2 Commits

Author SHA1 Message Date
Nicolas Vasilache
f826ceef3c Extend vector.outerproduct with an optional 3rd argument
This CL adds an optional third argument to the vector.outerproduct instruction.
When such a third argument is specified, it is added to the result of the outerproduct and  is lowered to FMA intrinsic when the lowering supports it.

In the future, we can add an attribute on the `vector.outerproduct` instruction to modify the operations for which to emit code (e.g. "+/*", "max/+", "min/+", "log/exp" ...).

This CL additionally performs minor cleanups in the vector lowering and adds tests to improve coverage.

This has been independently verified to result in proper fma instructions for haswell as follows.

Input:
```
func @outerproduct_add(%arg0: vector<17xf32>, %arg1: vector<8xf32>, %arg2: vector<17x8xf32>) -> vector<17x8xf32> {
  %2 = vector.outerproduct %arg0, %arg1, %arg2 : vector<17xf32>, vector<8xf32>
  return %2 : vector<17x8xf32>
}
}
```

Command:
```
mlir-opt vector-to-llvm.mlir -vector-lower-to-llvm-dialect --disable-pass-threading | mlir-opt -lower-to-cfg -lower-to-llvm | mlir-translate --mlir-to-llvmir | opt -O3 | llc -O3 -march=x86-64 -mcpu=haswell -mattr=fma,avx2
```

Output:
```
outerproduct_add:                       # @outerproduct_add
# %bb.0:
        ...
        vmovaps 112(%rbp), %ymm8
        vbroadcastss    %xmm0, %ymm0
        ...
        vbroadcastss    64(%rbp), %ymm15
        vfmadd213ps     144(%rbp), %ymm8, %ymm0 # ymm0 = (ymm8 * ymm0) + mem
        ...
        vfmadd213ps     400(%rbp), %ymm8, %ymm9 # ymm9 = (ymm8 * ymm9) + mem
        ...
```
PiperOrigin-RevId: 263743359
2019-08-16 03:53:26 -07:00
Nicolas Vasilache
252ada4932 Add lowering of vector dialect to LLVM dialect.
This CL is step 3/n towards building a simple, programmable and portable vector abstraction in MLIR that can go all the way down to generating assembly vector code via LLVM's opt and llc tools.

This CL adds support for converting MLIR n-D vector types to (n-1)-D arrays of 1-D LLVM vectors and a conversion VectorToLLVM that lowers the `vector.extractelement` and `vector.outerproduct` instructions to the proper mix of `llvm.vectorshuffle`, `llvm.extractelement` and `llvm.mulf`.

This has been independently verified to produce proper avx2 code.

Input:
```
func @vec_1d(%arg0: vector<4xf32>, %arg1: vector<8xf32>) -> vector<8xf32> {
  %2 = vector.outerproduct %arg0, %arg1 : vector<4xf32>, vector<8xf32>
  %3 = vector.extractelement %2[0 : i32]: vector<4x8xf32>
  return %3 : vector<8xf32>
}
```

Command:
```
mlir-opt vector-to-llvm.mlir -vector-lower-to-llvm-dialect --disable-pass-threading | mlir-opt -lower-to-cfg -lower-to-llvm | mlir-translate --mlir-to-llvmir | opt -O3 | llc -O3 -march=x86-64 -mcpu=haswell -mattr=fma,avx2
```

Output:
```
vec_1d:                                 # @vec_1d
# %bb.0:
        vbroadcastss    %xmm0, %ymm0
        vmulps  %ymm1, %ymm0, %ymm0
        retq
```
PiperOrigin-RevId: 262895929
2019-08-12 04:08:57 -07:00