Index: mlir/include/mlir/Dialect/Vector/VectorOps.td
===================================================================
--- mlir/include/mlir/Dialect/Vector/VectorOps.td
+++ mlir/include/mlir/Dialect/Vector/VectorOps.td
@@ -457,6 +457,71 @@
   }];
 }
 
+def Vector_ExtractMapOp :
+  Vector_Op<"extract_map", [NoSideEffect]>,
+    Arguments<(ins AnyVector:$vector, Index:$id, I64Attr:$multiplicity)>,
+    Results<(outs AnyVector)> {
+  let summary = "vector extract map operation";
+  let description = [{
+    Takes an 1-D vector and extract a sub-part of the vector starting at id with
+    a size of `vector size / multiplicity`. This maps a given multiplicity of
+    the vector to a Value such as a loop induction variable or an SPMD id.
+
+    Similarly to vector.tuple_get, this operation is used for progressive
+    lowering and should be folded away before converting to LLVM.
+
+
+    For instance, the following code:
+    ```mlir
+    %a = vector.transfer_read %A[%c0]: memref<32xf32>, vector<32xf32>
+    %b = vector.transfer_read %B[%c0]: memref<32xf32>, vector<32xf32>
+    %c = addf %a, %b: vector<32xf32>
+    vector.transfer_write %c, %C[%c0]: memref<32xf32>, vector<32xf32>
+    ```
+    can be rewritten to:
+    ```mlir
+    %a = vector.transfer_read %A[%c0]: memref<32xf32>, vector<32xf32>
+    %b = vector.transfer_read %B[%c0]: memref<32xf32>, vector<32xf32>
+    %ea = vector.extract_map %a[%id : 32] : vector<32xf32> to vector<1xf32>
+    %eb = vector.extract_map %b[%id : 32] : vector<32xf32> to vector<1xf32>
+    %ec = addf %ea, %eb : vector<1xf32>
+    %c = vector.insert_map %ec, %id, 32 : vector<1xf32> to vector<32xf32>
+    vector.transfer_write %c, %C[%c0]: memref<32xf32>, vector<32xf32>
+    ```
+
+    Where %id can be an induction variable or an SPMD id going from 0 to 31.
+
+    And then be rewritten to:
+    ```mlir
+    %a = vector.transfer_read %A[%id]: memref<32xf32>, vector<1xf32>
+    %b = vector.transfer_read %B[%id]: memref<32xf32>, vector<1xf32>
+    %c = addf %a, %b: vector<1xf32>
+    vector.transfer_write %c, %C[%id]: memref<32xf32>, vector<1xf32>
+    ```
+
+    Example:
+
+    ```mlir
+    %ev = vector.extract_map %v[%id:32] : vector<32xf32> to vector<1xf32>
+    ```
+  }];
+  let builders = [OpBuilder<
+    "OpBuilder &builder, OperationState &result, " #
+    "Value vector, Value id, int64_t multiplicity">];
+  let extraClassDeclaration = [{
+    VectorType getSourceVectorType() {
+      return vector().getType().cast<VectorType>();
+    }
+    VectorType getResultType() {
+      return getResult().getType().cast<VectorType>();
+    }
+  }];
+  let assemblyFormat = [{
+    $vector `[` $id `:` $multiplicity `]` attr-dict `:` type($vector) `to`
+    type(results)
+  }];
+}
+
 def Vector_FMAOp :
   Op<Vector_Dialect, "fma", [NoSideEffect,
                              AllTypesMatch<["lhs", "rhs", "acc", "result"]>]>,
@@ -632,6 +697,46 @@
   }];
 }
 
+def Vector_InsertMapOp :
+  Vector_Op<"insert_map", [NoSideEffect]>,
+    Arguments<(ins AnyVector:$vector, Index:$id, I64Attr:$multiplicity)>,
+    Results<(outs AnyVector)> {
+  let summary = "vector insert map operation";
+  let description = [{
+    insert an 1-D vector and within a larger vector starting at id. The new
+    vector created will have a size of `vector size * multiplicity`. This
+    represents how a sub-part of the vector is written for a given Value such as
+    a loop induction variable or an SPMD id.
+
+    Similarly to vector.tuple_get, this operation is used for progressive
+    lowering and should be folded away before converting to LLVM.
+
+    This operations is meant to be used in combination with vector.extract_map.
+    See example in extract.map description.
+
+    Example:
+
+    ```mlir
+    %v = vector.insert_map %ev, %id, 32 : vector<1xf32> to vector<32xf32>
+    ```
+  }];
+  let builders = [OpBuilder<
+    "OpBuilder &builder, OperationState &result, " #
+    "Value vector, Value id, int64_t multiplicity">];
+  let extraClassDeclaration = [{
+    VectorType getSourceVectorType() {
+      return vector().getType().cast<VectorType>();
+    }
+    VectorType getResultType() {
+      return getResult().getType().cast<VectorType>();
+    }
+  }];
+  let assemblyFormat = [{
+    $vector `,` $id `,` $multiplicity attr-dict `:` type($vector) `to`
+    type(results)
+  }];
+}
+
 def Vector_InsertStridedSliceOp :
   Vector_Op<"insert_strided_slice", [NoSideEffect,
     PredOpTrait<"operand #0 and result have same element type",
Index: mlir/include/mlir/Dialect/Vector/VectorTransforms.h
===================================================================
--- mlir/include/mlir/Dialect/Vector/VectorTransforms.h
+++ mlir/include/mlir/Dialect/Vector/VectorTransforms.h
@@ -172,6 +172,41 @@
   FilterConstraintType filter;
 };
 
