/* Copyright (c) 2015 - 2021 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 AUTHORS OR COPYRIGHT HOLDERS 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. */ #include "top.hpp" #include "os/os.hpp" #include "device/device.hpp" #include "device/pal/paldefs.hpp" #include "device/pal/palsettings.hpp" #include #if defined(_WIN32) #include "Windows.h" #include "VersionHelpers.h" #endif namespace pal { /*! \brief information for adjusting maximum workload time * * This structure contains the time and OS minor version for max workload time * adjustment for Windows 7 or 8. */ struct ModifyMaxWorkload { uint32_t time; //!< max work load time (10x ms) uint32_t minorVersion; //!< OS minor version #if defined(_WIN32) BYTE comparisonOps; //!< Comparison option #endif }; Settings::Settings() { // Initialize the GPU device default settings oclVersion_ = OpenCL12; debugFlags_ = 0; remoteAlloc_ = REMOTE_ALLOC; stagedXferRead_ = true; stagedXferWrite_ = true; stagedXferSize_ = GPU_STAGING_BUFFER_SIZE * Mi; // We will enable staged read/write if we use local memory disablePersistent_ = false; imageSupport_ = false; hwLDSSize_ = 0; // Set this to true when we drop the flag doublePrecision_ = ::CL_KHR_FP64; // Fill workgroup info size maxWorkGroupSize_ = 1024; preferredWorkGroupSize_ = 256; hostMemDirectAccess_ = HostMemDisable; libSelector_ = amd::LibraryUndefined; // Enable workload split by default (for 24 bit arithmetic or timeout) workloadSplitSize_ = 1 << GPU_WORKLOAD_SPLIT; pinnedXferSize_ = GPU_PINNED_MIN_XFER_SIZE * Mi; pinnedMinXferSize_ = flagIsDefault(GPU_PINNED_MIN_XFER_SIZE) ? 128 * Mi : GPU_PINNED_MIN_XFER_SIZE * Mi; // Disable FP_FAST_FMA defines by default reportFMAF_ = false; reportFMA_ = false; // GPU device by default apuSystem_ = false; // Disable 64 bit pointers support by default use64BitPtr_ = false; // Max alloc size is 16GB maxAllocSize_ = 16 * static_cast(Gi); // Disable memory dependency tracking by default numMemDependencies_ = 0; // By default cache isn't present cacheLineSize_ = 0; cacheSize_ = 0; // Initialize transfer buffer size to 1MB by default xferBufSize_ = 1024 * Ki; // Use image DMA if requested imageDMA_ = GPU_IMAGE_DMA; // Disable ASIC specific features by default viPlus_ = false; aiPlus_ = false; gfx10Plus_ = false; // Number of compute rings. numComputeRings_ = 0; minWorkloadTime_ = 1; // 0.1 ms maxWorkloadTime_ = 500000; // 500 ms // Controls tiled images in persistent //!@note IOL for Linux doesn't setup tiling aperture in CMM/QS linearPersistentImage_ = false; // Device enqueuing settings numDeviceEvents_ = 1024; numWaitEvents_ = 8; numScratchWavesPerCu_ = 32; // Don't support platform atomics by default. svmAtomics_ = false; // Use host queue for device enqueuing by default useDeviceQueue_ = GPU_USE_DEVICE_QUEUE; // Don't support Denormals for single precision by default singleFpDenorm_ = false; // Disable SDMA workaround by default sdamPageFaultWar_ = false; // SQTT buffer size in bytes rgpSqttDispCount_ = PAL_RGP_DISP_COUNT; rgpSqttWaitIdle_ = true; rgpSqttForceDisable_ = false; // Sub allocation parameters subAllocationMinSize_ = 4 * Ki; subAllocationChunkSize_ = 64 * Mi; subAllocationMaxSize_ = std::min(static_cast(GPU_MAX_SUBALLOC_SIZE) * Ki, subAllocationChunkSize_); maxCmdBuffers_ = 12; useLightning_ = amd::IS_HIP ? true : ((!flagIsDefault(GPU_ENABLE_LC)) ? GPU_ENABLE_LC : false); enableWgpMode_ = false; enableWave32Mode_ = false; hsailExplicitXnack_ = false; lcWavefrontSize64_ = true; enableHwP2P_ = false; imageBufferWar_ = false; disableSdma_ = PAL_DISABLE_SDMA; mallPolicy_ = 0; alwaysResident_ = amd::IS_HIP ? true : false; prepinnedMinSize_ = 