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rocm-systems/rocclr/runtime/device/gpu/gpusettings.cpp
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//
// Copyright (c) 2010 Advanced Micro Devices, Inc. All rights reserved.
//
#include "top.hpp"
#include "os/os.hpp"
#include "device/device.hpp"
#include "device/gpu/gpudefs.hpp"
#include "device/gpu/gpusettings.hpp"
#include <algorithm>
#if defined(_WIN32)
#include "VersionHelpers.h"
#endif
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namespace gpu {
/*! \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;
syncObject_ = GPU_USE_SYNC_OBJECTS;
remoteAlloc_ = REMOTE_ALLOC;
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stagedXferRead_ = true;
stagedXferWrite_ = true;
stagedXferSize_ = GPU_STAGING_BUFFER_SIZE * Ki;
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// We will enable staged read/write if we use local memory
disablePersistent_ = false;
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maxRenames_ = 16;
maxRenameSize_ = 4 * Mi;
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imageSupport_ = false;
hwLDSSize_ = 0;
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// Set this to true when we drop the flag
doublePrecision_ = ::CL_KHR_FP64;
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// Fill workgroup info size
maxWorkGroupSize_ = 1024;
preferredWorkGroupSize_ = 256;
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hostMemDirectAccess_ = HostMemDisable;
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libSelector_ = amd::LibraryUndefined;
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// Enable workload split by default (for 24 bit arithmetic or timeout)
workloadSplitSize_ = 1 << GPU_WORKLOAD_SPLIT;
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// By default use host blit
blitEngine_ = BlitEngineHost;
const static size_t MaxPinnedXferSize = 32;
pinnedXferSize_ = std::min(GPU_PINNED_XFER_SIZE, MaxPinnedXferSize) * Mi;
pinnedMinXferSize_ = std::min(GPU_PINNED_MIN_XFER_SIZE * Ki, pinnedXferSize_);
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// Disable FP_FAST_FMA defines by default
reportFMAF_ = false;
reportFMA_ = false;
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// GPU device by default
apuSystem_ = false;
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// Disable 64 bit pointers support by default
use64BitPtr_ = false;
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// Max alloc size is 16GB
maxAllocSize_ = 16 * static_cast<uint64_t>(Gi);
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// Disable memory dependency tracking by default
numMemDependencies_ = 0;
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// By default cache isn't present
cacheLineSize_ = 0;
cacheSize_ = 0;
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// Initialize transfer buffer size to 1MB by default
xferBufSize_ = 1024 * Ki;
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// Use image DMA if requested
imageDMA_ = GPU_IMAGE_DMA;
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// Disable ASIC specific features by default
ciPlus_ = false;
viPlus_ = false;
aiPlus_ = false;
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// Number of compute rings.
numComputeRings_ = 0;
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minWorkloadTime_ = 100; // 0.1 ms
maxWorkloadTime_ = 500000; // 500 ms
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// Controls tiled images in persistent
//!@note IOL for Linux doesn't setup tiling aperture in CMM/QS
linearPersistentImage_ = false;
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useSingleScratch_ = GPU_USE_SINGLE_SCRATCH;
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// SDMA profiling is disabled by default
sdmaProfiling_ = false;
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// Device enqueuing settings
numDeviceEvents_ = 1024;
numWaitEvents_ = 8;
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// Disable HSAIL by default
hsail_ = false;
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// Don't support platform atomics by default.
svmAtomics_ = false;
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// Use host queue for device enqueuing by default
useDeviceQueue_ = GPU_USE_DEVICE_QUEUE;
// Don't support Denormals for single precision by default
singleFpDenorm_ = false;
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}
bool Settings::create(const CALdeviceattribs& calAttr, bool reportAsOCL12Device,
bool smallMemSystem) {
CALuint target = calAttr.target;
uint32_t osVer = 0x0;
// Disable thread trace by default for all devices
threadTraceEnable_ = false;
if (calAttr.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;
}
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// Update GPU specific settings and info structure if we have any
ModifyMaxWorkload modifyMaxWorkload = {0};
switch (target) {
case CAL_TARGET_RAVEN:
case CAL_TARGET_RAVEN2:
case CAL_TARGET_RENOIR:
// APU systems for AI
apuSystem_ = true;
case CAL_TARGET_GREENLAND:
case CAL_TARGET_VEGA12:
case CAL_TARGET_VEGA20:
// TODO: specific codes for AI
aiPlus_ = true;
// Fall through to VI ...
case CAL_TARGET_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 CAL_TARGET_CARRIZO:
if (!aiPlus_) {
// APU systems for VI
apuSystem_ = true;
}
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case CAL_TARGET_ICELAND:
case CAL_TARGET_TONGA:
case CAL_TARGET_FIJI:
case CAL_TARGET_ELLESMERE:
case CAL_TARGET_BAFFIN:
case CAL_TARGET_LEXA:
case CAL_TARGET_POLARIS22:
// Disable tiling aperture on VI+
linearPersistentImage_ = true;
// Keep this false even though we have support
// singleFpDenorm_ = true;
viPlus_ = true;
enableExtension(ClKhrFp16);
// Fall through to CI ...
