ if (!surf_vert)
+ log2_dpte_group_width = log2_dpte_group_length + log2_dpte_req_width;
+ else
+ log2_dpte_group_width = log2_dpte_group_length + log2_dpte_req_height;
+
+ //But if the tile block >=64KB and the page size is 4KB, then each dPTE request is 2*64B
+ if ((log2_blk_bytes >= 16) && (log2_vmpg_bytes == 12)) // tile block >= 64KB
+ log2_dpte_group_width = log2_dpte_group_width - 1;
+
+ dpte_group_width = 1 << log2_dpte_group_width;
+
+ // since dpte groups are only aligned to dpte_req_width and not dpte_group_width,
+ // the upper bound for the dpte groups per row is as follows.
+ rq_dlg_param->dpte_groups_per_row_ub = dml_ceil((double) dpte_row_width_ub / dpte_group_width, 1);
+}
+
+static void get_surf_rq_param(
+ struct display_mode_lib *mode_lib,
+ display_data_rq_sizing_params_st *rq_sizing_param,
+ display_data_rq_dlg_params_st *rq_dlg_param,
+ display_data_rq_misc_params_st *rq_misc_param,
+ const display_pipe_params_st *pipe_param,
+ bool is_chroma,
+ bool is_alpha)
+{
+ bool mode_422 = 0;
+ unsigned int vp_width = 0;
+ unsigned int vp_height = 0;
+ unsigned int data_pitch = 0;
+ unsigned int meta_pitch = 0;
+ unsigned int surface_height = 0;
+ unsigned int ppe = mode_422 ? 2 : 1;
+
+ // FIXME check if ppe apply for both luma and chroma in 422 case
+ if (is_chroma | is_alpha) {
+ vp_width = pipe_param->src.viewport_width_c / ppe;
+ vp_height = pipe_param->src.viewport_height_c;
+ data_pitch = pipe_param->src.data_pitch_c;
+ meta_pitch = pipe_param->src.meta_pitch_c;
+ surface_height = pipe_param->src.surface_height_y / 2.0;
+ } else {
+ vp_width = pipe_param->src.viewport_width / ppe;
+ vp_height = pipe_param->src.viewport_height;
+ data_pitch = pipe_param->src.data_pitch;
+ meta_pitch = pipe_param->src.meta_pitch;
+ surface_height = pipe_param->src.surface_height_y;
+ }
+
+ if (pipe_param->dest.odm_combine) {
+ unsigned int access_dir;
+ unsigned int full_src_vp_width;
+ unsigned int hactive_odm;
+ unsigned int src_hactive_odm;
+
+ access_dir = (pipe_param->src.source_scan == dm_vert); // vp access direction: horizontal or vertical accessed
+ hactive_odm = pipe_param->dest.hactive / ((unsigned int) pipe_param->dest.odm_combine * 2);
+ if (is_chroma) {
+ full_src_vp_width = pipe_param->scale_ratio_depth.hscl_ratio_c * pipe_param->dest.full_recout_width;
+ src_hactive_odm = pipe_param->scale_ratio_depth.hscl_ratio_c * hactive_odm;
+ } else {
+ full_src_vp_width = pipe_param->scale_ratio_depth.hscl_ratio * pipe_param->dest.full_recout_width;
+ src_hactive_odm = pipe_param->scale_ratio_depth.hscl_ratio * hactive_odm;
+ }
+
+ if (access_dir == 0) {
+ vp_width = dml_min(full_src_vp_width, src_hactive_odm);
+ dml_print("DML_DLG: %s: vp_width = %d\n", __func__, vp_width);
+ } else {
+ vp_height = dml_min(full_src_vp_width, src_hactive_odm);
+ dml_print("DML_DLG: %s: vp_height = %d\n", __func__, vp_height);
+
+ }
+ dml_print("DML_DLG: %s: full_src_vp_width = %d\n", __func__, full_src_vp_width);
+ dml_print("DML_DLG: %s: hactive_odm = %d\n", __func__, hactive_odm);
+ dml_print("DML_DLG: %s: src_hactive_odm = %d\n", __func__, src_hactive_odm);
+ }
+
+ rq_sizing_param->chunk_bytes = 8192;
+
+ if (is_alpha)
+ rq_sizing_param->chunk_bytes = 4096;
+
+ if (rq_sizing_param->chunk_bytes == 64 * 1024)
+ rq_sizing_param->min_chunk_bytes = 0;
+ else
+ rq_sizing_param->min_chunk_bytes = 1024;
+
+ rq_sizing_param->meta_chunk_bytes = 2048;
+ rq_sizing_param->min_meta_chunk_bytes = 256;
+
+ if (pipe_param->src.hostvm)
+ rq_sizing_param->mpte_group_bytes = 512;
+ else
+ rq_sizing_param->mpte_group_bytes = 2048;
+
+ get_meta_and_pte_attr(
+ mode_lib,
+ rq_dlg_param,
+ rq_misc_param,
+ rq_sizing_param,
+ vp_width,
+ vp_height,
+ data_pitch,
+ meta_pitch,
+ pipe_param->src.source_format,
+ pipe_param->src.sw_mode,
+ pipe_param->src.macro_tile_size,
+ pipe_param->src.source_scan,
+ pipe_param->src.hostvm,
+ is_chroma,
+ surface_height);
+}
+
+static void dml_rq_dlg_get_rq_params(struct display_mode_lib *mode_lib, display_rq_params_st *rq_param, const display_pipe_params_st *pipe_param)
+{
+ // get param for luma surface
+ rq_param->yuv420 = pipe_param->src.source_format == dm_420_8 || pipe_param->src.source_format == dm_420_10 || pipe_param->src.source_format == dm_rgbe_alpha
+ || pipe_param->src.source_format == dm_420_12;
+
+ rq_param->yuv420_10bpc = pipe_param->src.source_format == dm_420_10;
+
+ rq_param->rgbe_alpha = (pipe_param->src.source_format == dm_rgbe_alpha) ? 1 : 0;
+
+ get_surf_rq_param(mode_lib, &(rq_param->sizing.rq_l), &(rq_param->dlg.rq_l), &(rq_param->misc.rq_l), pipe_param, 0, 0);
+
+ if (is_dual_plane((enum source_format_class) (pipe_param->src.source_format))) {
+ // get param for chroma surface
+ get_surf_rq_param(mode_lib, &(rq_param->sizing.rq_c), &(rq_param->dlg.rq_c), &(rq_param->misc.rq_c), pipe_param, 1, rq_param->rgbe_alpha);
+ }
+
+ // calculate how to split the det buffer space between luma and chroma
+ handle_det_buf_split(mode_lib, rq_param, &pipe_param->src);
+ print__rq_params_st(mode_lib, rq_param);
+}
+
+void dml314_rq_dlg_get_rq_reg(struct display_mode_lib *mode_lib, display_rq_regs_st *rq_regs, const display_pipe_params_st *pipe_param)
+{
+ display_rq_params_st rq_param = {0};
+
+ memset(rq_regs, 0, sizeof(*rq_regs));
+ dml_rq_dlg_get_rq_params(mode_lib, &rq_param, pipe_param);
+ extract_rq_regs(mode_lib, rq_regs, &rq_param);
+
+ print__rq_regs_st(mode_lib, rq_regs);
+}
+
+static void calculate_ttu_cursor(
+ struct display_mode_lib *mode_lib,
+ double *refcyc_per_req_delivery_pre_cur,
