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| //=====-- AMDGPUSubtarget.h - Define Subtarget for AMDGPU ------*- C++ -*-====//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//==-----------------------------------------------------------------------===//
//
/// \file
/// AMDGPU specific subclass of TargetSubtarget.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_LIB_TARGET_AMDGPU_AMDGPUSUBTARGET_H
#define LLVM_LIB_TARGET_AMDGPU_AMDGPUSUBTARGET_H
#include "AMDGPU.h"
#include "AMDGPUCallLowering.h"
#include "R600FrameLowering.h"
#include "R600ISelLowering.h"
#include "R600InstrInfo.h"
#include "SIFrameLowering.h"
#include "SIISelLowering.h"
#include "SIInstrInfo.h"
#include "Utils/AMDGPUBaseInfo.h"
#include "llvm/ADT/Triple.h"
#include "llvm/CodeGen/GlobalISel/InstructionSelector.h"
#include "llvm/CodeGen/GlobalISel/LegalizerInfo.h"
#include "llvm/CodeGen/GlobalISel/RegisterBankInfo.h"
#include "llvm/CodeGen/MachineFunction.h"
#include "llvm/CodeGen/SelectionDAGTargetInfo.h"
#include "llvm/MC/MCInstrItineraries.h"
#include "llvm/Support/MathExtras.h"
#include <cassert>
#include <cstdint>
#include <memory>
#include <utility>
#define GET_SUBTARGETINFO_HEADER
#include "AMDGPUGenSubtargetInfo.inc"
#define GET_SUBTARGETINFO_HEADER
#include "R600GenSubtargetInfo.inc"
namespace llvm {
class StringRef;
class AMDGPUSubtarget {
public:
enum Generation {
R600 = 0,
R700 = 1,
EVERGREEN = 2,
NORTHERN_ISLANDS = 3,
SOUTHERN_ISLANDS = 4,
SEA_ISLANDS = 5,
VOLCANIC_ISLANDS = 6,
GFX9 = 7,
GFX10 = 8
};
private:
Triple TargetTriple;
protected:
bool Has16BitInsts;
bool HasMadMixInsts;
bool FP32Denormals;
bool FPExceptions;
bool HasSDWA;
bool HasVOP3PInsts;
bool HasMulI24;
bool HasMulU24;
bool HasInv2PiInlineImm;
bool HasFminFmaxLegacy;
bool EnablePromoteAlloca;
bool HasTrigReducedRange;
unsigned MaxWavesPerEU;
int LocalMemorySize;
unsigned WavefrontSize;
public:
AMDGPUSubtarget(const Triple &TT);
static const AMDGPUSubtarget &get(const MachineFunction &MF);
static const AMDGPUSubtarget &get(const TargetMachine &TM,
const Function &F);
/// \returns Default range flat work group size for a calling convention.
std::pair<unsigned, unsigned> getDefaultFlatWorkGroupSize(CallingConv::ID CC) const;
/// \returns Subtarget's default pair of minimum/maximum flat work group sizes
/// for function \p F, or minimum/maximum flat work group sizes explicitly
/// requested using "amdgpu-flat-work-group-size" attribute attached to
/// function \p F.
///
/// \returns Subtarget's default values if explicitly requested values cannot
/// be converted to integer, or violate subtarget's specifications.
std::pair<unsigned, unsigned> getFlatWorkGroupSizes(const Function &F) const;
/// \returns Subtarget's default pair of minimum/maximum number of waves per
/// execution unit for function \p F, or minimum/maximum number of waves per
/// execution unit explicitly requested using "amdgpu-waves-per-eu" attribute
/// attached to function \p F.
///
/// \returns Subtarget's default values if explicitly requested values cannot
/// be converted to integer, violate subtarget's specifications, or are not
/// compatible with minimum/maximum number of waves limited by flat work group
/// size, register usage, and/or lds usage.
std::pair<unsigned, unsigned> getWavesPerEU(const Function &F) const;
/// Return the amount of LDS that can be used that will not restrict the
/// occupancy lower than WaveCount.
unsigned getMaxLocalMemSizeWithWaveCount(unsigned WaveCount,
const Function &) const;
/// Inverse of getMaxLocalMemWithWaveCount. Return the maximum wavecount if
/// the given LDS memory size is the only constraint.