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case CAL_TARGET_KALINDI:
case CAL_TARGET_SPECTRE:
case CAL_TARGET_SPOOKY:
case CAL_TARGET_GODAVARI:
if (!viPlus_) {
// APU systems for CI
apuSystem_ = true;
// 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 ...
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case CAL_TARGET_BONAIRE:
case CAL_TARGET_HAWAII:
ciPlus_ = true;
sdmaProfiling_ = true;
hsail_ = GPU_HSAIL_ENABLE;
threadTraceEnable_ = AMD_THREAD_TRACE_ENABLE;
// Fall through to SI ...
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case CAL_TARGET_PITCAIRN:
case CAL_TARGET_CAPEVERDE:
case CAL_TARGET_OLAND:
case CAL_TARGET_HAINAN:
reportFMAF_ = false;
if (target == CAL_TARGET_HAWAII) {
reportFMAF_ = true;
}
// Fall through ...
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case CAL_TARGET_TAHITI:
// Cache line size is 64 bytes
cacheLineSize_ = 64;
// L1 cache size is 16KB
cacheSize_ = 16 * Ki;
if (ciPlus_) {
libSelector_ = amd::GPU_Library_CI;
if (LP64_SWITCH(false, true)) {
oclVersion_ = !reportAsOCL12Device && calAttr.isOpenCL200Device
? XCONCAT(OpenCL, XCONCAT(OPENCL_MAJOR, OPENCL_MINOR))
: OpenCL12;
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}
if (smallMemSystem) { // force the dGPU to be 1.2 device for small memory system.
if (apuSystem_) {
return false;
} else {
oclVersion_ = OpenCL12;
}
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}
if (GPU_FORCE_OCL20_32BIT) {
force32BitOcl20_ = true;
oclVersion_ = !reportAsOCL12Device && calAttr.isOpenCL200Device
? XCONCAT(OpenCL, XCONCAT(OPENCL_MAJOR, OPENCL_MINOR))
: OpenCL12;
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}
if (OPENCL_VERSION < 200) {
oclVersion_ = OpenCL12;
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}
numComputeRings_ = 8;
} else {
numComputeRings_ = 2;
libSelector_ = amd::GPU_Library_SI;
}
// Cap at OpenCL20 for now
if (oclVersion_ > OpenCL20) oclVersion_ = OpenCL20;
// This needs to be cleaned once 64bit addressing is stable
if (oclVersion_ < OpenCL20) {
use64BitPtr_ = flagIsDefault(GPU_FORCE_64BIT_PTR)
? LP64_SWITCH(false, calAttr.isWorkstation || hsail_)
: GPU_FORCE_64BIT_PTR;
} else {
if (GPU_FORCE_64BIT_PTR || LP64_SWITCH(false, (hsail_ || (oclVersion_ >= OpenCL20)))) {
use64BitPtr_ = true;
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}
}
if (oclVersion_ >= OpenCL20) {
supportDepthsRGB_ = true;
}
if (use64BitPtr_) {
if ((GPU_ENABLE_LARGE_ALLOCATION) && (calAttr.isWorkstation) && (oclVersion_ == OpenCL20)) {
maxAllocSize_ = 64ULL * Gi;
} else {
maxAllocSize_ = 4048 * Mi;
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}
} else {
maxAllocSize_ = 3ULL * Gi;
}
supportRA_ = false;
numMemDependencies_ = GPU_NUM_MEM_DEPENDENCY;
enableExtension(ClKhrInt64BaseAtomics);
enableExtension(ClKhrInt64ExtendedAtomics);
enableExtension(ClKhrImage2dFromBuffer);
break;
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default:
assert(0 && "Unknown ASIC type!");
return false;
}
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#if defined(_WIN32)
if (modifyMaxWorkload.time > 0) {
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)) {
maxWorkloadTime_ = modifyMaxWorkload.time;
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}
}
enableExtension(ClAMDLiquidFlash);
#endif // defined(_WIN32)
// Enable atomics support
enableExtension(ClKhrGlobalInt32BaseAtomics);
enableExtension(ClKhrGlobalInt32ExtendedAtomics);
enableExtension(ClKhrLocalInt32BaseAtomics);
enableExtension(ClKhrLocalInt32ExtendedAtomics);
enableExtension(ClKhrByteAddressableStore);
enableExtension(ClKhrGlSharing);
enableExtension(ClKhrGlEvent);
enableExtension(ClAmdMediaOps);
enableExtension(ClAmdMediaOps2);