+ double *refcyc_per_req_delivery_cur,
+ double refclk_freq_in_mhz,
+ double ref_freq_to_pix_freq,
+ double hscale_pixel_rate_l,
+ double hscl_ratio,
+ double vratio_pre_l,
+ double vratio_l,
+ unsigned int cur_width,
+ enum cursor_bpp cur_bpp)
+{
+ unsigned int cur_src_width = cur_width;
+ unsigned int cur_req_size = 0;
+ unsigned int cur_req_width = 0;
+ double cur_width_ub = 0.0;
+ double cur_req_per_width = 0.0;
+ double hactive_cur = 0.0;
+
+ ASSERT(cur_src_width <= 256);
+
+ *refcyc_per_req_delivery_pre_cur = 0.0;
+ *refcyc_per_req_delivery_cur = 0.0;
+ if (cur_src_width > 0) {
+ unsigned int cur_bit_per_pixel = 0;
+
+ if (cur_bpp == dm_cur_2bit) {
+ cur_req_size = 64; // byte
+ cur_bit_per_pixel = 2;
+ } else { // 32bit
+ cur_bit_per_pixel = 32;
+ if (cur_src_width >= 1 && cur_src_width <= 16)
+ cur_req_size = 64;
+ else if (cur_src_width >= 17 && cur_src_width <= 31)
+ cur_req_size = 128;
+ else
+ cur_req_size = 256;
+ }
+
+ cur_req_width = (double) cur_req_size / ((double) cur_bit_per_pixel / 8.0);
+ cur_width_ub = dml_ceil((double) cur_src_width / (double) cur_req_width, 1) * (double) cur_req_width;
+ cur_req_per_width = cur_width_ub / (double) cur_req_width;
+ hactive_cur = (double) cur_src_width / hscl_ratio; // FIXME: oswin to think about what to do for cursor
+
+ if (vratio_pre_l <= 1.0)
+ *refcyc_per_req_delivery_pre_cur = hactive_cur * ref_freq_to_pix_freq / (double) cur_req_per_width;
+ else
+ *refcyc_per_req_delivery_pre_cur = (double) refclk_freq_in_mhz * (double) cur_src_width / hscale_pixel_rate_l / (double) cur_req_per_width;
+
+ ASSERT(*refcyc_per_req_delivery_pre_cur < dml_pow(2, 13));
+
+ if (vratio_l <= 1.0)
+ *refcyc_per_req_delivery_cur = hactive_cur * ref_freq_to_pix_freq / (double) cur_req_per_width;
+ else
+ *refcyc_per_req_delivery_cur = (double) refclk_freq_in_mhz * (double) cur_src_width / hscale_pixel_rate_l / (double) cur_req_per_width;
+
+ dml_print("DML_DLG: %s: cur_req_width = %d\n", __func__, cur_req_width);
+ dml_print("DML_DLG: %s: cur_width_ub = %3.2f\n", __func__, cur_width_ub);
+ dml_print("DML_DLG: %s: cur_req_per_width = %3.2f\n", __func__, cur_req_per_width);
+ dml_print("DML_DLG: %s: hactive_cur = %3.2f\n", __func__, hactive_cur);
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_pre_cur = %3.2f\n", __func__, *refcyc_per_req_delivery_pre_cur);
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_cur = %3.2f\n", __func__, *refcyc_per_req_delivery_cur);
+
+ ASSERT(*refcyc_per_req_delivery_cur < dml_pow(2, 13));
+ }
+}
+
+// Note: currently taken in as is.
+// Nice to decouple code from hw register implement and extract code that are repeated for luma and chroma.
+static void dml_rq_dlg_get_dlg_params(
+ struct display_mode_lib *mode_lib,
+ const display_e2e_pipe_params_st *e2e_pipe_param,
+ const unsigned int num_pipes,
+ const unsigned int pipe_idx,
+ display_dlg_regs_st *disp_dlg_regs,
+ display_ttu_regs_st *disp_ttu_regs,
+ const display_rq_dlg_params_st *rq_dlg_param,
+ const display_dlg_sys_params_st *dlg_sys_param,
+ const bool cstate_en,
+ const bool pstate_en,
+ const bool vm_en,
+ const bool ignore_viewport_pos,
+ const bool immediate_flip_support)
+{
+ const display_pipe_source_params_st *src = &e2e_pipe_param[pipe_idx].pipe.src;
+ const display_pipe_dest_params_st *dst = &e2e_pipe_param[pipe_idx].pipe.dest;
+ const display_output_params_st *dout = &e2e_pipe_param[pipe_idx].dout;
+ const display_clocks_and_cfg_st *clks = &e2e_pipe_param[pipe_idx].clks_cfg;
+ const scaler_ratio_depth_st *scl = &e2e_pipe_param[pipe_idx].pipe.scale_ratio_depth;
+ const scaler_taps_st *taps = &e2e_pipe_param[pipe_idx].pipe.scale_taps;
+ unsigned int pipe_index_in_combine[DC__NUM_PIPES__MAX];
+
+ // -------------------------
+ // Section 1.15.2.1: OTG dependent Params
+ // -------------------------
+ // Timing
+ unsigned int htotal = dst->htotal;
+ unsigned int hblank_end = dst->hblank_end;
+ unsigned int vblank_start = dst->vblank_start;
+ unsigned int vblank_end = dst->vblank_end;
+
+ double dppclk_freq_in_mhz = clks->dppclk_mhz;
+ double refclk_freq_in_mhz = clks->refclk_mhz;
+ double pclk_freq_in_mhz = dst->pixel_rate_mhz;
+ bool interlaced = dst->interlaced;
+ double ref_freq_to_pix_freq = refclk_freq_in_mhz / pclk_freq_in_mhz;
+ double min_ttu_vblank;
+ unsigned int dlg_vblank_start;
+ bool dual_plane;
+ bool mode_422;
+ unsigned int access_dir;
+ unsigned int vp_height_l;
+ unsigned int vp_width_l;
+ unsigned int vp_height_c;
+ unsigned int vp_width_c;
+
+ // Scaling
+ unsigned int htaps_l;
+ unsigned int htaps_c;
+ double hratio_l;
+ double hratio_c;
+ double vratio_l;
+ double vratio_c;
+ bool scl_enable;
+
+ unsigned int swath_width_ub_l;
+ unsigned int dpte_groups_per_row_ub_l;
+ unsigned int swath_width_ub_c;
+ unsigned int dpte_groups_per_row_ub_c;
+
+ unsigned int meta_chunks_per_row_ub_l;
+ unsigned int meta_chunks_per_row_ub_c;
+ unsigned int vupdate_offset;
+ unsigned int vupdate_width;
+ unsigned int vready_offset;
+
+ unsigned int dppclk_delay_subtotal;
+ unsigned int dispclk_delay_subtotal;
+
+ unsigned int vstartup_start;
+ unsigned int dst_x_after_scaler;
+ unsigned int dst_y_after_scaler;
+ double dst_y_prefetch;
+ double dst_y_per_vm_vblank;
+ double dst_y_per_row_vblank;
+ double dst_y_per_vm_flip;
+ double dst_y_per_row_flip;
+ double max_dst_y_per_vm_vblank;
+ double max_dst_y_per_row_vblank;
+ double vratio_pre_l;
+ double vratio_pre_c;
+ unsigned int req_per_swath_ub_l;
+ unsigned int req_per_swath_ub_c;
+ unsigned int meta_row_height_l;
+ unsigned int meta_row_height_c;
