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[MFMA] MFMA 4x64 64x4 version 2 #539

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29 changes: 26 additions & 3 deletions include/triton/Dialect/TritonGPU/IR/TritonGPUAttrDefs.td
Original file line number Diff line number Diff line change
Expand Up @@ -131,6 +131,7 @@ compared to 1*64 when the hasLeadingOffset is false.

if (mfmaEnc) {
int kDimNum = dotOpEnc.getOpIdx() == 0 ? 1 : 0;
int nonKDimNum = 1 - kDimNum;
if (needTrans)
kDimNum = 1 - kDimNum;
bool isKDimInner = (order[0] == kDimNum);
Expand All @@ -143,17 +144,39 @@ compared to 1*64 when the hasLeadingOffset is false.
int innerDimLength = shape[order[0]];
int elemsPerOneBanksRow = (numBanks * bankBitWidth) / typeWidthInBit;

int mDim = mfmaEnc.getMDim();
int nDim = mfmaEnc.getNDim();
int nonKDim = dotOpEnc.getOpIdx() == 0 ? mDim : nDim;
if ((mDim == 4 && nDim == 64) || (nDim == 4 && mDim == 64)) {
// Operands of the layout have following shapes
// Large operand:
// - shape 64(non-k)x64(k) for 16 bit dtypes
// - shape 64(non-k)x16(k) for 32 bit dtypes
// Small operand:
// - shape 4(non-k)x64(k) for 16 bit dtypes
// - shape 4(non-k)x16(k) for 32 bit dtypes
const int vecSize = bankBitWidth / typeWidthInBit;
const int perPhase = std::max(1, numBanks / innerDimLength);
const int maxPhase = std::min(numBanks, nonKDim) / perPhase;
return get(context, vecSize, perPhase, maxPhase, order, CTALayout);
}
int perPhase = std::max(1, elemsPerOneBanksRow / innerDimLength);
// vecSize is set to kWidth of the dotop layout
int vecSize = dotOpEnc.getKWidth();
// maxPhase is set to SIMDWidth / perPhase
int maxPhase = std::min(SIMDWidth / perPhase, innerDimLength / vecSize);
// TODO (zhanglx): figure out better parameters for mfma4
auto mDim = mfmaEnc.getMDim();
auto nDim = mfmaEnc.getNDim();
auto nonKDim = dotOpEnc.getOpIdx() == 0 ? mDim : nDim;
if (4 == nonKDim)
maxPhase = 4;
// if maxPhase * perPhase is larger than one block of warps,
// fallback to unswizzled tensor.
// Shared to dot op conversion requires that swizzling patern
// fits into one block of warps.
auto warpsPerCTA = mfmaEnc.getWarpsPerCTA();
if (maxPhase * perPhase > nonKDim * warpsPerCTA[nonKDimNum]) {
assert(isKDimInner);
maxPhase = 1;
}
assert(maxPhase > 0);

return get(context, vecSize, perPhase, maxPhase, order, CTALayout);
Expand Down
6 changes: 4 additions & 2 deletions include/triton/Dialect/TritonGPU/Transforms/Utility.h
Original file line number Diff line number Diff line change
Expand Up @@ -175,7 +175,8 @@ struct MfmaInsnAttr {
unsigned n;
unsigned k;
// k_base refers to the number of elements per thread
unsigned k_base;
unsigned k_base_a;
unsigned k_base_b;
llvm::StringRef insn;
};

Expand Down Expand Up @@ -223,7 +224,8 @@ class MfmaInsn {
unsigned getMDim();
unsigned getNDim();
StringRef getInsnName();
unsigned getKBase();
unsigned getKBaseA();
unsigned getKBaseB();
};
} // namespace mlir

Expand Down
3 changes: 2 additions & 1 deletion lib/Analysis/Utility.cpp
Original file line number Diff line number Diff line change
Expand Up @@ -571,7 +571,8 @@ bool isMfmaToDotShortcut(RankedTensorType &srcTy, RankedTensorType &dstTy) {
dotOperandLayout.getOpIdx() == 0 &&
dotOperandLayout.getKWidth() == 4 &&
dotOperandLayout.getParent() == mfmaLayout &&
(mfmaLayout.getMDim() == 32 || mfmaLayout.getMDim() == 16) &&
(mfmaLayout.getMDim() == 32 || mfmaLayout.getMDim() == 16 ||
(mfmaLayout.getMDim() == 4 && mfmaLayout.getNDim() == 64)) &&
mfmaLayout.getIsTransposed() &&
(srcTy.getElementType().isF16() || srcTy.getElementType().isBF16());
}
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -158,14 +158,12 @@ llvm::SmallVector<llvm::SmallVector<Value>> computeTensorElemMappingInBlock(
if (iNonKDim == 32)
laneHOffset = select(icmp_uge(laneId, _32), i32_val(numOfElems), _0);
else {
// In this configuration wave contains 16 copies of same data
if ((iKDim == 1 || iKDim == 4) && iNonKDim == 4) {
// shortcut for 64x64 tile size.
// In this case warp do not wrap, so no need to introduce this offset
if (iNonKDim == 64)
laneHOffset = i32_val(0);
} else {
assert(iKDim * iNonKDim / numOfElems == 64 &&
"seems no all threads in wave contain unique elements");
else
laneHOffset = mul(udiv(laneId, nonKDim), i32_val(numOfElems));
}
}

for (int loadId = 0; loadId < loadsPerThread; ++loadId) {
Expand Down Expand Up @@ -346,7 +344,7 @@ fastPathComputeOffsets(ConversionPatternRewriter &rewriter, Location loc,
// 32 33 34 35 ... 63
// 32 33 34 35 ... 63
Value halfOffset;
if ((iKDim == 1 || iKDim == 4) && iNonKDim == 4)
if (iNonKDim == 64)
halfOffset = i32_val(0);
else
halfOffset =
Expand Down Expand Up @@ -456,6 +454,8 @@ Value convertLayout(int opIdx, ConversionPatternRewriter &rewriter,
int numSubBlocks = 1;
if ((mfmaInstrK == 4 || mfmaInstrK == 1) && mfmaInstrNonK == 4)
numSubBlocks = 16;
assert(numSubBlocks == 1 &&
"after reworking layout, there should be no redundency");
int numOfElems = mfmaInstrNonK * mfmaInstrK * numSubBlocks / iWaveSize;
assert(numOfElems >= 1);

Expand Down
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