+/// Distribute a 1D vector pointwise operation over a range of given IDs going
+/// from 0 to dimension. This transformation only inserts
+/// vector.extract_map/vector.insert_map. It is meant to be used with
+/// canonicalizations pattern to propagate and fold the vector
+/// insert_map/extract_map operations.
+/// Transforms:
+/// %v = addf %a, %b : vector<32xf32>
+/// to:
+/// %v = addf %a, %b : vector<32xf32>
+/// %ev = vector.extract_map %v, %id, 32 : vector<32xf32> into vector<1xf32>
+/// %nv = vector.insert_map %ev, %id, 32 : vector<1xf32> into vector<32xf32>
+void distributPointwiseVectorOp(OpBuilder &builder, Operation *op, Value id,
+                                int64_t dimension, ExtractMapOp &extract,
+                                InsertMapOp &insert);
+/// Canonicalize an extra element using the result of a pointwise operation.
+/// Transforms:
+/// %v = addf %a, %b : vector32xf32>
+/// %dv = vector.extract_map %v, %id, 32 : vector<32xf32> into vector<1xf32>
+/// to:
+/// %da = vector.extract_map %a, %id, 32 : vector<32xf32> into vector<1xf32>
+/// %db = vector.extract_map %a, %id, 32 : vector<32xf32> into vector<1xf32>
+/// %dv = addf %da, %db : vector<1xf32>
+struct PointwiseExtractPattern : public OpRewritePattern<ExtractMapOp> {
+  using FilterConstraintType = std::function<LogicalResult(ExtractMapOp op)>;
+  PointwiseExtractPattern(
+      MLIRContext *context, FilterConstraintType constraint =
+                                [](ExtractMapOp op) { return success(); })
+      : OpRewritePattern<ExtractMapOp>(context), filter(constraint) {}
+  LogicalResult matchAndRewrite(ExtractMapOp extract,
+                                PatternRewriter &rewriter) const override;
+
+private:
+  FilterConstraintType filter;
+};
+
 } // namespace vector
 
 //===----------------------------------------------------------------------===//
Index: mlir/lib/Dialect/Vector/VectorOps.cpp
===================================================================
--- mlir/lib/Dialect/Vector/VectorOps.cpp
+++ mlir/lib/Dialect/Vector/VectorOps.cpp
@@ -901,6 +901,29 @@
 }
 
 //===----------------------------------------------------------------------===//
+// ExtractMapOp
+//===----------------------------------------------------------------------===//
+
+void ExtractMapOp::build(OpBuilder &builder, OperationState &result,
+                         Value vector, Value id, int64_t dimension) {
+  VectorType type = vector.getType().cast<VectorType>();
+  VectorType resultType =
+      VectorType::get(type.getNumElements() / dimension, type.getElementType());
+  ExtractMapOp::build(builder, result, resultType, vector, id, dimension);
+}
+
+static LogicalResult verify(ExtractMapOp op) {
+  if (op.getSourceVectorType().getShape().size() != 1 ||
+      op.getResultType().getShape().size() != 1)
+    return op.emitOpError("expects source and destination vectors of rank 1");
+  if (op.getResultType().getNumElements() * (int64_t)op.multiplicity() !=
+      op.getSourceVectorType().getNumElements())
+    return op.emitOpError("vector sizes mismatch. Source size must be equal "
+                          "to destination size * dimension");
+  return success();
+}
+
+//===----------------------------------------------------------------------===//
 // BroadcastOp
 //===----------------------------------------------------------------------===//
 