+ unsigned int swath_width_pixels_ub_l;
+ unsigned int swath_width_pixels_ub_c;
+ unsigned int scaler_rec_in_width_l;
+ unsigned int scaler_rec_in_width_c;
+ unsigned int dpte_row_height_l;
+ unsigned int dpte_row_height_c;
+ double hscale_pixel_rate_l;
+ double hscale_pixel_rate_c;
+ double min_hratio_fact_l;
+ double min_hratio_fact_c;
+ double refcyc_per_line_delivery_pre_l;
+ double refcyc_per_line_delivery_pre_c;
+ double refcyc_per_line_delivery_l;
+ double refcyc_per_line_delivery_c;
+
+ double refcyc_per_req_delivery_pre_l;
+ double refcyc_per_req_delivery_pre_c;
+ double refcyc_per_req_delivery_l;
+ double refcyc_per_req_delivery_c;
+
+ unsigned int full_recout_width;
+ double refcyc_per_req_delivery_pre_cur0;
+ double refcyc_per_req_delivery_cur0;
+ double refcyc_per_req_delivery_pre_cur1;
+ double refcyc_per_req_delivery_cur1;
+ unsigned int vba__min_dst_y_next_start = get_min_dst_y_next_start(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // FROM VBA
+ unsigned int vba__vready_after_vcount0 = get_vready_at_or_after_vsync(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+
+ float vba__refcyc_per_line_delivery_pre_l = get_refcyc_per_line_delivery_pre_l_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ float vba__refcyc_per_line_delivery_l = get_refcyc_per_line_delivery_l_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+
+ float vba__refcyc_per_req_delivery_pre_l = get_refcyc_per_req_delivery_pre_l_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ float vba__refcyc_per_req_delivery_l = get_refcyc_per_req_delivery_l_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ int blank_lines = 0;
+
+ memset(disp_dlg_regs, 0, sizeof(*disp_dlg_regs));
+ memset(disp_ttu_regs, 0, sizeof(*disp_ttu_regs));
+
+ dml_print("DML_DLG: %s: cstate_en = %d\n", __func__, cstate_en);
+ dml_print("DML_DLG: %s: pstate_en = %d\n", __func__, pstate_en);
+ dml_print("DML_DLG: %s: vm_en = %d\n", __func__, vm_en);
+ dml_print("DML_DLG: %s: ignore_viewport_pos = %d\n", __func__, ignore_viewport_pos);
+ dml_print("DML_DLG: %s: immediate_flip_support = %d\n", __func__, immediate_flip_support);
+
+ dml_print("DML_DLG: %s: dppclk_freq_in_mhz = %3.2f\n", __func__, dppclk_freq_in_mhz);
+ dml_print("DML_DLG: %s: refclk_freq_in_mhz = %3.2f\n", __func__, refclk_freq_in_mhz);
+ dml_print("DML_DLG: %s: pclk_freq_in_mhz = %3.2f\n", __func__, pclk_freq_in_mhz);
+ dml_print("DML_DLG: %s: interlaced = %d\n", __func__, interlaced); ASSERT(ref_freq_to_pix_freq < 4.0);
+
+ disp_dlg_regs->ref_freq_to_pix_freq = (unsigned int) (ref_freq_to_pix_freq * dml_pow(2, 19));
+ disp_dlg_regs->refcyc_per_htotal = (unsigned int) (ref_freq_to_pix_freq * (double) htotal * dml_pow(2, 8));
+ disp_dlg_regs->dlg_vblank_end = interlaced ? (vblank_end / 2) : vblank_end; // 15 bits
+
+ //set_prefetch_mode(mode_lib, cstate_en, pstate_en, ignore_viewport_pos, immediate_flip_support);
+ min_ttu_vblank = get_min_ttu_vblank_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+
+ dlg_vblank_start = interlaced ? (vblank_start / 2) : vblank_start;
+ disp_dlg_regs->optimized_min_dst_y_next_start = disp_dlg_regs->min_dst_y_next_start;
+ disp_dlg_regs->optimized_min_dst_y_next_start_us = 0;
+ disp_dlg_regs->min_dst_y_next_start = (unsigned int) (((double) dlg_vblank_start) * dml_pow(2, 2));
+ blank_lines = (dst->vblank_end + dst->vtotal_min - dst->vblank_start - dst->vstartup_start - 1);
+ if (blank_lines < 0)
+ blank_lines = 0;
+ if (blank_lines != 0) {
+ disp_dlg_regs->optimized_min_dst_y_next_start = vba__min_dst_y_next_start;
+ disp_dlg_regs->optimized_min_dst_y_next_start_us = (disp_dlg_regs->optimized_min_dst_y_next_start * dst->hactive) / (unsigned int) dst->pixel_rate_mhz;
+ disp_dlg_regs->min_dst_y_next_start = disp_dlg_regs->optimized_min_dst_y_next_start;
+ }
+ ASSERT(disp_dlg_regs->min_dst_y_next_start < (unsigned int)dml_pow(2, 18));
+
+ dml_print("DML_DLG: %s: min_ttu_vblank (us) = %3.2f\n", __func__, min_ttu_vblank);
+ dml_print("DML_DLG: %s: min_dst_y_next_start = 0x%0x\n", __func__, disp_dlg_regs->min_dst_y_next_start);
+ dml_print("DML_DLG: %s: dlg_vblank_start = 0x%0x\n", __func__, dlg_vblank_start);
+ dml_print("DML_DLG: %s: ref_freq_to_pix_freq = %3.2f\n", __func__, ref_freq_to_pix_freq);
+ dml_print("DML_DLG: %s: vba__min_dst_y_next_start = 0x%0x\n", __func__, vba__min_dst_y_next_start);
+
+ //old_impl_vs_vba_impl("min_dst_y_next_start", dlg_vblank_start, vba__min_dst_y_next_start);
+
+ // -------------------------
+ // Section 1.15.2.2: Prefetch, Active and TTU
+ // -------------------------
+ // Prefetch Calc
+ // Source
+ dual_plane = is_dual_plane((enum source_format_class) (src->source_format));
+ mode_422 = 0;
+ access_dir = (src->source_scan == dm_vert); // vp access direction: horizontal or vertical accessed
+ vp_height_l = src->viewport_height;
+ vp_width_l = src->viewport_width;
+ vp_height_c = src->viewport_height_c;
+ vp_width_c = src->viewport_width_c;
+
+ // Scaling
+ htaps_l = taps->htaps;
+ htaps_c = taps->htaps_c;
+ hratio_l = scl->hscl_ratio;
+ hratio_c = scl->hscl_ratio_c;
+ vratio_l = scl->vscl_ratio;
+ vratio_c = scl->vscl_ratio_c;
+ scl_enable = scl->scl_enable;
+
+ swath_width_ub_l = rq_dlg_param->rq_l.swath_width_ub;
+ dpte_groups_per_row_ub_l = rq_dlg_param->rq_l.dpte_groups_per_row_ub;
+ swath_width_ub_c = rq_dlg_param->rq_c.swath_width_ub;
+ dpte_groups_per_row_ub_c = rq_dlg_param->rq_c.dpte_groups_per_row_ub;
+
+ meta_chunks_per_row_ub_l = rq_dlg_param->rq_l.meta_chunks_per_row_ub;
+ meta_chunks_per_row_ub_c = rq_dlg_param->rq_c.meta_chunks_per_row_ub;