unsigned getOccupancyWithLocalMemSize(uint32_t Bytes, const Function &) const;
unsigned getOccupancyWithLocalMemSize(const MachineFunction &MF) const;
bool isAmdHsaOS() const {
return TargetTriple.getOS() == Triple::AMDHSA;
}
bool isAmdPalOS() const {
return TargetTriple.getOS() == Triple::AMDPAL;
}
bool isMesa3DOS() const {
return TargetTriple.getOS() == Triple::Mesa3D;
}
bool isMesaKernel(const Function &F) const {
return isMesa3DOS() && !AMDGPU::isShader(F.getCallingConv());
}
bool isAmdHsaOrMesa(const Function &F) const {
return isAmdHsaOS() || isMesaKernel(F);
}
bool has16BitInsts() const {
return Has16BitInsts;
}
bool hasMadMixInsts() const {
return HasMadMixInsts;
}
bool hasFP32Denormals() const {
return FP32Denormals;
}
bool hasFPExceptions() const {
return FPExceptions;
}
bool hasSDWA() const {
return HasSDWA;
}
bool hasVOP3PInsts() const {
return HasVOP3PInsts;
}
bool hasMulI24() const {
return HasMulI24;
}
bool hasMulU24() const {
return HasMulU24;
}
bool hasInv2PiInlineImm() const {
return HasInv2PiInlineImm;
}
bool hasFminFmaxLegacy() const {
return HasFminFmaxLegacy;
}
bool hasTrigReducedRange() const {
return HasTrigReducedRange;
}
bool isPromoteAllocaEnabled() const {
return EnablePromoteAlloca;
}
unsigned getWavefrontSize() const {
return WavefrontSize;
}
int getLocalMemorySize() const {
return LocalMemorySize;
}
Align getAlignmentForImplicitArgPtr() const {
return isAmdHsaOS() ? Align(8) : Align(4);
}
/// Returns the offset in bytes from the start of the input buffer
/// of the first explicit kernel argument.
unsigned getExplicitKernelArgOffset(const Function &F) const {
return isAmdHsaOrMesa(F) ? 0 : 36;
}
/// \returns Maximum number of work groups per compute unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
virtual unsigned getMaxWorkGroupsPerCU(unsigned FlatWorkGroupSize) const = 0;
/// \returns Minimum flat work group size supported by the subtarget.
virtual unsigned getMinFlatWorkGroupSize() const = 0;
/// \returns Maximum flat work group size supported by the subtarget.
virtual unsigned getMaxFlatWorkGroupSize() const = 0;
/// \returns Maximum number of waves per execution unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
virtual unsigned getMaxWavesPerEU(unsigned FlatWorkGroupSize) const = 0;
/// \returns Minimum number of waves per execution unit supported by the
/// subtarget.
virtual unsigned getMinWavesPerEU() const = 0;
/// \returns Maximum number of waves per execution unit supported by the
/// subtarget without any kind of limitation.
unsigned getMaxWavesPerEU() const { return MaxWavesPerEU; }
/// Creates value range metadata on an workitemid.* inrinsic call or load.
bool makeLIDRangeMetadata(Instruction *I) const;
/// \returns Number of bytes of arguments that are passed to a shader or
/// kernel in addition to the explicit ones declared for the function.
unsigned getImplicitArgNumBytes(const Function &F) const {
if (isMesaKernel(F))
return 16;
return AMDGPU::getIntegerAttribute(F, "amdgpu-implicitarg-num-bytes", 0);
}
uint64_t getExplicitKernArgSize(const Function &F, Align &MaxAlign) const;
unsigned getKernArgSegmentSize(const Function &F, Align &MaxAlign) const;
virtual ~AMDGPUSubtarget() {}
};
class GCNSubtarget : public AMDGPUGenSubtargetInfo,
public AMDGPUSubtarget {
using AMDGPUSubtarget::getMaxWavesPerEU;
public:
enum TrapHandlerAbi {
TrapHandlerAbiNone = 0,
TrapHandlerAbiHsa = 1
};
enum TrapID {
TrapIDHardwareReserved = 0,
TrapIDHSADebugTrap = 1,
TrapIDLLVMTrap = 2,
TrapIDLLVMDebugTrap = 3,
TrapIDDebugBreakpoint = 7,
TrapIDDebugReserved8 = 8,
TrapIDDebugReservedFE = 0xfe,
TrapIDDebugReservedFF = 0xff
};
enum TrapRegValues {
LLVMTrapHandlerRegValue = 1
};
private:
/// GlobalISel related APIs.
std::unique_ptr<AMDGPUCallLowering> CallLoweringInfo;
std::unique_ptr<InstructionSelector> InstSelector;
std::unique_ptr<LegalizerInfo> Legalizer;
std::unique_ptr<RegisterBankInfo> RegBankInfo;
protected:
// Basic subtarget description.
Triple TargetTriple;
unsigned Gen;
InstrItineraryData InstrItins;
int LDSBankCount;
unsigned MaxPrivateElementSize;
// Possibly statically set by tablegen, but may want to be overridden.
bool FastFMAF32;
bool HalfRate64Ops;
// Dynamially set bits that enable features.
bool FP64FP16Denormals;
bool FlatForGlobal;
bool AutoWaitcntBeforeBarrier;
bool CodeObjectV3;
bool UnalignedScratchAccess;
bool UnalignedBufferAccess;
bool HasApertureRegs;
bool EnableXNACK;
bool DoesNotSupportXNACK;
bool EnableCuMode;
bool TrapHandler;
// Used as options.
