blas_impl.hip.h 62.6 KB
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//   Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

#pragma once

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#include "gflags/gflags.h"

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#include "paddle/phi/backends/dynload/rocblas.h"
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#include "paddle/phi/backends/gpu/gpu_context.h"
#include "paddle/phi/kernels/funcs/math_function.h"
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DECLARE_bool(enable_cublas_tensor_op_math);

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namespace phi {
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namespace funcs {

template <typename T>
struct CUBlas;

template <>
struct CUBlas<float> {
  template <typename... ARGS>
  static void GEMM(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_sgemm(args...));
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  }

  template <typename... ARGS>
  static void AXPY(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_saxpy(args...));
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  }

  template <typename... ARGS>
  static void SCAL(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_sscal(args...));
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  }

  template <typename... ARGS>
  static void VCOPY(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_scopy(args...));
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  }

  template <typename... ARGS>
  static void GEMV(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_sgemv(args...));
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  }

  template <typename... ARGS>
  static void GEMM_STRIDED_BATCH(ARGS... args) {
    PADDLE_ENFORCE_GPU_SUCCESS(
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        phi::dynload::rocblas_sgemm_strided_batched(args...));
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  }

  // HIP not supportted, refer to the doc here:
  // https://github.com/ROCm-Developer-Tools/HIP/blob/roc-3.5.x/docs/markdown/CUBLAS_API_supported_by_HIP.md
  template <typename... ARGS>
  static void GEMM_EX(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasSgemmEx is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void TRSM(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_strsm(args...));
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  }

  template <typename... ARGS>
  static void GETRF_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasSgetrfBatched is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void GETRI_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasSgetriBatched is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void MATINV_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasSmatinvBatched is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void TRSM_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasStrsmBatched is not supported on HIP platform."));
  }
};

template <>
struct CUBlas<double> {
  template <typename... ARGS>
  static void GEMM(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_dgemm(args...));
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  }

  template <typename... ARGS>
  static void AXPY(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_daxpy(args...));
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  }

  template <typename... ARGS>
  static void SCAL(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_dscal(args...));
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  }

  template <typename... ARGS>
  static void VCOPY(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_dcopy(args...));
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  }

  template <typename... ARGS>
  static void GEMV(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_dgemv(args...));
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  }

  template <typename... ARGS>
  static void GEMM_STRIDED_BATCH(ARGS... args) {
    PADDLE_ENFORCE_GPU_SUCCESS(
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        phi::dynload::rocblas_dgemm_strided_batched(args...));
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  }

  template <typename... ARGS>
  static void GEMM_EX(ARGS... args) {
    PADDLE_THROW(
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        phi::errors::Unimplemented("Currently there are not cublasDgemmEx."));
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  }

  template <typename... ARGS>
  static void TRSM(ARGS... args) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_dtrsm(args...));
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  }

  template <typename... ARGS>
  static void GETRF_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasDgetrfBatched is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void GETRI_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasDgetriBatched is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void MATINV_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasDmatinvBatched is not supported on HIP platform."));
  }

  template <typename... ARGS>
  static void TRSM_BATCH(ARGS... args) {
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    PADDLE_THROW(phi::errors::Unimplemented(
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        "cublasDtrsmBatched is not supported on HIP platform."));
  }
};

template <>
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struct CUBlas<phi::dtype::float16> {
  using float16 = phi::dtype::float16;
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  static void GEMM(rocblas_handle handle,
                   rocblas_operation transa,
                   rocblas_operation transb,
                   int m,
                   int n,
                   int k,
                   const float16 *alpha,
                   const float16 *A,
                   int lda,
                   const float16 *B,
                   int ldb,
                   const float16 *beta,
                   float16 *C,
                   int ldc) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_hgemm(
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        handle,
        transa,
        transb,
        m,
        n,
        k,
        reinterpret_cast<const rocblas_half *>(alpha),
        reinterpret_cast<const rocblas_half *>(A),
        lda,
        reinterpret_cast<const rocblas_half *>(B),
        ldb,
        reinterpret_cast<const rocblas_half *>(beta),
        reinterpret_cast<rocblas_half *>(C),
        ldc));
  }