+ vupdate_offset = dst->vupdate_offset;
+ vupdate_width = dst->vupdate_width;
+ vready_offset = dst->vready_offset;
+
+ dppclk_delay_subtotal = mode_lib->ip.dppclk_delay_subtotal;
+ dispclk_delay_subtotal = mode_lib->ip.dispclk_delay_subtotal;
+
+ if (scl_enable)
+ dppclk_delay_subtotal += mode_lib->ip.dppclk_delay_scl;
+ else
+ dppclk_delay_subtotal += mode_lib->ip.dppclk_delay_scl_lb_only;
+
+ dppclk_delay_subtotal += mode_lib->ip.dppclk_delay_cnvc_formatter + src->num_cursors * mode_lib->ip.dppclk_delay_cnvc_cursor;
+
+ if (dout->dsc_enable) {
+ double dsc_delay = get_dsc_delay(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // FROM VBA
+
+ dispclk_delay_subtotal += dsc_delay;
+ }
+
+ vstartup_start = dst->vstartup_start;
+ if (interlaced) {
+ if (vstartup_start / 2.0 - (double) (vready_offset + vupdate_width + vupdate_offset) / htotal <= vblank_end / 2.0)
+ disp_dlg_regs->vready_after_vcount0 = 1;
+ else
+ disp_dlg_regs->vready_after_vcount0 = 0;
+ } else {
+ if (vstartup_start - (double) (vready_offset + vupdate_width + vupdate_offset) / htotal <= vblank_end)
+ disp_dlg_regs->vready_after_vcount0 = 1;
+ else
+ disp_dlg_regs->vready_after_vcount0 = 0;
+ }
+
+ dml_print("DML_DLG: %s: vready_after_vcount0 = %d\n", __func__, disp_dlg_regs->vready_after_vcount0);
+ dml_print("DML_DLG: %s: vba__vready_after_vcount0 = %d\n", __func__, vba__vready_after_vcount0);
+ //old_impl_vs_vba_impl("vready_after_vcount0", disp_dlg_regs->vready_after_vcount0, vba__vready_after_vcount0);
+
+ if (interlaced)
+ vstartup_start = vstartup_start / 2;
+
+ dst_x_after_scaler = get_dst_x_after_scaler(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+ dst_y_after_scaler = get_dst_y_after_scaler(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+
+ // do some adjustment on the dst_after scaler to account for odm combine mode
+ dml_print("DML_DLG: %s: input dst_x_after_scaler = %d\n", __func__, dst_x_after_scaler);
+ dml_print("DML_DLG: %s: input dst_y_after_scaler = %d\n", __func__, dst_y_after_scaler);
+
+ // need to figure out which side of odm combine we're in
+ if (dst->odm_combine) {
+ // figure out which pipes go together
+ bool visited[DC__NUM_PIPES__MAX];
+ unsigned int i, j, k;
+
+ for (k = 0; k < num_pipes; ++k) {
+ visited[k] = false;
+ pipe_index_in_combine[k] = 0;
+ }
+
+ for (i = 0; i < num_pipes; i++) {
+ if (e2e_pipe_param[i].pipe.src.is_hsplit && !visited[i]) {
+
+ unsigned int grp = e2e_pipe_param[i].pipe.src.hsplit_grp;
+ unsigned int grp_idx = 0;
+
+ for (j = i; j < num_pipes; j++) {
+ if (e2e_pipe_param[j].pipe.src.hsplit_grp == grp && e2e_pipe_param[j].pipe.src.is_hsplit && !visited[j]) {
+ pipe_index_in_combine[j] = grp_idx;
+ dml_print("DML_DLG: %s: pipe[%d] is in grp %d idx %d\n", __func__, j, grp, grp_idx);
+ grp_idx++;
+ visited[j] = true;
+ }
+ }
+ }
+ }
+
+ }
+
+ if (dst->odm_combine == dm_odm_combine_mode_disabled) {
+ disp_dlg_regs->refcyc_h_blank_end = (unsigned int) ((double) hblank_end * ref_freq_to_pix_freq);
+ } else {
+ unsigned int odm_combine_factor = (dst->odm_combine == dm_odm_combine_mode_2to1 ? 2 : 4); // TODO: We should really check that 4to1 is supported before setting it to 4
+ unsigned int odm_pipe_index = pipe_index_in_combine[pipe_idx];
+
+ disp_dlg_regs->refcyc_h_blank_end = (unsigned int) (((double) hblank_end + odm_pipe_index * (double) dst->hactive / odm_combine_factor) * ref_freq_to_pix_freq);
+ } ASSERT(disp_dlg_regs->refcyc_h_blank_end < (unsigned int)dml_pow(2, 13));
+
+ dml_print("DML_DLG: %s: htotal = %d\n", __func__, htotal);
+ dml_print("DML_DLG: %s: dst_x_after_scaler[%d] = %d\n", __func__, pipe_idx, dst_x_after_scaler);
+ dml_print("DML_DLG: %s: dst_y_after_scaler[%d] = %d\n", __func__, pipe_idx, dst_y_after_scaler);
+
+ dst_y_prefetch = get_dst_y_prefetch(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+ dst_y_per_vm_vblank = get_dst_y_per_vm_vblank(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+ dst_y_per_row_vblank = get_dst_y_per_row_vblank(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+ dst_y_per_vm_flip = get_dst_y_per_vm_flip(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+ dst_y_per_row_flip = get_dst_y_per_row_flip(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+
+ max_dst_y_per_vm_vblank = 32.0; //U5.2
+ max_dst_y_per_row_vblank = 16.0; //U4.2
+
+ // magic!
+ if (htotal <= 75) {
+ max_dst_y_per_vm_vblank = 100.0;
+ max_dst_y_per_row_vblank = 100.0;
+ }
+
+ dml_print("DML_DLG: %s: dst_y_prefetch (after rnd) = %3.2f\n", __func__, dst_y_prefetch);
+ dml_print("DML_DLG: %s: dst_y_per_vm_flip = %3.2f\n", __func__, dst_y_per_vm_flip);
+ dml_print("DML_DLG: %s: dst_y_per_row_flip = %3.2f\n", __func__, dst_y_per_row_flip);
+ dml_print("DML_DLG: %s: dst_y_per_vm_vblank = %3.2f\n", __func__, dst_y_per_vm_vblank);
+ dml_print("DML_DLG: %s: dst_y_per_row_vblank = %3.2f\n", __func__, dst_y_per_row_vblank);
+
+ ASSERT(dst_y_per_vm_vblank < max_dst_y_per_vm_vblank); ASSERT(dst_y_per_row_vblank < max_dst_y_per_row_vblank);
+
+ ASSERT(dst_y_prefetch > (dst_y_per_vm_vblank + dst_y_per_row_vblank));
+
+ vratio_pre_l = get_vratio_prefetch_l(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+ vratio_pre_c = get_vratio_prefetch_c(mode_lib, e2e_pipe_param, num_pipes, pipe_idx); // From VBA
+
+ dml_print("DML_DLG: %s: vratio_pre_l = %3.2f\n", __func__, vratio_pre_l);
+ dml_print("DML_DLG: %s: vratio_pre_c = %3.2f\n", __func__, vratio_pre_c);
+
+ // Active
+ req_per_swath_ub_l = rq_dlg_param->rq_l.req_per_swath_ub;
