[Triton-MLIR][Backend] Support layout conversion between mmaLayout and blockedLayout (#693)

2022-09-27 11:58:47 +08:00
parent 1e91ed30d0
commit 61b61755e5
6 changed files with 205 additions and 104 deletions
--- a/lib/Conversion/TritonGPUToLLVM/TritonGPUToLLVM.cpp
+++ b/lib/Conversion/TritonGPUToLLVM/TritonGPUToLLVM.cpp
@@ -29,7 +29,9 @@ using namespace mlir;
 using namespace mlir::triton;
 using ::mlir::triton::gpu::BlockedEncodingAttr;
 using ::mlir::triton::gpu::getElemsPerThread;
+using ::mlir::triton::gpu::getOrder;
 using ::mlir::triton::gpu::getShapePerCTA;
+using ::mlir::triton::gpu::getSizePerThread;
 using ::mlir::triton::gpu::MmaEncodingAttr;
 using ::mlir::triton::gpu::SharedEncodingAttr;
 using ::mlir::triton::gpu::SliceEncodingAttr;
@@ -350,6 +352,13 @@ public:
    return threadId;
  }

+  Value createIndexConst(ConversionPatternRewriter &rewriter, Location loc,
+                         int64_t value) const {
+    return rewriter.create<LLVM::ConstantOp>(
+        loc, this->getTypeConverter()->getIndexType(),
+        rewriter.getIntegerAttr(rewriter.getIndexType(), value));
+  }
+
  SmallVector<Value> delinearize(ConversionPatternRewriter &rewriter,
                                 Location loc, Value linear,
                                 ArrayRef<unsigned> shape,
@@ -423,7 +432,7 @@ public:
    auto order = blocked_layout.getOrder();
    unsigned rank = shape.size();

-    // step 1, delinearize threadId to get the base index
+    // delinearize threadId to get the base index
    SmallVector<Value> multiDimWarpId =
        delinearize(rewriter, loc, warpId, warpsPerCTA, order);
    SmallVector<Value> multiDimThreadId =
@@ -455,6 +464,13 @@ public:
    return multiDimBase;
  }

+  SmallVector<Value>
+  emitBaseIndexForBlockedLayout(Location loc, ConversionPatternRewriter &b,
+                                const MmaEncodingAttr &mmaLayout,
+                                ArrayRef<int64_t> shape) const {
+    // ongoing
+  }
+
  SmallVector<SmallVector<Value>> emitIndices(Location loc,
                                              ConversionPatternRewriter &b,
                                              const Attribute &layout,
@@ -1459,9 +1475,11 @@ public:
    auto dstTy = dst.getType().cast<RankedTensorType>();
    Attribute srcLayout = srcTy.getEncoding();
    Attribute dstLayout = dstTy.getEncoding();
-    if ((!srcLayout.isa<BlockedEncodingAttr>()) ||
-        (!dstLayout.isa<BlockedEncodingAttr>())) {
-      // TODO: not implemented
+    if ((!srcLayout.isa<BlockedEncodingAttr>() &&
+         !srcLayout.isa<MmaEncodingAttr>()) ||
+        (!dstLayout.isa<BlockedEncodingAttr>() &&
+         !dstLayout.isa<MmaEncodingAttr>())) {
+      // TODO: to be implemented
      return failure();
    }
    auto llvmElemTy = getTypeConverter()->convertType(dstTy.getElementType());
@@ -1471,31 +1489,6 @@ public:

    auto shape = dstTy.getShape();
    unsigned rank = dstTy.getRank();
-    auto getContigPerThread = [&](const Attribute &layout,
-                                  unsigned d) -> unsigned {
-      if (auto blockedLayout = layout.dyn_cast<BlockedEncodingAttr>()) {
-        return blockedLayout.getSizePerThread()[d];
-      } else {
-        assert(0 && "Unimplemented usage of getContigPerThread");
-        return 0;
-      }
-    };
-    auto getAccumElemsPerThread = [&](const Attribute &layout) -> unsigned {
-      if (auto blockedLayout = layout.dyn_cast<BlockedEncodingAttr>()) {
-        return product<unsigned>(blockedLayout.getSizePerThread());
-      } else {
-        assert(0 && "Unimplemented usage of getAccumElemsPerThread");
-        return 0;
-      }
-    };
-    auto getOrder = [&](const Attribute &layout) -> ArrayRef<unsigned> {
-      if (auto blockedLayout = layout.dyn_cast<BlockedEncodingAttr>()) {
-        return blockedLayout.getOrder();
-      } else {
-        assert(0 && "Unimplemented usage of getAccumElemsPerThread");
-        return {};
-      }
-    };
    SmallVector<unsigned> numReplicates(rank);
    SmallVector<unsigned> inNumCTAsEachRep(rank);
    SmallVector<unsigned> outNumCTAsEachRep(rank);
@@ -1517,7 +1510,6 @@ public:
    }
    // Potentially we need to store for multiple CTAs in this replication
    unsigned accumNumReplicates = product<unsigned>(numReplicates);
-    unsigned accumInSizePerThread = getAccumElemsPerThread(srcLayout);
    unsigned elems = getElemsPerThread(srcLayout, srcTy.getShape());
    auto vals = getElementsFromStruct(loc, adaptor.src(), elems, rewriter);
    unsigned inVec = 0;
@@ -1530,19 +1522,21 @@ public:
    for (unsigned repId = 0; repId < accumNumReplicates; ++repId) {
      auto multiDimRepId = getMultiDimIndex<unsigned>(repId, numReplicates);
      rewriter.create<mlir::gpu::BarrierOp>(loc);
-      if (auto srcBlockedLayout = srcLayout.dyn_cast<BlockedEncodingAttr>()) {
-        processReplicaBlocked(loc, rewriter, /*stNotRd*/ true, srcTy,
-                              inNumCTAsEachRep, multiDimRepId, inVec,
-                              paddedRepShape, outOrd, vals, smemBase);
+      if (srcLayout.isa<BlockedEncodingAttr>() ||
+          srcLayout.isa<MmaEncodingAttr>()) {
+        processReplica(loc, rewriter, /*stNotRd*/ true, srcTy, inNumCTAsEachRep,
+                       multiDimRepId, inVec, paddedRepShape, outOrd, vals,
+                       smemBase);
      } else {
        assert(0 && "ConvertLayout with input layout not implemented");
        return failure();
      }
      rewriter.create<mlir::gpu::BarrierOp>(loc);
-      if (auto dstBlockedLayout = dstLayout.dyn_cast<BlockedEncodingAttr>()) {
-        processReplicaBlocked(loc, rewriter, /*stNotRd*/ false, dstTy,
-                              outNumCTAsEachRep, multiDimRepId, outVec,
-                              paddedRepShape, outOrd, outVals, smemBase);
+      if (dstLayout.isa<BlockedEncodingAttr>() ||
+          dstLayout.isa<MmaEncodingAttr>()) {
+        processReplica(loc, rewriter, /*stNotRd*/ false, dstTy,
+                       outNumCTAsEachRep, multiDimRepId, outVec, paddedRepShape,
+                       outOrd, outVals, smemBase);
      } else {
        assert(0 && "ConvertLayout with output layout not implemented");
        return failure();
@@ -1568,30 +1562,58 @@ private:
    return result;
  };