  static void GEMM_STRIDED_BATCH(rocblas_handle handle,
                                 rocblas_operation transa,
                                 rocblas_operation transb,
                                 int m,
                                 int n,
                                 int k,
                                 const float16 *alpha,
                                 const float16 *A,
                                 int lda,
                                 long long int strideA,  // NOLINT
                                 const float16 *B,       // NOLINT
                                 int ldb,
                                 long long int strideB,  // NOLINT
                                 const float16 *beta,
                                 float16 *C,
                                 int ldc,
                                 long long int strideC,  // NOLINT
                                 int batchCount) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_hgemm_strided_batched(
        handle,
        transa,
        transb,
        m,
        n,
        k,
        reinterpret_cast<const rocblas_half *>(alpha),
        reinterpret_cast<const rocblas_half *>(A),
        lda,
        strideA,
        reinterpret_cast<const rocblas_half *>(B),
        ldb,
        strideB,
        reinterpret_cast<const rocblas_half *>(beta),
        reinterpret_cast<rocblas_half *>(C),
        ldc,
        strideC,
        batchCount));
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  }

  // NOTES: GEMM_EX can use Tensor Core to accelerate matrix multiply.
  // https://docs.nvidia.com/cuda/cublas/index.html#cublassetmathmode
  template <typename... ARGS>
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  static void GEMM_EX(phi::GPUContext *dev_ctx,
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                      rocblas_operation transa,
                      rocblas_operation transb,
                      int m,
                      int n,
                      int k,
                      const void *alpha,
                      const void *A,
                      rocblas_datatype Atype,
                      int lda,
                      const void *B,
                      rocblas_datatype Btype,
                      int ldb,
                      const void *beta,
                      void *C,
                      rocblas_datatype Ctype,
                      int ldc,
                      rocblas_datatype computeType) {
    rocblas_gemm_algo algo = rocblas_gemm_algo_standard;
    dev_ctx->TensorCoreCublasCallIfAvailable([&](rocblas_handle handle) {
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      PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_gemm_ex(handle,
                                                               transa,
                                                               transb,
                                                               m,
                                                               n,
                                                               k,
                                                               alpha,
                                                               A,
                                                               Atype,
                                                               lda,
                                                               B,
                                                               Btype,
                                                               ldb,
                                                               beta,
                                                               C,
                                                               Ctype,
                                                               ldc,
                                                               C,
                                                               Ctype,
                                                               ldc,
                                                               computeType,
                                                               algo,
                                                               0,
                                                               0));
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    });
  }
};

template <>
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struct CUBlas<phi::dtype::complex<float>> {
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  static void GEMV(rocblas_handle handle,
                   rocblas_operation transa,
                   int m,
                   int n,
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                   const phi::dtype::complex<float> *alpha,
                   const phi::dtype::complex<float> *A,
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                   int lda,
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                   const phi::dtype::complex<float> *B,
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                   int ldb,
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                   const phi::dtype::complex<float> *beta,
                   phi::dtype::complex<float> *C,
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                   int ldc) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_cgemv(
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        handle,
        transa,
        m,
        n,
        reinterpret_cast<const rocblas_float_complex *>(alpha),
        reinterpret_cast<const rocblas_float_complex *>(A),
        lda,
        reinterpret_cast<const rocblas_float_complex *>(B),
        ldb,
        reinterpret_cast<const rocblas_float_complex *>(beta),
        reinterpret_cast<rocblas_float_complex *>(C),
        ldc));
  }

  static void AXPY(rocblas_handle handle,
                   int n,
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                   const phi::dtype::complex<float> *alpha,
                   const phi::dtype::complex<float> *X,
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                   const int incX,
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                   phi::dtype::complex<float> *Y,
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                   const int incY) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_caxpy(
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        handle,
        n,
        reinterpret_cast<const rocblas_float_complex *>(alpha),
        reinterpret_cast<const rocblas_float_complex *>(X),
        incX,
        reinterpret_cast<rocblas_float_complex *>(Y),
        incY));
  }