+ req_per_swath_ub_c = rq_dlg_param->rq_c.req_per_swath_ub;
+ meta_row_height_l = rq_dlg_param->rq_l.meta_row_height;
+ meta_row_height_c = rq_dlg_param->rq_c.meta_row_height;
+ swath_width_pixels_ub_l = 0;
+ swath_width_pixels_ub_c = 0;
+ scaler_rec_in_width_l = 0;
+ scaler_rec_in_width_c = 0;
+ dpte_row_height_l = rq_dlg_param->rq_l.dpte_row_height;
+ dpte_row_height_c = rq_dlg_param->rq_c.dpte_row_height;
+
+ if (mode_422) {
+ swath_width_pixels_ub_l = swath_width_ub_l * 2; // *2 for 2 pixel per element
+ swath_width_pixels_ub_c = swath_width_ub_c * 2;
+ } else {
+ swath_width_pixels_ub_l = swath_width_ub_l * 1;
+ swath_width_pixels_ub_c = swath_width_ub_c * 1;
+ }
+
+ hscale_pixel_rate_l = 0.;
+ hscale_pixel_rate_c = 0.;
+ min_hratio_fact_l = 1.0;
+ min_hratio_fact_c = 1.0;
+
+ if (hratio_l <= 1)
+ min_hratio_fact_l = 2.0;
+ else if (htaps_l <= 6) {
+ if ((hratio_l * 2.0) > 4.0)
+ min_hratio_fact_l = 4.0;
+ else
+ min_hratio_fact_l = hratio_l * 2.0;
+ } else {
+ if (hratio_l > 4.0)
+ min_hratio_fact_l = 4.0;
+ else
+ min_hratio_fact_l = hratio_l;
+ }
+
+ hscale_pixel_rate_l = min_hratio_fact_l * dppclk_freq_in_mhz;
+
+ dml_print("DML_DLG: %s: hratio_l = %3.2f\n", __func__, hratio_l);
+ dml_print("DML_DLG: %s: min_hratio_fact_l = %3.2f\n", __func__, min_hratio_fact_l);
+ dml_print("DML_DLG: %s: hscale_pixel_rate_l = %3.2f\n", __func__, hscale_pixel_rate_l);
+
+ if (hratio_c <= 1)
+ min_hratio_fact_c = 2.0;
+ else if (htaps_c <= 6) {
+ if ((hratio_c * 2.0) > 4.0)
+ min_hratio_fact_c = 4.0;
+ else
+ min_hratio_fact_c = hratio_c * 2.0;
+ } else {
+ if (hratio_c > 4.0)
+ min_hratio_fact_c = 4.0;
+ else
+ min_hratio_fact_c = hratio_c;
+ }
+
+ hscale_pixel_rate_c = min_hratio_fact_c * dppclk_freq_in_mhz;
+
+ refcyc_per_line_delivery_pre_l = 0.;
+ refcyc_per_line_delivery_pre_c = 0.;
+ refcyc_per_line_delivery_l = 0.;
+ refcyc_per_line_delivery_c = 0.;
+
+ refcyc_per_req_delivery_pre_l = 0.;
+ refcyc_per_req_delivery_pre_c = 0.;
+ refcyc_per_req_delivery_l = 0.;
+ refcyc_per_req_delivery_c = 0.;
+
+ full_recout_width = 0;
+ // In ODM
+ if (src->is_hsplit) {
+ // This "hack" is only allowed (and valid) for MPC combine. In ODM
+ // combine, you MUST specify the full_recout_width...according to Oswin
+ if (dst->full_recout_width == 0 && !dst->odm_combine) {
+ dml_print("DML_DLG: %s: Warning: full_recout_width not set in hsplit mode\n", __func__);
+ full_recout_width = dst->recout_width * 2; // assume half split for dcn1
+ } else
+ full_recout_width = dst->full_recout_width;
+ } else
+ full_recout_width = dst->recout_width;
+
+ // As of DCN2, mpc_combine and odm_combine are mutually exclusive
+ refcyc_per_line_delivery_pre_l = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_pre_l,
+ hscale_pixel_rate_l,
+ swath_width_pixels_ub_l,
+ 1); // per line
+
+ refcyc_per_line_delivery_l = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_l,
+ hscale_pixel_rate_l,
+ swath_width_pixels_ub_l,
+ 1); // per line
+
+ dml_print("DML_DLG: %s: full_recout_width = %d\n", __func__, full_recout_width);
+ dml_print("DML_DLG: %s: hscale_pixel_rate_l = %3.2f\n", __func__, hscale_pixel_rate_l);
+ dml_print("DML_DLG: %s: refcyc_per_line_delivery_pre_l = %3.2f\n", __func__, refcyc_per_line_delivery_pre_l);
+ dml_print("DML_DLG: %s: refcyc_per_line_delivery_l = %3.2f\n", __func__, refcyc_per_line_delivery_l);
+ dml_print("DML_DLG: %s: vba__refcyc_per_line_delivery_pre_l = %3.2f\n", __func__, vba__refcyc_per_line_delivery_pre_l);
+ dml_print("DML_DLG: %s: vba__refcyc_per_line_delivery_l = %3.2f\n", __func__, vba__refcyc_per_line_delivery_l);
+
+ //old_impl_vs_vba_impl("refcyc_per_line_delivery_pre_l", refcyc_per_line_delivery_pre_l, vba__refcyc_per_line_delivery_pre_l);
+ //old_impl_vs_vba_impl("refcyc_per_line_delivery_l", refcyc_per_line_delivery_l, vba__refcyc_per_line_delivery_l);
+
+ if (dual_plane) {
+ float vba__refcyc_per_line_delivery_pre_c = get_refcyc_per_line_delivery_pre_c_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ float vba__refcyc_per_line_delivery_c = get_refcyc_per_line_delivery_c_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+
+ refcyc_per_line_delivery_pre_c = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_pre_c,
+ hscale_pixel_rate_c,
+ swath_width_pixels_ub_c,
+ 1); // per line
+
+ refcyc_per_line_delivery_c = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_c,
+ hscale_pixel_rate_c,
+ swath_width_pixels_ub_c,
+ 1); // per line
+
+ dml_print("DML_DLG: %s: refcyc_per_line_delivery_pre_c = %3.2f\n", __func__, refcyc_per_line_delivery_pre_c);
+ dml_print("DML_DLG: %s: refcyc_per_line_delivery_c = %3.2f\n", __func__, refcyc_per_line_delivery_c);
+ dml_print("DML_DLG: %s: vba__refcyc_per_line_delivery_pre_c = %3.2f\n", __func__, vba__refcyc_per_line_delivery_pre_c);
+ dml_print("DML_DLG: %s: vba__refcyc_per_line_delivery_c = %3.2f\n", __func__, vba__refcyc_per_line_delivery_c);
+
+ //old_impl_vs_vba_impl("refcyc_per_line_delivery_pre_c", refcyc_per_line_delivery_pre_c, vba__refcyc_per_line_delivery_pre_c);
+ //old_impl_vs_vba_impl("refcyc_per_line_delivery_c", refcyc_per_line_delivery_c, vba__refcyc_per_line_delivery_c);
+ }
+
+ if (src->dynamic_metadata_enable && src->gpuvm)
+ disp_dlg_regs->refcyc_per_vm_dmdata = get_refcyc_per_vm_dmdata_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+
+ disp_dlg_regs->dmdata_dl_delta = get_dmdata_dl_delta_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+
+ // TTU - Luma / Chroma
+ if (access_dir) { // vertical access
+ scaler_rec_in_width_l = vp_height_l;
+ scaler_rec_in_width_c = vp_height_c;