@@ -1123,6 +1146,30 @@
 }
 
 //===----------------------------------------------------------------------===//
+// InsertMapOp
+//===----------------------------------------------------------------------===//
+
+void InsertMapOp::build(OpBuilder &builder, OperationState &result,
+                        Value vector, Value id, int64_t dimension) {
+  VectorType type = vector.getType().cast<VectorType>();
+  VectorType resultType =
+      VectorType::get(type.getNumElements() * dimension, type.getElementType());
+  InsertMapOp::build(builder, result, resultType, vector, id, dimension);
+}
+
+static LogicalResult verify(InsertMapOp op) {
+  if (op.getSourceVectorType().getShape().size() != 1 ||
+      op.getResultType().getShape().size() != 1)
+    return op.emitOpError("expected source and destination vectors of rank 1");
+  if ((int64_t)op.multiplicity() * op.getSourceVectorType().getNumElements() !=
+      op.getResultType().getNumElements())
+    return op.emitOpError(
+        "vector sizes mismatch. Destination size must be equal "
+        "to source size * dimension");
+  return success();
+}
+
+//===----------------------------------------------------------------------===//
 // InsertStridedSliceOp
 //===----------------------------------------------------------------------===//
 
Index: mlir/lib/Dialect/Vector/VectorTransforms.cpp
===================================================================
--- mlir/lib/Dialect/Vector/VectorTransforms.cpp
+++ mlir/lib/Dialect/Vector/VectorTransforms.cpp
@@ -2421,6 +2421,38 @@
   return failure();
 }
 
+LogicalResult mlir::vector::PointwiseExtractPattern::matchAndRewrite(
+    ExtractMapOp extract, PatternRewriter &rewriter) const {
+  Operation *definedOp = extract.vector().getDefiningOp();
+  if (!definedOp || definedOp->getNumResults() != 1)
+    return failure();
+  // TODO: Create an interfaceOp for elementwise operations.
+  if (!isa<AddFOp>(definedOp))
+    return failure();
+  Location loc = extract.getLoc();
+  SmallVector<Value, 4> extractOperands;
+  for (OpOperand &operand : definedOp->getOpOperands())
+    extractOperands.push_back(rewriter.create<vector::ExtractMapOp>(
+        loc, operand.get(), extract.id(), extract.multiplicity()));
+  Operation *newOp = cloneOpWithOperandsAndTypes(
+      rewriter, loc, definedOp, extractOperands, extract.getResult().getType());
+  rewriter.replaceOp(extract, newOp->getResult(0));
+  return success();
+}
+
+void mlir::vector::distributPointwiseVectorOp(OpBuilder &builder, Operation *op,
+                                              Value id, int64_t dimension,
+                                              ExtractMapOp &extract,
+                                              InsertMapOp &insert) {
+  OpBuilder::InsertionGuard guard(builder);
+  builder.setInsertionPointAfter(op);
+  Location loc = op->getLoc();
+  Value result = op->getResult(0);
+  SmallVector<Operation *, 2> opCreated;
+  extract = builder.create<vector::ExtractMapOp>(loc, result, id, dimension);
+  insert = builder.create<vector::InsertMapOp>(loc, extract, id, dimension);
+}
+
 // TODO: Add pattern to rewrite ExtractSlices(ConstantMaskOp).
 // TODO: Add this as DRR pattern.
 void mlir::vector::populateVectorToVectorTransformationPatterns(
Index: mlir/test/Dialect/Vector/invalid.mlir
===================================================================
--- mlir/test/Dialect/Vector/invalid.mlir
+++ mlir/test/Dialect/Vector/invalid.mlir
@@ -1328,3 +1328,31 @@
   // expected-error@+1 {{'vector.compressstore' op expected value dim to match mask dim}}
   vector.compressstore %base, %mask, %value : memref<?xf32>, vector<17xi1>, vector<16xf32>
 }
+
+// -----
+
+func @extract_map_rank(%v: vector<2x32xf32>, %id : index) {
+  // expected-error@+1 {{'vector.extract_map' op expects source and destination vectors of rank 1}}
+  %0 = vector.extract_map %v[%id : 32] : vector<2x32xf32> to vector<2x1xf32>
+}
+
+// -----
+
+func @extract_map_size(%v: vector<63xf32>, %id : index) {
+  // expected-error@+1 {{'vector.extract_map' op vector sizes mismatch. Source size must be equal to destination size * dimension}}
+  %0 = vector.extract_map %v[%id : 32] : vector<63xf32> to vector<2xf32>
+}
+
+// -----
+
+func @insert_map_rank(%v: vector<2x1xf32>, %id : index) {
+  // expected-error@+1 {{'vector.insert_map' op expected source and destination vectors of rank 1}}
+  %0 = vector.insert_map %v, %id, 32 : vector<2x1xf32> to vector<2x32xf32>
+}
+
+// -----
+
+func @insert_map_size(%v: vector<1xf32>, %id : index) {
+  // expected-error@+1 {{'vector.insert_map' op vector sizes mismatch. Destination size must be equal to source size * dimension}}
+  %0 = vector.insert_map %v, %id, 32 : vector<1xf32> to vector<64xf32>
+}
Index: mlir/test/Dialect/Vector/ops.mlir
===================================================================
--- mlir/test/Dialect/Vector/ops.mlir
+++ mlir/test/Dialect/Vector/ops.mlir
@@ -432,3 +432,14 @@
   vector.compressstore %base, %mask, %0 : memref<?xf32>, vector<16xi1>, vector<16xf32>
   return
 }
+
+// CHECK-LABEL: @extract_insert_map
+func @extract_insert_map(%v: vector<32xf32>, %id : index) -> vector<32xf32> {
+  // CHECK: %[[V:.*]] = vector.extract_map %{{.*}}[%{{.*}} : 16] : vector<32xf32> to vector<2xf32>
+  %vd = vector.extract_map %v[%id : 16] : vector<32xf32> to vector<2xf32>
+  // CHECK: %[[R:.*]] = vector.insert_map %[[V]], %{{.*}}, 16 : vector<2xf32> to vector<32xf32>
+  %r = vector.insert_map %vd, %id, 16 : vector<2xf32> to vector<32xf32>
+  // CHECK: return %[[R]] : vector<32xf32>
+  return %r : vector<32xf32>
+}
+
Index: mlir/test/Dialect/Vector/vector-distribution.mlir
===================================================================
--- /dev/null
+++ mlir/test/Dialect/Vector/vector-distribution.mlir
@@ -0,0 +1,13 @@
+// RUN: mlir-opt %s -test-vector-distribute-patterns | FileCheck %s
+
+// CHECK-LABEL: func @distribute_vector_add
+//  CHECK-SAME: (%[[ID:.*]]: index
+//  CHECK-NEXT:    %[[EXA:.*]] = vector.extract_map %{{.*}}[%[[ID]] : 32] : vector<32xf32> to vector<1xf32>
+//  CHECK-NEXT:    %[[EXB:.*]] = vector.extract_map %{{.*}}[%[[ID]] : 32] : vector<32xf32> to vector<1xf32>
+//  CHECK-NEXT:    %[[ADD:.*]] = addf %[[EXA]], %[[EXB]] : vector<1xf32>
+//  CHECK-NEXT:    %[[INS:.*]] = vector.insert_map %[[ADD]], %[[ID]], 32 : vector<1xf32> to vector<32xf32>
+//  CHECK-NEXT:    return %[[INS]] : vector<32xf32>
+func @distribute_vector_add(%id : index, %A: vector<32xf32>, %B: vector<32xf32>) -> vector<32xf32> {
+  %0 = addf %A, %B : vector<32xf32>
+  return %0: vector<32xf32>
+}
Index: mlir/test/lib/Transforms/TestVectorTransforms.cpp
===================================================================
--- mlir/test/lib/Transforms/TestVectorTransforms.cpp
+++ mlir/test/lib/Transforms/TestVectorTransforms.cpp
@@ -125,6 +125,30 @@
   }
 };
 