-  void processReplicaBlocked(Location loc, ConversionPatternRewriter &rewriter,
-                             bool stNotRd, RankedTensorType type,
-                             ArrayRef<unsigned> numCTAsEachRep,
-                             ArrayRef<unsigned> multiDimRepId, unsigned vec,
-                             ArrayRef<unsigned> paddedRepShape,
-                             ArrayRef<unsigned> outOrd,
-                             SmallVector<Value> &vals, Value smemBase) const {
+  // shared memory access for blocked or mma layout
+  void processReplica(Location loc, ConversionPatternRewriter &rewriter,
+                      bool stNotRd, RankedTensorType type,
+                      ArrayRef<unsigned> numCTAsEachRep,
+                      ArrayRef<unsigned> multiDimRepId, unsigned vec,
+                      ArrayRef<unsigned> paddedRepShape,
+                      ArrayRef<unsigned> outOrd, SmallVector<Value> &vals,
+                      Value smemBase) const {
    unsigned accumNumCTAsEachRep = product<unsigned>(numCTAsEachRep);
-    auto layout = type.getEncoding().cast<BlockedEncodingAttr>();
+    auto layout = type.getEncoding();
+    auto blockedLayout = layout.dyn_cast<BlockedEncodingAttr>();
+    auto mmaLayout = layout.dyn_cast<MmaEncodingAttr>();
    auto rank = type.getRank();
-    auto sizePerThread = layout.getSizePerThread();
+    auto sizePerThread = getSizePerThread(layout);
    auto accumSizePerThread = product<unsigned>(sizePerThread);
    auto llvmIndexTy = getTypeConverter()->getIndexType();
    SmallVector<unsigned> numCTAs(rank);
    SmallVector<unsigned> shapePerCTA(rank);
    for (unsigned d = 0; d < rank; ++d) {
-      shapePerCTA[d] = layout.getSizePerThread()[d] *
-                       layout.getThreadsPerWarp()[d] *
-                       layout.getWarpsPerCTA()[d];
+      shapePerCTA[d] = getShapePerCTA(layout, d);
      numCTAs[d] = ceil<unsigned>(type.getShape()[d], shapePerCTA[d]);
    }
    auto llvmElemTy = getTypeConverter()->convertType(type.getElementType());
-    auto multiDimOffsetFirstElem =
-        emitBaseIndexForBlockedLayout(loc, rewriter, layout, type.getShape());
+    SmallVector<Value> multiDimOffsetFirstElem;
+    Value mmaGrpId;
+    Value mmaGrpIdP8;
+    Value mmaThreadIdInGrpM2;
+    Value mmaThreadIdInGrpM2P1;
+    if (blockedLayout) {
+      multiDimOffsetFirstElem = emitBaseIndexForBlockedLayout(
+          loc, rewriter, blockedLayout, type.getShape());
+    } else if (mmaLayout) {
+      // TODO: simplify these
+      auto cast = rewriter.create<UnrealizedConversionCastOp>(
+          loc, TypeRange{llvmIndexTy},
+          ValueRange{rewriter.create<::mlir::gpu::ThreadIdOp>(
+              loc, rewriter.getIndexType(), ::mlir::gpu::Dimension::x)});
+      Value threadId = cast.getResult(0);
+      Value warpSize = createIndexAttrConstant(
+          rewriter, loc, this->getTypeConverter()->getIndexType(), 32);
+      Value laneId = rewriter.create<LLVM::URemOp>(loc, threadId, warpSize);
+      Value fourVal = createIndexConst(rewriter, loc, 4);
+      mmaGrpId = rewriter.create<LLVM::UDivOp>(loc, laneId, fourVal);
+      mmaGrpIdP8 = rewriter.create<LLVM::AddOp>(
+          loc, mmaGrpId, createIndexConst(rewriter, loc, 8));
+      Value mmaThreadIdInGrp =
+          rewriter.create<LLVM::URemOp>(loc, laneId, fourVal);
+      mmaThreadIdInGrpM2 = rewriter.create<LLVM::MulOp>(
+          loc, mmaThreadIdInGrp, createIndexConst(rewriter, loc, 2));
+      mmaThreadIdInGrpM2P1 = rewriter.create<LLVM::AddOp>(
+          loc, mmaThreadIdInGrpM2, createIndexConst(rewriter, loc, 1));
+    }
    for (unsigned ctaId = 0; ctaId < accumNumCTAsEachRep; ++ctaId) {
      auto multiDimCTAInRepId =
          getMultiDimIndex<unsigned>(ctaId, numCTAsEachRep);
@@ -1605,18 +1627,27 @@ private:
      // TODO: This is actually redundant index calculation, we should
      //       consider of caching the index calculation result in case
      //       of performance issue observed.
-      // for (unsigned elemId = linearCTAId * accumSizePerThread;
-      //      elemId < (linearCTAId + 1) * accumSizePerThread; elemId += vec) {
      for (unsigned elemId = 0; elemId < accumSizePerThread; elemId += vec) {
-        auto multiDimElemId =
-            getMultiDimIndex<unsigned>(elemId, layout.getSizePerThread());
        SmallVector<Value> multiDimOffset(rank);
-        for (unsigned d = 0; d < rank; ++d) {
-          multiDimOffset[d] = add(
-              multiDimOffsetFirstElem[d],
-              createIndexAttrConstant(rewriter, loc, llvmIndexTy,
-                                      multiDimCTAInRepId[d] * shapePerCTA[d] +
-                                          multiDimElemId[d]));
+        if (blockedLayout) {
+          SmallVector<unsigned> multiDimElemId = getMultiDimIndex<unsigned>(
+              elemId, blockedLayout.getSizePerThread());
+          for (unsigned d = 0; d < rank; ++d) {
+            multiDimOffset[d] = rewriter.create<LLVM::AddOp>(
+                loc, multiDimOffsetFirstElem[d],
+                createIndexAttrConstant(rewriter, loc, llvmIndexTy,
+                                        multiDimCTAInRepId[d] * shapePerCTA[d] +
+                                            multiDimElemId[d]));
+          }
+        } else if (mmaLayout) {
+          assert(rank == 2);
+          assert(mmaLayout.getVersion() == 2 &&
+                 "mmaLayout ver1 not implemented yet");
+          multiDimOffset[0] = elemId < 2 ? mmaGrpId : mmaGrpIdP8;
+          multiDimOffset[1] =
+              elemId % 2 == 0 ? mmaThreadIdInGrpM2 : mmaThreadIdInGrpM2P1;
+        } else {
+          assert(0 && "unexpected layout in processReplica");
        }
        Value offset =
            linearize(rewriter, loc, reorder<Value>(multiDimOffset, outOrd),
@@ -2517,16 +2548,14 @@ public:

  llvm::Optional<Type> convertTritonTensorType(RankedTensorType type) {
    Attribute layout = type.getEncoding();
-    if (layout && (layout.isa<BlockedEncodingAttr>() ||
-                   layout.isa<SliceEncodingAttr>())) {
+    if (layout &&
+        (layout.isa<BlockedEncodingAttr>() || layout.isa<SliceEncodingAttr>() ||
+         layout.isa<MmaEncodingAttr>())) {
      unsigned numElementsPerThread =
          getElemsPerThread(layout, type.getShape());
      SmallVector<Type, 4> types(numElementsPerThread,
                                 convertType(type.getElementType()));
      return LLVM::LLVMStructType::getLiteral(&getContext(), types);
-    } else if (auto mma_layout = layout.dyn_cast_or_null<MmaEncodingAttr>()) {
-      // TODO: Not implemented
-      return type;
    } else if (auto shared_layout =
                   layout.dyn_cast_or_null<SharedEncodingAttr>()) {
      return LLVM::LLVMPointerType::get(convertType(type.getElementType()), 3);