+ } else {
+ scaler_rec_in_width_l = vp_width_l;
+ scaler_rec_in_width_c = vp_width_c;
+ }
+
+ refcyc_per_req_delivery_pre_l = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_pre_l,
+ hscale_pixel_rate_l,
+ scaler_rec_in_width_l,
+ req_per_swath_ub_l); // per req
+
+ refcyc_per_req_delivery_l = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_l,
+ hscale_pixel_rate_l,
+ scaler_rec_in_width_l,
+ req_per_swath_ub_l); // per req
+
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_pre_l = %3.2f\n", __func__, refcyc_per_req_delivery_pre_l);
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_l = %3.2f\n", __func__, refcyc_per_req_delivery_l);
+ dml_print("DML_DLG: %s: vba__refcyc_per_req_delivery_pre_l = %3.2f\n", __func__, vba__refcyc_per_req_delivery_pre_l);
+ dml_print("DML_DLG: %s: vba__refcyc_per_req_delivery_l = %3.2f\n", __func__, vba__refcyc_per_req_delivery_l);
+
+ //old_impl_vs_vba_impl("refcyc_per_req_delivery_pre_l", refcyc_per_req_delivery_pre_l, vba__refcyc_per_req_delivery_pre_l);
+ //old_impl_vs_vba_impl("refcyc_per_req_delivery_l", refcyc_per_req_delivery_l, vba__refcyc_per_req_delivery_l);
+
+ ASSERT(refcyc_per_req_delivery_pre_l < dml_pow(2, 13)); ASSERT(refcyc_per_req_delivery_l < dml_pow(2, 13));
+
+ if (dual_plane) {
+ float vba__refcyc_per_req_delivery_pre_c = get_refcyc_per_req_delivery_pre_c_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ float vba__refcyc_per_req_delivery_c = get_refcyc_per_req_delivery_c_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+
+ refcyc_per_req_delivery_pre_c = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_pre_c,
+ hscale_pixel_rate_c,
+ scaler_rec_in_width_c,
+ req_per_swath_ub_c); // per req
+ refcyc_per_req_delivery_c = get_refcyc_per_delivery(
+ mode_lib,
+ refclk_freq_in_mhz,
+ pclk_freq_in_mhz,
+ dst->odm_combine,
+ full_recout_width,
+ dst->hactive,
+ vratio_c,
+ hscale_pixel_rate_c,
+ scaler_rec_in_width_c,
+ req_per_swath_ub_c); // per req
+
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_pre_c = %3.2f\n", __func__, refcyc_per_req_delivery_pre_c);
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_c = %3.2f\n", __func__, refcyc_per_req_delivery_c);
+ dml_print("DML_DLG: %s: vba__refcyc_per_req_delivery_pre_c = %3.2f\n", __func__, vba__refcyc_per_req_delivery_pre_c);
+ dml_print("DML_DLG: %s: vba__refcyc_per_req_delivery_c = %3.2f\n", __func__, vba__refcyc_per_req_delivery_c);
+
+ //old_impl_vs_vba_impl("refcyc_per_req_delivery_pre_c", refcyc_per_req_delivery_pre_c, vba__refcyc_per_req_delivery_pre_c);
+ //old_impl_vs_vba_impl("refcyc_per_req_delivery_c", refcyc_per_req_delivery_c, vba__refcyc_per_req_delivery_c);
+
+ ASSERT(refcyc_per_req_delivery_pre_c < dml_pow(2, 13)); ASSERT(refcyc_per_req_delivery_c < dml_pow(2, 13));
+ }
+
+ // TTU - Cursor
+ refcyc_per_req_delivery_pre_cur0 = 0.0;
+ refcyc_per_req_delivery_cur0 = 0.0;
+
+ ASSERT(src->num_cursors <= 1);
+
+ if (src->num_cursors > 0) {
+ float vba__refcyc_per_req_delivery_pre_cur0;
+ float vba__refcyc_per_req_delivery_cur0;
+
+ calculate_ttu_cursor(
+ mode_lib,
+ &refcyc_per_req_delivery_pre_cur0,
+ &refcyc_per_req_delivery_cur0,
+ refclk_freq_in_mhz,
+ ref_freq_to_pix_freq,
+ hscale_pixel_rate_l,
+ scl->hscl_ratio,
+ vratio_pre_l,
+ vratio_l,
+ src->cur0_src_width,
+ (enum cursor_bpp) (src->cur0_bpp));
+
+ vba__refcyc_per_req_delivery_pre_cur0 = get_refcyc_per_cursor_req_delivery_pre_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ vba__refcyc_per_req_delivery_cur0 = get_refcyc_per_cursor_req_delivery_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_pre_cur0 = %3.2f\n", __func__, refcyc_per_req_delivery_pre_cur0);
+ dml_print("DML_DLG: %s: refcyc_per_req_delivery_cur0 = %3.2f\n", __func__, refcyc_per_req_delivery_cur0);
+ dml_print("DML_DLG: %s: vba__refcyc_per_req_delivery_pre_cur0 = %3.2f\n", __func__, vba__refcyc_per_req_delivery_pre_cur0);
+ dml_print("DML_DLG: %s: vba__refcyc_per_req_delivery_cur0 = %3.2f\n", __func__, vba__refcyc_per_req_delivery_cur0);
+
+ //old_impl_vs_vba_impl("refcyc_per_req_delivery_pre_cur0", refcyc_per_req_delivery_pre_cur0, vba__refcyc_per_req_delivery_pre_cur0);
+ //old_impl_vs_vba_impl("refcyc_per_req_delivery_cur0", refcyc_per_req_delivery_cur0, vba__refcyc_per_req_delivery_cur0);
+ }
+
+ refcyc_per_req_delivery_pre_cur1 = 0.0;
+ refcyc_per_req_delivery_cur1 = 0.0;
+
+ // TTU - Misc
+ // all hard-coded
+
+ // Assignment to register structures
+ disp_dlg_regs->dst_y_after_scaler = dst_y_after_scaler; // in terms of line
+ ASSERT(disp_dlg_regs->dst_y_after_scaler < 8);
+ disp_dlg_regs->refcyc_x_after_scaler = dst_x_after_scaler * ref_freq_to_pix_freq; // in terms of refclk
+ ASSERT(disp_dlg_regs->refcyc_x_after_scaler < (unsigned int)dml_pow(2, 13));
+ disp_dlg_regs->dst_y_prefetch = (unsigned int) (dst_y_prefetch * dml_pow(2, 2));
+ disp_dlg_regs->dst_y_per_vm_vblank = (unsigned int) (dst_y_per_vm_vblank * dml_pow(2, 2));
+ disp_dlg_regs->dst_y_per_row_vblank = (unsigned int) (dst_y_per_row_vblank * dml_pow(2, 2));
+ disp_dlg_regs->dst_y_per_vm_flip = (unsigned int) (dst_y_per_vm_flip * dml_pow(2, 2));
+ disp_dlg_regs->dst_y_per_row_flip = (unsigned int) (dst_y_per_row_flip * dml_pow(2, 2));
+
+ disp_dlg_regs->vratio_prefetch = (unsigned int) (vratio_pre_l * dml_pow(2, 19));
+ disp_dlg_regs->vratio_prefetch_c = (unsigned int) (vratio_pre_c * dml_pow(2, 19));
+
+ dml_print("DML_DLG: %s: disp_dlg_regs->dst_y_per_vm_vblank = 0x%x\n", __func__, disp_dlg_regs->dst_y_per_vm_vblank);