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  static void GEMM_STRIDED_BATCH(rocblas_handle handle,
                                 rocblas_operation transa,
                                 rocblas_operation transb,
                                 int m,
                                 int n,
                                 int k,
                                 const phi::dtype::complex<float> *alpha,
                                 const phi::dtype::complex<float> *A,
                                 int lda,
                                 long long int strideA,                // NOLINT
                                 const phi::dtype::complex<float> *B,  // NOLINT
                                 int ldb,
                                 long long int strideB,  // NOLINT
                                 const phi::dtype::complex<float> *beta,
                                 phi::dtype::complex<float> *C,
                                 int ldc,
                                 long long int strideC,  // NOLINT
                                 int batchCount) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_cgemm_strided_batched(
        handle,
        transa,
        transb,
        m,
        n,
        k,
        reinterpret_cast<const rocblas_float_complex *>(alpha),
        reinterpret_cast<const rocblas_float_complex *>(A),
        lda,
        strideA,
        reinterpret_cast<const rocblas_float_complex *>(B),
        ldb,
        strideB,
        reinterpret_cast<const rocblas_float_complex *>(beta),
        reinterpret_cast<rocblas_float_complex *>(C),
        ldc,
        strideC,
        batchCount));
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  }

  static void GEMM(rocblas_handle handle,
                   rocblas_operation transa,
                   rocblas_operation transb,
                   int m,
                   int n,
                   int k,
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                   const phi::dtype::complex<float> *alpha,
                   const phi::dtype::complex<float> *A,
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                   int lda,
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                   const phi::dtype::complex<float> *B,
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                   int ldb,
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                   const phi::dtype::complex<float> *beta,
                   phi::dtype::complex<float> *C,
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                   int ldc) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_cgemm(
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        handle,
        transa,
        transb,
        m,
        n,
        k,
        reinterpret_cast<const rocblas_float_complex *>(alpha),
        reinterpret_cast<const rocblas_float_complex *>(A),
        lda,
        reinterpret_cast<const rocblas_float_complex *>(B),
        ldb,
        reinterpret_cast<const rocblas_float_complex *>(beta),
        reinterpret_cast<rocblas_float_complex *>(C),
        ldc));
  }

  // NOTES: GEMM_EX can use Tensor Core to accelerate matrix multiply.
  // https://docs.nvidia.com/cuda/cublas/index.html#cublassetmathmode
  template <typename... ARGS>
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  static void GEMM_EX(phi::GPUContext *dev_ctx,
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                      rocblas_operation transa,
                      rocblas_operation transb,
                      int m,
                      int n,
                      int k,
                      const void *alpha,
                      const void *A,
                      rocblas_datatype Atype,
                      int lda,
                      const void *B,
                      rocblas_datatype Btype,
                      int ldb,
                      const void *beta,
                      void *C,
                      rocblas_datatype Ctype,
                      int ldc,
                      rocblas_datatype computeType) {
    rocblas_gemm_algo algo = rocblas_gemm_algo_standard;
    dev_ctx->TensorCoreCublasCallIfAvailable([&](rocblas_handle handle) {
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      PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_gemm_ex(handle,
                                                               transa,
                                                               transb,
                                                               m,
                                                               n,
                                                               k,
                                                               alpha,
                                                               A,
                                                               Atype,
                                                               lda,
                                                               B,
                                                               Btype,
                                                               ldb,
                                                               beta,
                                                               C,
                                                               Ctype,
                                                               ldc,
                                                               C,
                                                               Ctype,
                                                               ldc,
                                                               computeType,
                                                               algo,
                                                               0,
                                                               0));
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    });
  }
};