bool EnableLoadStoreOpt;
bool EnableUnsafeDSOffsetFolding;
bool EnableSIScheduler;
bool EnableDS128;
bool EnablePRTStrictNull;
bool DumpCode;
// Subtarget statically properties set by tablegen
bool FP64;
bool FMA;
bool MIMG_R128;
bool IsGCN;
bool GCN3Encoding;
bool CIInsts;
bool GFX8Insts;
bool GFX9Insts;
bool GFX10Insts;
bool GFX7GFX8GFX9Insts;
bool SGPRInitBug;
bool HasSMemRealTime;
bool HasIntClamp;
bool HasFmaMixInsts;
bool HasMovrel;
bool HasVGPRIndexMode;
bool HasScalarStores;
bool HasScalarAtomics;
bool HasSDWAOmod;
bool HasSDWAScalar;
bool HasSDWASdst;
bool HasSDWAMac;
bool HasSDWAOutModsVOPC;
bool HasDPP;
bool HasDPP8;
bool HasR128A16;
bool HasNSAEncoding;
bool HasDLInsts;
bool HasDot1Insts;
bool HasDot2Insts;
bool HasDot3Insts;
bool HasDot4Insts;
bool HasDot5Insts;
bool HasDot6Insts;
bool HasMAIInsts;
bool HasPkFmacF16Inst;
bool HasAtomicFaddInsts;
bool EnableSRAMECC;
bool DoesNotSupportSRAMECC;
bool HasNoSdstCMPX;
bool HasVscnt;
bool HasRegisterBanking;
bool HasVOP3Literal;
bool HasNoDataDepHazard;
bool FlatAddressSpace;
bool FlatInstOffsets;
bool FlatGlobalInsts;
bool FlatScratchInsts;
bool ScalarFlatScratchInsts;
bool AddNoCarryInsts;
bool HasUnpackedD16VMem;
bool R600ALUInst;
bool CaymanISA;
bool CFALUBug;
bool LDSMisalignedBug;
bool HasMFMAInlineLiteralBug;
bool HasVertexCache;
short TexVTXClauseSize;
bool ScalarizeGlobal;
bool HasVcmpxPermlaneHazard;
bool HasVMEMtoScalarWriteHazard;
bool HasSMEMtoVectorWriteHazard;
bool HasInstFwdPrefetchBug;
bool HasVcmpxExecWARHazard;
bool HasLdsBranchVmemWARHazard;
bool HasNSAtoVMEMBug;
bool HasOffset3fBug;
bool HasFlatSegmentOffsetBug;
// Dummy feature to use for assembler in tablegen.
bool FeatureDisable;
SelectionDAGTargetInfo TSInfo;
private:
SIInstrInfo InstrInfo;
SITargetLowering TLInfo;
SIFrameLowering FrameLowering;
// See COMPUTE_TMPRING_SIZE.WAVESIZE, 13-bit field in units of 256-dword.
static const unsigned MaxWaveScratchSize = (256 * 4) * ((1 << 13) - 1);
public:
GCNSubtarget(const Triple &TT, StringRef GPU, StringRef FS,
const GCNTargetMachine &TM);
~GCNSubtarget() override;
GCNSubtarget &initializeSubtargetDependencies(const Triple &TT,
StringRef GPU, StringRef FS);
const SIInstrInfo *getInstrInfo() const override {
return &InstrInfo;
}
const SIFrameLowering *getFrameLowering() const override {
return &FrameLowering;
}
const SITargetLowering *getTargetLowering() const override {
return &TLInfo;
}
const SIRegisterInfo *getRegisterInfo() const override {
return &InstrInfo.getRegisterInfo();
}
const CallLowering *getCallLowering() const override {
return CallLoweringInfo.get();
}
InstructionSelector *getInstructionSelector() const override {
return InstSelector.get();
}
const LegalizerInfo *getLegalizerInfo() const override {
return Legalizer.get();
}
const RegisterBankInfo *getRegBankInfo() const override {
return RegBankInfo.get();
}
// Nothing implemented, just prevent crashes on use.
const SelectionDAGTargetInfo *getSelectionDAGInfo() const override {
return &TSInfo;
}
const InstrItineraryData *getInstrItineraryData() const override {
return &InstrItins;
}
void ParseSubtargetFeatures(StringRef CPU, StringRef FS);
Generation getGeneration() const {
return (Generation)Gen;
}
unsigned getWavefrontSizeLog2() const {
return Log2_32(WavefrontSize);
}
/// Return the number of high bits known to be zero fror a frame index.