+ dml_print("DML_DLG: %s: disp_dlg_regs->dst_y_per_row_vblank = 0x%x\n", __func__, disp_dlg_regs->dst_y_per_row_vblank);
+ dml_print("DML_DLG: %s: disp_dlg_regs->dst_y_per_vm_flip = 0x%x\n", __func__, disp_dlg_regs->dst_y_per_vm_flip);
+ dml_print("DML_DLG: %s: disp_dlg_regs->dst_y_per_row_flip = 0x%x\n", __func__, disp_dlg_regs->dst_y_per_row_flip);
+
+ // hack for FPGA
+ if (mode_lib->project == DML_PROJECT_DCN31_FPGA) {
+ if (disp_dlg_regs->vratio_prefetch >= (unsigned int) dml_pow(2, 22)) {
+ disp_dlg_regs->vratio_prefetch = (unsigned int) dml_pow(2, 22) - 1;
+ dml_print("vratio_prefetch exceed the max value, the register field is [21:0]\n");
+ }
+ }
+
+ disp_dlg_regs->refcyc_per_pte_group_vblank_l = (unsigned int) (dst_y_per_row_vblank * (double) htotal * ref_freq_to_pix_freq / (double) dpte_groups_per_row_ub_l);
+ ASSERT(disp_dlg_regs->refcyc_per_pte_group_vblank_l < (unsigned int)dml_pow(2, 13));
+
+ if (dual_plane) {
+ disp_dlg_regs->refcyc_per_pte_group_vblank_c = (unsigned int) (dst_y_per_row_vblank * (double) htotal * ref_freq_to_pix_freq / (double) dpte_groups_per_row_ub_c);
+ ASSERT(disp_dlg_regs->refcyc_per_pte_group_vblank_c < (unsigned int)dml_pow(2, 13));
+ }
+
+ disp_dlg_regs->refcyc_per_meta_chunk_vblank_l = (unsigned int) (dst_y_per_row_vblank * (double) htotal * ref_freq_to_pix_freq / (double) meta_chunks_per_row_ub_l);
+ ASSERT(disp_dlg_regs->refcyc_per_meta_chunk_vblank_l < (unsigned int)dml_pow(2, 13));
+
+ disp_dlg_regs->refcyc_per_meta_chunk_vblank_c = disp_dlg_regs->refcyc_per_meta_chunk_vblank_l; // dcc for 4:2:0 is not supported in dcn1.0. assigned to be the same as _l for now
+
+ disp_dlg_regs->refcyc_per_pte_group_flip_l = (unsigned int) (dst_y_per_row_flip * htotal * ref_freq_to_pix_freq) / dpte_groups_per_row_ub_l;
+ disp_dlg_regs->refcyc_per_meta_chunk_flip_l = (unsigned int) (dst_y_per_row_flip * htotal * ref_freq_to_pix_freq) / meta_chunks_per_row_ub_l;
+
+ if (dual_plane) {
+ disp_dlg_regs->refcyc_per_pte_group_flip_c = (unsigned int) (dst_y_per_row_flip * htotal * ref_freq_to_pix_freq) / dpte_groups_per_row_ub_c;
+ disp_dlg_regs->refcyc_per_meta_chunk_flip_c = (unsigned int) (dst_y_per_row_flip * htotal * ref_freq_to_pix_freq) / meta_chunks_per_row_ub_c;
+ }
+
+ disp_dlg_regs->refcyc_per_vm_group_vblank = get_refcyc_per_vm_group_vblank_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ disp_dlg_regs->refcyc_per_vm_group_flip = get_refcyc_per_vm_group_flip_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz; // From VBA
+ disp_dlg_regs->refcyc_per_vm_req_vblank = get_refcyc_per_vm_req_vblank_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz * dml_pow(2, 10); // From VBA
+ disp_dlg_regs->refcyc_per_vm_req_flip = get_refcyc_per_vm_req_flip_in_us(mode_lib, e2e_pipe_param, num_pipes, pipe_idx) * refclk_freq_in_mhz * dml_pow(2, 10); // From VBA
+
+ // Clamp to max for now
+ if (disp_dlg_regs->refcyc_per_vm_group_vblank >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_vm_group_vblank = dml_pow(2, 23) - 1;
+
+ if (disp_dlg_regs->refcyc_per_vm_group_flip >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_vm_group_flip = dml_pow(2, 23) - 1;
+
+ if (disp_dlg_regs->refcyc_per_vm_req_vblank >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_vm_req_vblank = dml_pow(2, 23) - 1;
+
+ if (disp_dlg_regs->refcyc_per_vm_req_flip >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_vm_req_flip = dml_pow(2, 23) - 1;
+
+ disp_dlg_regs->dst_y_per_pte_row_nom_l = (unsigned int) ((double) dpte_row_height_l / (double) vratio_l * dml_pow(2, 2));
+ ASSERT(disp_dlg_regs->dst_y_per_pte_row_nom_l < (unsigned int)dml_pow(2, 17));
+ if (dual_plane) {
+ disp_dlg_regs->dst_y_per_pte_row_nom_c = (unsigned int) ((double) dpte_row_height_c / (double) vratio_c * dml_pow(2, 2));
+ if (disp_dlg_regs->dst_y_per_pte_row_nom_c >= (unsigned int) dml_pow(2, 17)) {
+ dml_print(
+ "DML_DLG: %s: Warning dst_y_per_pte_row_nom_c %u larger than supported by register format U15.2 %u\n",
+ __func__,
+ disp_dlg_regs->dst_y_per_pte_row_nom_c,
+ (unsigned int) dml_pow(2, 17) - 1);
+ }
+ }
+
+ disp_dlg_regs->dst_y_per_meta_row_nom_l = (unsigned int) ((double) meta_row_height_l / (double) vratio_l * dml_pow(2, 2));
+ ASSERT(disp_dlg_regs->dst_y_per_meta_row_nom_l < (unsigned int)dml_pow(2, 17));
+
+ disp_dlg_regs->dst_y_per_meta_row_nom_c = (unsigned int) ((double) meta_row_height_c / (double) vratio_c * dml_pow(2, 2));
+ ASSERT(disp_dlg_regs->dst_y_per_meta_row_nom_c < (unsigned int)dml_pow(2, 17));
+
+ disp_dlg_regs->refcyc_per_pte_group_nom_l = (unsigned int) ((double) dpte_row_height_l / (double) vratio_l * (double) htotal * ref_freq_to_pix_freq
+ / (double) dpte_groups_per_row_ub_l);
+ if (disp_dlg_regs->refcyc_per_pte_group_nom_l >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_pte_group_nom_l = dml_pow(2, 23) - 1;
+ disp_dlg_regs->refcyc_per_meta_chunk_nom_l = (unsigned int) ((double) meta_row_height_l / (double) vratio_l * (double) htotal * ref_freq_to_pix_freq
+ / (double) meta_chunks_per_row_ub_l);
+ if (disp_dlg_regs->refcyc_per_meta_chunk_nom_l >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_meta_chunk_nom_l = dml_pow(2, 23) - 1;
+
+ if (dual_plane) {
+ disp_dlg_regs->refcyc_per_pte_group_nom_c = (unsigned int) ((double) dpte_row_height_c / (double) vratio_c * (double) htotal * ref_freq_to_pix_freq
+ / (double) dpte_groups_per_row_ub_c);
+ if (disp_dlg_regs->refcyc_per_pte_group_nom_c >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_pte_group_nom_c = dml_pow(2, 23) - 1;
+
+ // TODO: Is this the right calculation? Does htotal need to be halved?