0; cpDmaCopySizeMax_ = GPU_CP_DMA_COPY_SIZE * Ki; } bool Settings::create(const Pal::DeviceProperties& palProp, const Pal::GpuMemoryHeapProperties* heaps, const Pal::WorkStationCaps& wscaps, bool enableXNACK, bool reportAsOCL12Device) { uint32_t osVer = 0x0; // Disable thread trace by default for all devices threadTraceEnable_ = false; bool doublePrecision = true; // Update GPU specific settings and info structure if we have any #if defined(_WIN32) ModifyMaxWorkload modifyMaxWorkload = {0, 1, VER_EQUAL}; #else ModifyMaxWorkload modifyMaxWorkload = {0}; #endif // APU systems if (palProp.gpuType == Pal::GpuType::Integrated) { apuSystem_ = true; } enableXNACK_ = enableXNACK; hsailExplicitXnack_ = enableXNACK; bool useWavefront64 = false; std::string appName = {}; std::string appPathAndName = {}; amd::Os::getAppPathAndFileName(appName, appPathAndName); switch (palProp.revision) { // Fall through for Navi3x ... case Pal::AsicRevision::Navi33: case Pal::AsicRevision::Navi32: case Pal::AsicRevision::Navi31: // Fall through for Navi2x ... case Pal::AsicRevision::Phoenix1: case Pal::AsicRevision::Raphael: case Pal::AsicRevision::Rembrandt: case Pal::AsicRevision::Navi24: case Pal::AsicRevision::Navi23: case Pal::AsicRevision::Navi22: case Pal::AsicRevision::Navi21: // set wavefront 64 for Geekbench 5 { if (appName == "Geekbench 5.exe" || appName == "geekbench_x86_64.exe" || appName == "geekbench5.exe") { useWavefront64 = true; } } // Fall through for Navi1x ... case Pal::AsicRevision::Navi14: case Pal::AsicRevision::Navi12: case Pal::AsicRevision::Navi10: case Pal::AsicRevision::Navi10_A0: gfx10Plus_ = true; useLightning_ = GPU_ENABLE_LC; // Force luxmark to use HSAIL for gfx10 if GPU_ENABLE_LC isn't set in ENV if (flagIsDefault(GPU_ENABLE_LC) && palProp.gfxLevel < Pal::GfxIpLevel::GfxIp11_0 && (appName == "luxmark.exe" || appName == "luxmark")) { useLightning_ = false; } enableWgpMode_ = GPU_ENABLE_WGP_MODE; if (useLightning_) { enableWave32Mode_ = true; } if (!flagIsDefault(GPU_ENABLE_WAVE32_MODE)) { enableWave32Mode_ = GPU_ENABLE_WAVE32_MODE; } if (useWavefront64) { enableWave32Mode_ = 0; } lcWavefrontSize64_ = !enableWave32Mode_; if (palProp.gfxLevel == Pal::GfxIpLevel::GfxIp10_1) { // GFX10.1 HW doesn't support custom pitch. Enable double copy workaround imageBufferWar_ = GPU_IMAGE_BUFFER_WAR; } if (false) { // UnknownDevice0 HW doesn't have SDMA engine disableSdma_ = true; // And LDS is limited to 32KB hwLDSSize_ = 32 * Ki; // No fp64 support doublePrecision = false; } // Fall through to AI (gfx9) ... case Pal::AsicRevision::Vega20: // Enable HW P2P path for Vega20+. Runtime still relies on KMD/PAL for support enableHwP2P_ = true; case Pal::AsicRevision::Vega12: case Pal::AsicRevision::Vega10: case Pal::AsicRevision::Raven: case Pal::AsicRevision::Raven2: case Pal::AsicRevision::Renoir: aiPlus_ = true; enableCoopGroups_ = IS_LINUX; enableCoopMultiDeviceGroups_ = IS_LINUX; if (useLightning_) { singleFpDenorm_ = true; } // Fall through to VI ... case Pal::AsicRevision::Carrizo: case Pal::AsicRevision::Bristol: case Pal::AsicRevision::Stoney: if (!aiPlus_) { // Fix BSOD/TDR issues observed on Stoney Win7/8.1/10 minWorkloadTime_ = 1000; modifyMaxWorkload.time = 1000; // Decided by experiment modifyMaxWorkload.minorVersion = 1; // Win 7 #if defined(_WIN32) modifyMaxWorkload.comparisonOps = VER_EQUAL; // Limit to Win 7 only #endif } case Pal::AsicRevision::Iceland: case Pal::AsicRevision::Tonga: case Pal::AsicRevision::Fiji: case Pal::AsicRevision::Polaris10: case Pal::AsicRevision::Polaris11: case Pal::AsicRevision::Polaris12: case Pal::AsicRevision::Polaris22: // Disable tiling aperture on VI+ linearPersistentImage_ = true; // Keep this false even though we have support // singleFpDenorm_ = true; viPlus_ = true; // SDMA may have memory access outside of // the valid buffer range and cause a page fault sdamPageFaultWar_ = true; enableExtension(ClKhrFp16); // Fall through to CI ... case Pal::AsicRevision::Kalindi: case Pal::AsicRevision::Godavari: case Pal::AsicRevision::Spectre: case Pal::AsicRevision::Spooky: if (!viPlus_) { // Fix BSOD/TDR issues observed on Kaveri Win7 (EPR#416903) modifyMaxWorkload.time = 250000; // 250ms modifyMaxWorkload.minorVersion = 1; // Win 7 #if defined(_WIN32) modifyMaxWorkload.comparisonOps = VER_EQUAL; // limit to Win 7 #endif } // Fall through ... case Pal::AsicRevision::Bonaire: case Pal::AsicRevision::Hawaii: case Pal::AsicRevision::HawaiiPro: threadTraceEnable_ = AMD_THREAD_TRACE_ENABLE; reportFMAF_ = false; if ((palProp.revision == Pal::AsicRevision::Hawaii) || aiPlus_) { reportFMAF_ = true; } // Cache line size is 64 bytes cacheLineSize_ = 64; // L1 cache size is 16KB cacheSize_ = 16 * Ki; libSelector_ = amd::GPU_Library_CI; if (LP64_SWITCH(false, true)) { oclVersion_ = !reportAsOCL12Device ? XCONCAT(OpenCL, XCONCAT(OPENCL_MAJOR, OPENCL_MINOR)) : OpenCL12; } if (OPENCL_VERSION < 200) { oclVersion_ = OpenCL12; } numComputeRings_ = 8; // Cap at OpenCL20 for now if (oclVersion_ > OpenCL20) oclVersion_ = OpenCL20; use64BitPtr_ = LP64_SWITCH(false, true); if (oclVersion_ >= OpenCL20) { supportDepthsRGB_ = true; } if (use64BitPtr_) { maxAllocSize_ = 64ULL * Gi; } else { maxAllocSize_ = 3ULL * Gi; } // Note: More than 4 command buffers may cause a HW hang // with HWSC on pre-gfx9 devices in OCLPerfKernelArguments if (!aiPlus_) { maxCmdBuffers_ = 4; } supportRA_ = false; numMemDependencies_ = GPU_NUM_MEM_DEPENDENCY; break; default: assert(0 && "Unknown ASIC type!"); return false; } if (0 == palProp.engineProperties[Pal::EngineTypeDma].engineCount) { disableSdma_ = true; } // Image DMA must be disabled if SDMA is disabled imageDMA_ &= !disableSdma_; splitSizeForWin7_ = false; #if defined(_WIN32) OSVERSIONINFOEX versionInfo = {0}; versionInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX); versionInfo.dwMajorVersion = 6; versionInfo.dwMinorVersion = modifyMaxWorkload.minorVersion; DWORDLONG conditionMask = 0; VER_SET_CONDITION(conditionMask, VER_MAJORVERSION, modifyMaxWorkload.comparisonOps); VER_SET_CONDITION(conditionMask, VER_MINORVERSION, modifyMaxWorkload.comparisonOps); if (VerifyVersionInfo(&versionInfo, VER_MAJORVERSION | VER_MINORVERSION, conditionMask)) { splitSizeForWin7_ = true; // Update flag of DMA flush split size for Win 7 if (modifyMaxWorkload.time > 0) { maxWorkloadTime_ = modifyMaxWorkload.time; // Update max workload time } } #endif // defined(_WIN32) // Enable atomics support enableExtension(ClKhrInt64BaseAtomics); enableExtension(ClKhrInt64ExtendedAtomics); enableExtension(ClKhrGlobalInt32BaseAtomics); enableExtension(ClKhrGlobalInt32ExtendedAtomics); enableExtension(ClKhrLocalInt32BaseAtomics); enableExtension(ClKhrLocalInt32ExtendedAtomics); enableExtension(ClKhrByteAddressableStore); enableExtension(ClKhr3DImageWrites); enableExtension(ClKhrImage2dFromBuffer); enableExtension(ClAmdMediaOps); enableExtension(ClAmdMediaOps2); { // Not supported by Unknown device enableExtension(ClKhrGlSharing); enableExtension(ClKhrGlEvent); enableExtension(ClAmdCopyBufferP2P); } if (!useLightning_) { enableExtension(ClAmdPopcnt); enableExtension(ClAmdVec3); enableExtension(ClAmdPrintf); } // Enable some platform extensions enableExtension(ClAmdDeviceAttributeQuery); if (hwLDSSize_ == 0) { // Use hardcoded values for now, since PAL properties aren't available with offline devices hwLDSSize_ = (IS_LINUX || amd::IS_HIP || gfx10Plus_) ? 