unsigned getKnownHighZeroBitsForFrameIndex() const {
return countLeadingZeros(MaxWaveScratchSize) + getWavefrontSizeLog2();
}
int getLDSBankCount() const {
return LDSBankCount;
}
unsigned getMaxPrivateElementSize() const {
return MaxPrivateElementSize;
}
unsigned getConstantBusLimit(unsigned Opcode) const;
bool hasIntClamp() const {
return HasIntClamp;
}
bool hasFP64() const {
return FP64;
}
bool hasMIMG_R128() const {
return MIMG_R128;
}
bool hasHWFP64() const {
return FP64;
}
bool hasFastFMAF32() const {
return FastFMAF32;
}
bool hasHalfRate64Ops() const {
return HalfRate64Ops;
}
bool hasAddr64() const {
return (getGeneration() < AMDGPUSubtarget::VOLCANIC_ISLANDS);
}
// Return true if the target only has the reverse operand versions of VALU
// shift instructions (e.g. v_lshrrev_b32, and no v_lshr_b32).
bool hasOnlyRevVALUShifts() const {
return getGeneration() >= VOLCANIC_ISLANDS;
}
bool hasBFE() const {
return true;
}
bool hasBFI() const {
return true;
}
bool hasBFM() const {
return hasBFE();
}
bool hasBCNT(unsigned Size) const {
return true;
}
bool hasFFBL() const {
return true;
}
bool hasFFBH() const {
return true;
}
bool hasMed3_16() const {
return getGeneration() >= AMDGPUSubtarget::GFX9;
}
bool hasMin3Max3_16() const {
return getGeneration() >= AMDGPUSubtarget::GFX9;
}
bool hasFmaMixInsts() const {
return HasFmaMixInsts;
}
bool hasCARRY() const {
return true;
}
bool hasFMA() const {
return FMA;
}
bool hasSwap() const {
return GFX9Insts;
}
bool hasScalarPackInsts() const {
return GFX9Insts;
}
bool hasScalarMulHiInsts() const {
return GFX9Insts;
}
TrapHandlerAbi getTrapHandlerAbi() const {
return isAmdHsaOS() ? TrapHandlerAbiHsa : TrapHandlerAbiNone;
}
/// True if the offset field of DS instructions works as expected. On SI, the
/// offset uses a 16-bit adder and does not always wrap properly.
bool hasUsableDSOffset() const {
return getGeneration() >= SEA_ISLANDS;
}
bool unsafeDSOffsetFoldingEnabled() const {
return EnableUnsafeDSOffsetFolding;
}
/// Condition output from div_scale is usable.
bool hasUsableDivScaleConditionOutput() const {
return getGeneration() != SOUTHERN_ISLANDS;
}
/// Extra wait hazard is needed in some cases before
/// s_cbranch_vccnz/s_cbranch_vccz.
bool hasReadVCCZBug() const {
return getGeneration() <= SEA_ISLANDS;
}
/// A read of an SGPR by SMRD instruction requires 4 wait states when the SGPR
/// was written by a VALU instruction.
bool hasSMRDReadVALUDefHazard() const {
return getGeneration() == SOUTHERN_ISLANDS;
}
/// A read of an SGPR by a VMEM instruction requires 5 wait states when the
/// SGPR was written by a VALU Instruction.
bool hasVMEMReadSGPRVALUDefHazard() const {
return getGeneration() >= VOLCANIC_ISLANDS;
}
bool hasRFEHazards() const {
return getGeneration() >= VOLCANIC_ISLANDS;
}
/// Number of hazard wait states for s_setreg_b32/s_setreg_imm32_b32.
unsigned getSetRegWaitStates() const {
return getGeneration() <= SEA_ISLANDS ? 1 : 2;
}
bool dumpCode() const {
return DumpCode;
}
/// Return the amount of LDS that can be used that will not restrict the
/// occupancy lower than WaveCount.
unsigned getMaxLocalMemSizeWithWaveCount(unsigned WaveCount,
const Function &) const;
bool hasFP16Denormals() const {
return FP64FP16Denormals;
}
bool hasFP64Denormals() const {
return FP64FP16Denormals;
}
bool supportsMinMaxDenormModes() const {
return getGeneration() >= AMDGPUSubtarget::GFX9;
}
/// \returns If target supports S_DENORM_MODE.
bool hasDenormModeInst() const {
return getGeneration() >= AMDGPUSubtarget::GFX10;
}
bool useFlatForGlobal() const {
return FlatForGlobal;
}
/// \returns If target supports ds_read/write_b128 and user enables generation
/// of ds_read/write_b128.
bool useDS128() const {
return CIInsts && EnableDS128;
}
/// Have v_trunc_f64, v_ceil_f64, v_rndne_f64
bool haveRoundOpsF64() const {
return CIInsts;
}
/// \returns If MUBUF instructions always perform range checking, even for
/// buffer resources used for private memory access.
bool privateMemoryResourceIsRangeChecked() const {
return getGeneration() < AMDGPUSubtarget::GFX9;
}
/// \returns If target requires PRT Struct NULL support (zero result registers
/// for sparse texture support).
bool usePRTStrictNull() const {
return EnablePRTStrictNull;
}
bool hasAutoWaitcntBeforeBarrier() const {
return AutoWaitcntBeforeBarrier;
}
bool hasCodeObjectV3() const {
// FIXME: Need to add code object v3 support for mesa and pal.