+ disp_dlg_regs->refcyc_per_meta_chunk_nom_c = (unsigned int) ((double) meta_row_height_c / (double) vratio_c * (double) htotal * ref_freq_to_pix_freq
+ / (double) meta_chunks_per_row_ub_c);
+ if (disp_dlg_regs->refcyc_per_meta_chunk_nom_c >= (unsigned int) dml_pow(2, 23))
+ disp_dlg_regs->refcyc_per_meta_chunk_nom_c = dml_pow(2, 23) - 1;
+ }
+
+ disp_dlg_regs->refcyc_per_line_delivery_pre_l = (unsigned int) dml_floor(refcyc_per_line_delivery_pre_l, 1);
+ disp_dlg_regs->refcyc_per_line_delivery_l = (unsigned int) dml_floor(refcyc_per_line_delivery_l, 1);
+ ASSERT(disp_dlg_regs->refcyc_per_line_delivery_pre_l < (unsigned int)dml_pow(2, 13)); ASSERT(disp_dlg_regs->refcyc_per_line_delivery_l < (unsigned int)dml_pow(2, 13));
+
+ disp_dlg_regs->refcyc_per_line_delivery_pre_c = (unsigned int) dml_floor(refcyc_per_line_delivery_pre_c, 1);
+ disp_dlg_regs->refcyc_per_line_delivery_c = (unsigned int) dml_floor(refcyc_per_line_delivery_c, 1);
+ ASSERT(disp_dlg_regs->refcyc_per_line_delivery_pre_c < (unsigned int)dml_pow(2, 13)); ASSERT(disp_dlg_regs->refcyc_per_line_delivery_c < (unsigned int)dml_pow(2, 13));
+
+ disp_dlg_regs->chunk_hdl_adjust_cur0 = 3;
+ disp_dlg_regs->dst_y_offset_cur0 = 0;
+ disp_dlg_regs->chunk_hdl_adjust_cur1 = 3;
+ disp_dlg_regs->dst_y_offset_cur1 = 0;
+
+ disp_dlg_regs->dst_y_delta_drq_limit = 0x7fff; // off
+
+ disp_ttu_regs->refcyc_per_req_delivery_pre_l = (unsigned int) (refcyc_per_req_delivery_pre_l * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_l = (unsigned int) (refcyc_per_req_delivery_l * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_pre_c = (unsigned int) (refcyc_per_req_delivery_pre_c * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_c = (unsigned int) (refcyc_per_req_delivery_c * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_pre_cur0 = (unsigned int) (refcyc_per_req_delivery_pre_cur0 * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_cur0 = (unsigned int) (refcyc_per_req_delivery_cur0 * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_pre_cur1 = (unsigned int) (refcyc_per_req_delivery_pre_cur1 * dml_pow(2, 10));
+ disp_ttu_regs->refcyc_per_req_delivery_cur1 = (unsigned int) (refcyc_per_req_delivery_cur1 * dml_pow(2, 10));
+
+ disp_ttu_regs->qos_level_low_wm = 0;
+ ASSERT(disp_ttu_regs->qos_level_low_wm < dml_pow(2, 14));
+
+ disp_ttu_regs->qos_level_high_wm = (unsigned int) (4.0 * (double) htotal * ref_freq_to_pix_freq);
+ ASSERT(disp_ttu_regs->qos_level_high_wm < dml_pow(2, 14));
+
+ disp_ttu_regs->qos_level_flip = 14;
+ disp_ttu_regs->qos_level_fixed_l = 8;
+ disp_ttu_regs->qos_level_fixed_c = 8;
+ disp_ttu_regs->qos_level_fixed_cur0 = 8;
+ disp_ttu_regs->qos_ramp_disable_l = 0;
+ disp_ttu_regs->qos_ramp_disable_c = 0;
+ disp_ttu_regs->qos_ramp_disable_cur0 = 0;
+
+ disp_ttu_regs->min_ttu_vblank = min_ttu_vblank * refclk_freq_in_mhz;
+ ASSERT(disp_ttu_regs->min_ttu_vblank < dml_pow(2, 24));
+
+ print__ttu_regs_st(mode_lib, disp_ttu_regs);
+ print__dlg_regs_st(mode_lib, disp_dlg_regs);
+}
+
+void dml314_rq_dlg_get_dlg_reg(
+ struct display_mode_lib *mode_lib,
+ display_dlg_regs_st *dlg_regs,
+ display_ttu_regs_st *ttu_regs,
+ const display_e2e_pipe_params_st *e2e_pipe_param,
+ const unsigned int num_pipes,
+ const unsigned int pipe_idx,
+ const bool cstate_en,
+ const bool pstate_en,
+ const bool vm_en,
+ const bool ignore_viewport_pos,
+ const bool immediate_flip_support)
+{
+ display_rq_params_st rq_param = {0};
+ display_dlg_sys_params_st dlg_sys_param = {0};
+
+ // Get watermark and Tex.
+ dlg_sys_param.t_urg_wm_us = get_wm_urgent(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.deepsleep_dcfclk_mhz = get_clk_dcf_deepsleep(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.t_extra_us = get_urgent_extra_latency(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.mem_trip_us = get_wm_memory_trip(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.t_mclk_wm_us = get_wm_dram_clock_change(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.t_sr_wm_us = get_wm_stutter_enter_exit(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.total_flip_bw = get_total_immediate_flip_bw(mode_lib, e2e_pipe_param, num_pipes);
+ dlg_sys_param.total_flip_bytes = get_total_immediate_flip_bytes(mode_lib, e2e_pipe_param, num_pipes);
+
+ print__dlg_sys_params_st(mode_lib, &dlg_sys_param);
+
+ // system parameter calculation done
+
+ dml_print("DML_DLG: Calculation for pipe[%d] start\n\n", pipe_idx);
+ dml_rq_dlg_get_rq_params(mode_lib, &rq_param, &e2e_pipe_param[pipe_idx].pipe);
+ dml_rq_dlg_get_dlg_params(
+ mode_lib,
+ e2e_pipe_param,
+ num_pipes,
+ pipe_idx,
+ dlg_regs,
+ ttu_regs,
+ &rq_param.dlg,
+ &dlg_sys_param,
+ cstate_en,
+ pstate_en,
+ vm_en,
+ ignore_viewport_pos,
+ immediate_flip_support);
+ dml_print("DML_DLG: Calculation for pipe[%d] end\n", pipe_idx);
+}
diff --git a/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.h b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.h
new file mode 100644
index 000000000000..49cb85d1056c
--- /dev/null
+++ b/drivers/gpu/drm/amd/display/dc/dml/dcn314/display_rq_dlg_calc_314.h
@@ -0,0 +1,70 @@
+/* SPDX-License-Identifier: MIT */
+/*
+ * Copyright 2022 Advanced Micro Devices, Inc.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
+ * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+ * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ *
+ * Authors: AMD
+ *
+ */
+
+#ifndef __DML314_DISPLAY_RQ_DLG_CALC_H__
+#define __DML314_DISPLAY_RQ_DLG_CALC_H__
+
+#include "../display_rq_dlg_helpers.h"
+
+struct display_mode_lib;
+
+// Function: dml_rq_dlg_get_rq_reg
+// Main entry point for test to get the register values out of this DML class.
+// This function calls <get_rq_param> and <extract_rq_regs> fucntions to calculate
+// and then populate the rq_regs struct
+// Input:
+// pipe_param - pipe source configuration (e.g. vp, pitch, scaling, dest, etc.)
+// Output:
+// rq_regs - struct that holds all the RQ registers field value.
+// See also: <display_rq_regs_st>
+void dml314_rq_dlg_get_rq_reg(struct display_mode_lib *mode_lib,
+ display_rq_regs_st *rq_regs,
+ const display_pipe_params_st *pipe_param);
+
+// Function: dml_rq_dlg_get_dlg_reg
+// Calculate and return DLG and TTU register struct given the system setting
+// Output:
+// dlg_regs - output DLG register struct
+// ttu_regs - output DLG TTU register struct
+// Input:
+// e2e_pipe_param - "compacted" array of e2e pipe param struct
+// num_pipes - num of active "pipe" or "route"
+// pipe_idx - index that identifies the e2e_pipe_param that corresponding to this dlg
+// cstate - 0: when calculate min_ttu_vblank it is assumed cstate is not required. 1: Normal mode, cstate is considered.
+// Added for legacy or unrealistic timing tests.
+void dml314_rq_dlg_get_dlg_reg(struct display_mode_lib *mode_lib,
+ display_dlg_regs_st *dlg_regs,
+ display_ttu_regs_st *ttu_regs,
+ const display_e2e_pipe_params_st *e2e_pipe_param,
+ const unsigned int num_pipes,
+ const unsigned int pipe_idx,
+ const bool cstate_en,
+ const bool pstate_en,
+ const bool vm_en,
+ const bool ignore_viewport_pos,
+ const bool immediate_flip_support);
+
+#endif
--
2.35.3
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