64 * Ki: 32 * Ki; } imageSupport_ = true; hostMemDirectAccess_ |= HostMemBuffer; // HW doesn't support untiled image writes // hostMemDirectAccess_ |= HostMemImage; if (doublePrecision) { // Report FP_FAST_FMA define if double precision HW reportFMA_ = true; // FMA is 1/4 speed on Pitcairn, Cape Verde, Devastator and Scrapper // Bonaire, Kalindi, Spectre and Spooky so disable // FP_FMA_FMAF for those parts in switch below reportFMAF_ = true; } // Make sure device actually supports double precision doublePrecision_ = (doublePrecision) ? doublePrecision_ : false; if (doublePrecision_) { // Enable KHR double precision extension enableExtension(ClKhrFp64); } if (!useLightning_ && doublePrecision) { // Enable AMD double precision extension doublePrecision_ = true; enableExtension(ClAmdFp64); } if (palProp.gpuMemoryProperties.busAddressableMemSize > 0) { // Enable bus addressable memory extension enableExtension(ClAMDBusAddressableMemory); } svmFineGrainSystem_ = palProp.gpuMemoryProperties.flags.iommuv2Support; svmAtomics_ = svmFineGrainSystem_; // SVM is not currently supported for DX Interop #if defined(_WIN32) enableExtension(ClKhrD3d9Sharing); enableExtension(ClKhrD3d10Sharing); enableExtension(ClKhrD3d11Sharing); #endif // _WIN32 // Enable some OpenCL 2.0 extensions if (oclVersion_ >= OpenCL20) { enableExtension(ClKhrSubGroups); enableExtension(ClKhrDepthImages); if (GPU_MIPMAP) { enableExtension(ClKhrMipMapImage); enableExtension(ClKhrMipMapImageWrites); } #if defined(_WIN32) enableExtension(ClAmdPlanarYuv); #endif } if (apuSystem_ && ((heaps[Pal::GpuHeapLocal].logicalSize + heaps[Pal::GpuHeapInvisible].logicalSize) < (150 * Mi))) { remoteAlloc_ = true; } // Update resource cache size if (remoteAlloc_) { resourceCacheSize_ = std::max((heaps[Pal::GpuHeapGartUswc].logicalSize / 8), (uint64_t)GPU_RESOURCE_CACHE_SIZE * Mi); } else { resourceCacheSize_ = std::max(((heaps[Pal::GpuHeapLocal].logicalSize + heaps[Pal::GpuHeapInvisible].logicalSize) / 8), (uint64_t)GPU_RESOURCE_CACHE_SIZE * Mi); #if !defined(_LP64) resourceCacheSize_ = std::min(resourceCacheSize_, 1 * Gi); #endif } // If is Rebar, override prepinned memory size. if ((heaps[Pal::GpuHeapInvisible].logicalSize == 0) && (heaps[Pal::GpuHeapLocal].logicalSize > 256 * Mi)) { prepinnedMinSize_ = PAL_PREPINNED_MEMORY_SIZE * Ki; } // Override current device settings override(); return true; } void Settings::override() { // Limit reported workgroup size if (GPU_MAX_WORKGROUP_SIZE != 0) { preferredWorkGroupSize_ = GPU_MAX_WORKGROUP_SIZE; } if (!flagIsDefault(DEBUG_GPU_FLAGS)) { debugFlags_ = DEBUG_GPU_FLAGS; } if (!flagIsDefault(GPU_XFER_BUFFER_SIZE)) { xferBufSize_ = GPU_XFER_BUFFER_SIZE * Ki; } if (!flagIsDefault(GPU_NUM_COMPUTE_RINGS)) { numComputeRings_ = GPU_NUM_COMPUTE_RINGS; } if (!flagIsDefault(GPU_RESOURCE_CACHE_SIZE)) { resourceCacheSize_ = GPU_RESOURCE_CACHE_SIZE * Mi; } if (!flagIsDefault(GPU_ENABLE_HW_P2P)) { enableHwP2P_ = GPU_ENABLE_HW_P2P; } if (!flagIsDefault(AMD_GPU_FORCE_SINGLE_FP_DENORM)) { switch (AMD_GPU_FORCE_SINGLE_FP_DENORM) { case 0: singleFpDenorm_ = false; break; case 1: singleFpDenorm_ = true; break; default: break; } } if (!flagIsDefault(GPU_MAX_COMMAND_BUFFERS)) { maxCmdBuffers_ = GPU_MAX_COMMAND_BUFFERS; } if (!flagIsDefault(GPU_ENABLE_COOP_GROUPS)) { enableCoopGroups_ = GPU_ENABLE_COOP_GROUPS; enableCoopMultiDeviceGroups_ = GPU_ENABLE_COOP_GROUPS; } if (!flagIsDefault(PAL_MALL_POLICY)) { mallPolicy_ = PAL_MALL_POLICY; } if (!flagIsDefault(PAL_ALWAYS_RESIDENT)) { alwaysResident_ = PAL_ALWAYS_RESIDENT; } } } // namespace pal