return isAmdHsaOS() ? CodeObjectV3 : false;
}
bool hasUnalignedBufferAccess() const {
return UnalignedBufferAccess;
}
bool hasUnalignedScratchAccess() const {
return UnalignedScratchAccess;
}
bool hasApertureRegs() const {
return HasApertureRegs;
}
bool isTrapHandlerEnabled() const {
return TrapHandler;
}
bool isXNACKEnabled() const {
return EnableXNACK;
}
bool isCuModeEnabled() const {
return EnableCuMode;
}
bool hasFlatAddressSpace() const {
return FlatAddressSpace;
}
bool hasFlatScrRegister() const {
return hasFlatAddressSpace();
}
bool hasFlatInstOffsets() const {
return FlatInstOffsets;
}
bool hasFlatGlobalInsts() const {
return FlatGlobalInsts;
}
bool hasFlatScratchInsts() const {
return FlatScratchInsts;
}
bool hasScalarFlatScratchInsts() const {
return ScalarFlatScratchInsts;
}
bool hasFlatSegmentOffsetBug() const {
return HasFlatSegmentOffsetBug;
}
bool hasFlatLgkmVMemCountInOrder() const {
return getGeneration() > GFX9;
}
bool hasD16LoadStore() const {
return getGeneration() >= GFX9;
}
bool d16PreservesUnusedBits() const {
return hasD16LoadStore() && !isSRAMECCEnabled();
}
bool hasD16Images() const {
return getGeneration() >= VOLCANIC_ISLANDS;
}
/// Return if most LDS instructions have an m0 use that require m0 to be
/// iniitalized.
bool ldsRequiresM0Init() const {
return getGeneration() < GFX9;
}
// True if the hardware rewinds and replays GWS operations if a wave is
// preempted.
//
// If this is false, a GWS operation requires testing if a nack set the
// MEM_VIOL bit, and repeating if so.
bool hasGWSAutoReplay() const {
return getGeneration() >= GFX9;
}
/// \returns if target has ds_gws_sema_release_all instruction.
bool hasGWSSemaReleaseAll() const {
return CIInsts;
}
bool hasAddNoCarry() const {
return AddNoCarryInsts;
}
bool hasUnpackedD16VMem() const {
return HasUnpackedD16VMem;
}
// Covers VS/PS/CS graphics shaders
bool isMesaGfxShader(const Function &F) const {
return isMesa3DOS() && AMDGPU::isShader(F.getCallingConv());
}
bool hasMad64_32() const {
return getGeneration() >= SEA_ISLANDS;
}
bool hasSDWAOmod() const {
return HasSDWAOmod;
}
bool hasSDWAScalar() const {
return HasSDWAScalar;
}
bool hasSDWASdst() const {
return HasSDWASdst;
}
bool hasSDWAMac() const {
return HasSDWAMac;
}
bool hasSDWAOutModsVOPC() const {
return HasSDWAOutModsVOPC;
}
bool hasDLInsts() const {
return HasDLInsts;
}
bool hasDot1Insts() const {
return HasDot1Insts;
}
bool hasDot2Insts() const {
return HasDot2Insts;
}
bool hasDot3Insts() const {
return HasDot3Insts;
}
bool hasDot4Insts() const {
return HasDot4Insts;
}
bool hasDot5Insts() const {
return HasDot5Insts;
}
bool hasDot6Insts() const {
return HasDot6Insts;
}
bool hasMAIInsts() const {
return HasMAIInsts;
}
bool hasPkFmacF16Inst() const {
return HasPkFmacF16Inst;
}
bool hasAtomicFaddInsts() const {
return HasAtomicFaddInsts;
}
bool isSRAMECCEnabled() const {
return EnableSRAMECC;
}
bool hasNoSdstCMPX() const {
return HasNoSdstCMPX;
}
bool hasVscnt() const {
return HasVscnt;
}
bool hasRegisterBanking() const {
return HasRegisterBanking;
}
bool hasVOP3Literal() const {
return HasVOP3Literal;
}
bool hasNoDataDepHazard() const {
return HasNoDataDepHazard;
}
bool vmemWriteNeedsExpWaitcnt() const {
return getGeneration() < SEA_ISLANDS;
}
// Scratch is allocated in 256 dword per wave blocks for the entire
// wavefront. When viewed from the perspecive of an arbitrary workitem, this
// is 4-byte aligned.
//
// Only 4-byte alignment is really needed to access anything. Transformations
// on the pointer value itself may rely on the alignment / known low bits of
// the pointer. Set this to something above the minimum to avoid needing
// dynamic realignment in common cases.