enableExtension(ClAmdPopcnt);
enableExtension(ClKhr3DImageWrites);
enableExtension(ClAmdVec3);
enableExtension(ClAmdPrintf);
// Enable some platform extensions
enableExtension(ClAmdDeviceAttributeQuery);
enableExtension(ClKhrSpir);
hwLDSSize_ = 32 * Ki;
imageSupport_ = true;
// Use kernels for blit if appropriate
blitEngine_ = BlitEngineKernel;
hostMemDirectAccess_ |= HostMemBuffer;
// HW doesn't support untiled image writes
// hostMemDirectAccess_ |= HostMemImage;
// Make sure device actually supports double precision
doublePrecision_ = (calAttr.doublePrecision) ? doublePrecision_ : false;
if (doublePrecision_) {
// Enable KHR double precision extension
enableExtension(ClKhrFp64);
}
if (calAttr.doublePrecision) {
// Enable AMD double precision extension
doublePrecision_ = true;
enableExtension(ClAmdFp64);
}
if (calAttr.totalSDIHeap > 0) {
// Enable bus addressable memory extension
enableExtension(ClAMDBusAddressableMemory);
}
if (calAttr.longIdleDetect) {
// KMD is unable to detect if we map the visible memory for CPU access, so
// accessing persistent staged buffer may fail if LongIdleDetct is enabled.
disablePersistent_ = true;
}
svmFineGrainSystem_ = calAttr.isSVMFineGrainSystem;
svmAtomics_ = (calAttr.svmAtomics || calAttr.isSVMFineGrainSystem) ? true : false;
#if defined(_WIN32)
enableExtension(ClKhrD3d9Sharing);
enableExtension(ClKhrD3d10Sharing);
enableExtension(ClKhrD3d11Sharing);
#endif // _WIN32
// Enable some OpenCL 2.0 extensions
if (oclVersion_ >= OpenCL20) {
enableExtension(ClKhrGLDepthImages);
enableExtension(ClKhrSubGroups);
enableExtension(ClKhrDepthImages);
if (GPU_MIPMAP) {
enableExtension(ClKhrMipMapImage);
enableExtension(ClKhrMipMapImageWrites);
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}
// Enable HW debug
if (GPU_ENABLE_HW_DEBUG) {
enableHwDebug_ = true;
}
#if defined(_WIN32)
enableExtension(ClAmdPlanarYuv);
#endif
}
if (apuSystem_ && ((calAttr.totalVisibleHeap + calAttr.totalInvisibleHeap) < 150)) {
remoteAlloc_ = true;
}
// Save resource cache size
#ifdef ATI_OS_LINUX
// Due to EPR#406216, set the default value for Linux for now
resourceCacheSize_ = GPU_RESOURCE_CACHE_SIZE * Mi;
#else
if (remoteAlloc_) {
resourceCacheSize_ =
std::max((calAttr.uncachedRemoteRAM / 8) * Mi, GPU_RESOURCE_CACHE_SIZE * Mi);
} else {
resourceCacheSize_ = std::max((calAttr.localRAM / 8) * Mi, GPU_RESOURCE_CACHE_SIZE * Mi);
}
#endif
// Override current device settings
override();
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return true;
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}
void Settings::override() {
// Limit reported workgroup size
if (GPU_MAX_WORKGROUP_SIZE != 0) {
preferredWorkGroupSize_ = GPU_MAX_WORKGROUP_SIZE;
}
// Override blit engine type
if (GPU_BLIT_ENGINE_TYPE != BlitEngineDefault) {
blitEngine_ = GPU_BLIT_ENGINE_TYPE;
}
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if (!flagIsDefault(DEBUG_GPU_FLAGS)) {
debugFlags_ = DEBUG_GPU_FLAGS;
}
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if (!flagIsDefault(GPU_XFER_BUFFER_SIZE)) {
xferBufSize_ = GPU_XFER_BUFFER_SIZE * Ki;
}
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if (!flagIsDefault(GPU_USE_SYNC_OBJECTS)) {
syncObject_ = GPU_USE_SYNC_OBJECTS;
}
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if (!flagIsDefault(GPU_NUM_COMPUTE_RINGS)) {
numComputeRings_ = GPU_NUM_COMPUTE_RINGS;
}
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if (!flagIsDefault(GPU_RESOURCE_CACHE_SIZE)) {
resourceCacheSize_ = GPU_RESOURCE_CACHE_SIZE * Mi;
}
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;
}
}
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}
} // namespace gpu