+struct TestVectorDistributePatterns
+    : public PassWrapper<TestVectorDistributePatterns, FunctionPass> {
+  void getDependentDialects(DialectRegistry &registry) const override {
+    registry.insert<VectorDialect>();
+  }
+  void runOnFunction() override {
+    MLIRContext *ctx = &getContext();
+    OwningRewritePatternList patterns;
+    FuncOp func = getFunction();
+    func.walk([&](AddFOp op) {
+      OpBuilder builder(op);
+      vector::ExtractMapOp extract = nullptr;
+      vector::InsertMapOp insert = nullptr;
+      distributPointwiseVectorOp(builder, op.getOperation(),
+                                 func.getArgument(0), 32, extract, insert);
+      assert(extract && insert);
+      SmallPtrSet<Operation *, 1> extractOp({extract});
+      op.getResult().replaceAllUsesExcept(insert.getResult(), extractOp);
+    });
+    patterns.insert<PointwiseExtractPattern>(ctx);
+    applyPatternsAndFoldGreedily(getFunction(), patterns);
+  }
+};
+
 struct TestVectorTransferFullPartialSplitPatterns
     : public PassWrapper<TestVectorTransferFullPartialSplitPatterns,
                          FunctionPass> {
@@ -178,5 +202,9 @@
       vectorTransformFullPartialPass("test-vector-transfer-full-partial-split",
                                      "Test conversion patterns to split "
                                      "transfer ops via scf.if + linalg ops");
+  PassRegistration<TestVectorDistributePatterns> distributePass(
+      "test-vector-distribute-patterns",
+      "Test conversion patterns to distribute vector ops in the vector "
+      "dialect");
 }
 } // namespace mlir