Align getStackAlignment() const { return Align(16); }
bool enableMachineScheduler() const override {
return true;
}
bool enableSubRegLiveness() const override {
return true;
}
void setScalarizeGlobalBehavior(bool b) { ScalarizeGlobal = b; }
bool getScalarizeGlobalBehavior() const { return ScalarizeGlobal; }
/// \returns Number of execution units per compute unit supported by the
/// subtarget.
unsigned getEUsPerCU() const {
return AMDGPU::IsaInfo::getEUsPerCU(this);
}
/// \returns Maximum number of waves per compute unit supported by the
/// subtarget without any kind of limitation.
unsigned getMaxWavesPerCU() const {
return AMDGPU::IsaInfo::getMaxWavesPerCU(this);
}
/// \returns Maximum number of waves per compute unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
unsigned getMaxWavesPerCU(unsigned FlatWorkGroupSize) const {
return AMDGPU::IsaInfo::getMaxWavesPerCU(this, FlatWorkGroupSize);
}
/// \returns Number of waves per work group supported by the subtarget and
/// limited by given \p FlatWorkGroupSize.
unsigned getWavesPerWorkGroup(unsigned FlatWorkGroupSize) const {
return AMDGPU::IsaInfo::getWavesPerWorkGroup(this, FlatWorkGroupSize);
}
// static wrappers
static bool hasHalfRate64Ops(const TargetSubtargetInfo &STI);
// XXX - Why is this here if it isn't in the default pass set?
bool enableEarlyIfConversion() const override {
return true;
}
void overrideSchedPolicy(MachineSchedPolicy &Policy,
unsigned NumRegionInstrs) const override;
unsigned getMaxNumUserSGPRs() const {
return 16;
}
bool hasSMemRealTime() const {
return HasSMemRealTime;
}
bool hasMovrel() const {
return HasMovrel;
}
bool hasVGPRIndexMode() const {
return HasVGPRIndexMode;
}
bool useVGPRIndexMode(bool UserEnable) const {
return !hasMovrel() || (UserEnable && hasVGPRIndexMode());
}
bool hasScalarCompareEq64() const {
return getGeneration() >= VOLCANIC_ISLANDS;
}
bool hasScalarStores() const {
return HasScalarStores;
}
bool hasScalarAtomics() const {
return HasScalarAtomics;
}
bool hasLDSFPAtomics() const {
return GFX8Insts;
}
bool hasDPP() const {
return HasDPP;
}
bool hasDPPBroadcasts() const {
return HasDPP && getGeneration() < GFX10;
}
bool hasDPPWavefrontShifts() const {
return HasDPP && getGeneration() < GFX10;
}
bool hasDPP8() const {
return HasDPP8;
}
bool hasR128A16() const {
return HasR128A16;
}
bool hasOffset3fBug() const {
return HasOffset3fBug;
}
bool hasNSAEncoding() const {
return HasNSAEncoding;
}
bool hasMadF16() const;
bool enableSIScheduler() const {
return EnableSIScheduler;
}
bool loadStoreOptEnabled() const {
return EnableLoadStoreOpt;
}
bool hasSGPRInitBug() const {
return SGPRInitBug;
}
bool hasMFMAInlineLiteralBug() const {
return HasMFMAInlineLiteralBug;
}
bool has12DWordStoreHazard() const {
return getGeneration() != AMDGPUSubtarget::SOUTHERN_ISLANDS;
}
// \returns true if the subtarget supports DWORDX3 load/store instructions.
bool hasDwordx3LoadStores() const {
return CIInsts;
}
bool hasSMovFedHazard() const {
return getGeneration() == AMDGPUSubtarget::GFX9;
}
bool hasReadM0MovRelInterpHazard() const {
return getGeneration() == AMDGPUSubtarget::GFX9;
}
bool hasReadM0SendMsgHazard() const {
return getGeneration() >= AMDGPUSubtarget::VOLCANIC_ISLANDS &&
getGeneration() <= AMDGPUSubtarget::GFX9;
}
bool hasVcmpxPermlaneHazard() const {
return HasVcmpxPermlaneHazard;
}
bool hasVMEMtoScalarWriteHazard() const {
return HasVMEMtoScalarWriteHazard;
}
bool hasSMEMtoVectorWriteHazard() const {
return HasSMEMtoVectorWriteHazard;
}
bool hasLDSMisalignedBug() const {
return LDSMisalignedBug && !EnableCuMode;
}
bool hasInstFwdPrefetchBug() const {
return HasInstFwdPrefetchBug;
}
bool hasVcmpxExecWARHazard() const {
return HasVcmpxExecWARHazard;
}
bool hasLdsBranchVmemWARHazard() const {
return HasLdsBranchVmemWARHazard;
}
bool hasNSAtoVMEMBug() const {
return HasNSAtoVMEMBug;
}
/// Return the maximum number of waves per SIMD for kernels using \p SGPRs
/// SGPRs
unsigned getOccupancyWithNumSGPRs(unsigned SGPRs) const;
/// Return the maximum number of waves per SIMD for kernels using \p VGPRs
/// VGPRs
unsigned getOccupancyWithNumVGPRs(unsigned VGPRs) const;
/// Return occupancy for the given function. Used LDS and a number of
/// registers if provided.
/// Note, occupancy can be affected by the scratch allocation as well, but
/// we do not have enough information to compute it.
unsigned computeOccupancy(const MachineFunction &MF, unsigned LDSSize = 0,
unsigned NumSGPRs = 0, unsigned NumVGPRs = 0) const;
/// \returns true if the flat_scratch register should be initialized with the
/// pointer to the wave's scratch memory rather than a size and offset.
bool flatScratchIsPointer() const {
return getGeneration() >= AMDGPUSubtarget::GFX9;
}
/// \returns true if the machine has merged shaders in which s0-s7 are
/// reserved by the hardware and user SGPRs start at s8
bool hasMergedShaders() const {
return getGeneration() >= GFX9;
}
/// \returns SGPR allocation granularity supported by the subtarget.
unsigned getSGPRAllocGranule() const {
return AMDGPU::IsaInfo::getSGPRAllocGranule(this);
}
/// \returns SGPR encoding granularity supported by the subtarget.
unsigned getSGPREncodingGranule() const {
return AMDGPU::IsaInfo::getSGPREncodingGranule(this);
}
/// \returns Total number of SGPRs supported by the subtarget.
unsigned getTotalNumSGPRs() const {
return AMDGPU::IsaInfo::getTotalNumSGPRs(this);
}
/// \returns Addressable number of SGPRs supported by the subtarget.
unsigned getAddressableNumSGPRs() const {
return AMDGPU::IsaInfo::getAddressableNumSGPRs(this);
}
/// \returns Minimum number of SGPRs that meets the given number of waves per
/// execution unit requirement supported by the subtarget.
unsigned getMinNumSGPRs(unsigned WavesPerEU) const {
return AMDGPU::IsaInfo::getMinNumSGPRs(this, WavesPerEU);
}
/// \returns Maximum number of SGPRs that meets the given number of waves per
/// execution unit requirement supported by the subtarget.
unsigned getMaxNumSGPRs(unsigned WavesPerEU, bool Addressable) const {
return AMDGPU::IsaInfo::getMaxNumSGPRs(this, WavesPerEU, Addressable);
}
/// \returns Reserved number of SGPRs for given function \p MF.
unsigned getReservedNumSGPRs(const MachineFunction &MF) const;
/// \returns Maximum number of SGPRs that meets number of waves per execution
/// unit requirement for function \p MF, or number of SGPRs explicitly
/// requested using "amdgpu-num-sgpr" attribute attached to function \p MF.
///
/// \returns Value that meets number of waves per execution unit requirement
/// if explicitly requested value cannot be converted to integer, violates
/// subtarget's specifications, or does not meet number of waves per execution
/// unit requirement.
unsigned getMaxNumSGPRs(const MachineFunction &MF) const;
/// \returns VGPR allocation granularity supported by the subtarget.
unsigned getVGPRAllocGranule() const {
return AMDGPU::IsaInfo::getVGPRAllocGranule(this);
}
/// \returns VGPR encoding granularity supported by the subtarget.
unsigned getVGPREncodingGranule() const {
return AMDGPU::IsaInfo::getVGPREncodingGranule(this);
}
/// \returns Total number of VGPRs supported by the subtarget.
unsigned getTotalNumVGPRs() const {
return AMDGPU::IsaInfo::getTotalNumVGPRs(this);
}
/// \returns Addressable number of VGPRs supported by the subtarget.
unsigned getAddressableNumVGPRs() const {
return AMDGPU::IsaInfo::getAddressableNumVGPRs(this);
}
/// \returns Minimum number of VGPRs that meets given number of waves per
/// execution unit requirement supported by the subtarget.
unsigned getMinNumVGPRs(unsigned WavesPerEU) const {
return AMDGPU::IsaInfo::getMinNumVGPRs(this, WavesPerEU);
}
/// \returns Maximum number of VGPRs that meets given number of waves per
/// execution unit requirement supported by the subtarget.
unsigned getMaxNumVGPRs(unsigned WavesPerEU) const {
return AMDGPU::IsaInfo::getMaxNumVGPRs(this, WavesPerEU);
}
/// \returns Maximum number of VGPRs that meets number of waves per execution
/// unit requirement for function \p MF, or number of VGPRs explicitly
/// requested using "amdgpu-num-vgpr" attribute attached to function \p MF.
///
/// \returns Value that meets number of waves per execution unit requirement
/// if explicitly requested value cannot be converted to integer, violates
/// subtarget's specifications, or does not meet number of waves per execution
/// unit requirement.
unsigned getMaxNumVGPRs(const MachineFunction &MF) const;
void getPostRAMutations(
std::vector<std::unique_ptr<ScheduleDAGMutation>> &Mutations)
const override;
bool isWave32() const {
return WavefrontSize == 32;
}
const TargetRegisterClass *getBoolRC() const {
return getRegisterInfo()->getBoolRC();
}
/// \returns Maximum number of work groups per compute unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
unsigned getMaxWorkGroupsPerCU(unsigned FlatWorkGroupSize) const override {
return AMDGPU::IsaInfo::getMaxWorkGroupsPerCU(this, FlatWorkGroupSize);
}
/// \returns Minimum flat work group size supported by the subtarget.
unsigned getMinFlatWorkGroupSize() const override {
return AMDGPU::IsaInfo::getMinFlatWorkGroupSize(this);
}
/// \returns Maximum flat work group size supported by the subtarget.
unsigned getMaxFlatWorkGroupSize() const override {
return AMDGPU::IsaInfo::getMaxFlatWorkGroupSize(this);
}
/// \returns Maximum number of waves per execution unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
unsigned getMaxWavesPerEU(unsigned FlatWorkGroupSize) const override {
return AMDGPU::IsaInfo::getMaxWavesPerEU(this, FlatWorkGroupSize);
}
/// \returns Minimum number of waves per execution unit supported by the
/// subtarget.
unsigned getMinWavesPerEU() const override {
return AMDGPU::IsaInfo::getMinWavesPerEU(this);
}
};
class R600Subtarget final : public R600GenSubtargetInfo,
public AMDGPUSubtarget {
private:
R600InstrInfo InstrInfo;
R600FrameLowering FrameLowering;
bool FMA;
bool CaymanISA;
bool CFALUBug;
bool HasVertexCache;
bool R600ALUInst;
bool FP64;
short TexVTXClauseSize;
Generation Gen;
R600TargetLowering TLInfo;
InstrItineraryData InstrItins;
SelectionDAGTargetInfo TSInfo;
public:
R600Subtarget(const Triple &TT, StringRef CPU, StringRef FS,
const TargetMachine &TM);
const R600InstrInfo *getInstrInfo() const override { return &InstrInfo; }
const R600FrameLowering *getFrameLowering() const override {
return &FrameLowering;
}
const R600TargetLowering *getTargetLowering() const override {
return &TLInfo;
}
const R600RegisterInfo *getRegisterInfo() const override {
return &InstrInfo.getRegisterInfo();
}
const InstrItineraryData *getInstrItineraryData() const override {
return &InstrItins;
}
// Nothing implemented, just prevent crashes on use.
const SelectionDAGTargetInfo *getSelectionDAGInfo() const override {
return &TSInfo;
}
void ParseSubtargetFeatures(StringRef CPU, StringRef FS);
Generation getGeneration() const {
return Gen;
}
Align getStackAlignment() const { return Align(4); }
R600Subtarget &initializeSubtargetDependencies(const Triple &TT,
StringRef GPU, StringRef FS);
bool hasBFE() const {
return (getGeneration() >= EVERGREEN);
}
bool hasBFI() const {
return (getGeneration() >= EVERGREEN);
}
bool hasBCNT(unsigned Size) const {
if (Size == 32)
return (getGeneration() >= EVERGREEN);
return false;
}
bool hasBORROW() const {
return (getGeneration() >= EVERGREEN);
}
bool hasCARRY() const {
return (getGeneration() >= EVERGREEN);
}
bool hasCaymanISA() const {
return CaymanISA;
}
bool hasFFBL() const {
return (getGeneration() >= EVERGREEN);
}
bool hasFFBH() const {
return (getGeneration() >= EVERGREEN);
}
bool hasFMA() const { return FMA; }
bool hasCFAluBug() const { return CFALUBug; }
bool hasVertexCache() const { return HasVertexCache; }
short getTexVTXClauseSize() const { return TexVTXClauseSize; }
bool enableMachineScheduler() const override {
return true;
}
bool enableSubRegLiveness() const override {
return true;
}
/// \returns Maximum number of work groups per compute unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
unsigned getMaxWorkGroupsPerCU(unsigned FlatWorkGroupSize) const override {
return AMDGPU::IsaInfo::getMaxWorkGroupsPerCU(this, FlatWorkGroupSize);
}
/// \returns Minimum flat work group size supported by the subtarget.
unsigned getMinFlatWorkGroupSize() const override {
return AMDGPU::IsaInfo::getMinFlatWorkGroupSize(this);
}
/// \returns Maximum flat work group size supported by the subtarget.
unsigned getMaxFlatWorkGroupSize() const override {
return AMDGPU::IsaInfo::getMaxFlatWorkGroupSize(this);
}
/// \returns Maximum number of waves per execution unit supported by the
/// subtarget and limited by given \p FlatWorkGroupSize.
unsigned getMaxWavesPerEU(unsigned FlatWorkGroupSize) const override {
return AMDGPU::IsaInfo::getMaxWavesPerEU(this, FlatWorkGroupSize);
}
/// \returns Minimum number of waves per execution unit supported by the
/// subtarget.
unsigned getMinWavesPerEU() const override {
return AMDGPU::IsaInfo::getMinWavesPerEU(this);
}
};
} // end namespace llvm
#endif // LLVM_LIB_TARGET_AMDGPU_AMDGPUSUBTARGET_H
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