template <>
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struct CUBlas<phi::dtype::complex<double>> {
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  static void GEMV(rocblas_handle handle,
                   rocblas_operation transa,
                   int m,
                   int n,
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                   const phi::dtype::complex<double> *alpha,
                   const phi::dtype::complex<double> *A,
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                   int lda,
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                   const phi::dtype::complex<double> *B,
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                   int ldb,
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                   const phi::dtype::complex<double> *beta,
                   phi::dtype::complex<double> *C,
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                   int ldc) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_zgemv(
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        handle,
        transa,
        m,
        n,
        reinterpret_cast<const rocblas_double_complex *>(alpha),
        reinterpret_cast<const rocblas_double_complex *>(A),
        lda,
        reinterpret_cast<const rocblas_double_complex *>(B),
        ldb,
        reinterpret_cast<const rocblas_double_complex *>(beta),
        reinterpret_cast<rocblas_double_complex *>(C),
        ldc));
  }

  static void AXPY(rocblas_handle handle,
                   int n,
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                   const phi::dtype::complex<double> *alpha,
                   const phi::dtype::complex<double> *X,
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                   const int incX,
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                   phi::dtype::complex<double> *Y,
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                   const int incY) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_zaxpy(
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        handle,
        n,
        reinterpret_cast<const rocblas_double_complex *>(alpha),
        reinterpret_cast<const rocblas_double_complex *>(X),
        incX,
        reinterpret_cast<rocblas_double_complex *>(Y),
        incY));
  }

  static void GEMM_STRIDED_BATCH(
      rocblas_handle handle,
      rocblas_operation transa,
      rocblas_operation transb,
      int m,
      int n,
      int k,
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      const phi::dtype::complex<double> *alpha,
      const phi::dtype::complex<double> *A,
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      int lda,
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      long long int strideA,                 // NOLINT
      const phi::dtype::complex<double> *B,  // NOLINT
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      int ldb,
      long long int strideB,  // NOLINT
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      const phi::dtype::complex<double> *beta,
      phi::dtype::complex<double> *C,
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      int ldc,
      long long int strideC,  // NOLINT
      int batchCount) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_zgemm_strided_batched(
        handle,
        transa,
        transb,
        m,
        n,
        k,
        reinterpret_cast<const rocblas_double_complex *>(alpha),
        reinterpret_cast<const rocblas_double_complex *>(A),
        lda,
        strideA,
        reinterpret_cast<const rocblas_double_complex *>(B),
        ldb,
        strideB,
        reinterpret_cast<const rocblas_double_complex *>(beta),
        reinterpret_cast<rocblas_double_complex *>(C),
        ldc,
        strideC,
        batchCount));
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  }

  static void GEMM(rocblas_handle handle,
                   rocblas_operation transa,
                   rocblas_operation transb,
                   int m,
                   int n,
                   int k,
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                   const phi::dtype::complex<double> *alpha,
                   const phi::dtype::complex<double> *A,
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                   int lda,
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                   const phi::dtype::complex<double> *B,
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                   int ldb,
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                   const phi::dtype::complex<double> *beta,
                   phi::dtype::complex<double> *C,
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                   int ldc) {
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    PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_zgemm(
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        handle,
        transa,
        transb,
        m,
        n,
        k,
        reinterpret_cast<const rocblas_double_complex *>(alpha),
        reinterpret_cast<const rocblas_double_complex *>(A),
        lda,
        reinterpret_cast<const rocblas_double_complex *>(B),
        ldb,
        reinterpret_cast<const rocblas_double_complex *>(beta),
        reinterpret_cast<rocblas_double_complex *>(C),
        ldc));
  }

  // NOTES: GEMM_EX can use Tensor Core to accelerate matrix multiply.
  // https://docs.nvidia.com/cuda/cublas/index.html#cublassetmathmode
  template <typename... ARGS>
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  static void GEMM_EX(phi::GPUContext *dev_ctx,
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                      rocblas_operation transa,
                      rocblas_operation transb,
                      int m,
                      int n,
                      int k,
                      const void *alpha,
                      const void *A,
                      rocblas_datatype Atype,
                      int lda,
                      const void *B,
                      rocblas_datatype Btype,
                      int ldb,
                      const void *beta,
                      void *C,
                      rocblas_datatype Ctype,
                      int ldc,
                      rocblas_datatype computeType) {
    rocblas_gemm_algo algo = rocblas_gemm_algo_standard;
    dev_ctx->TensorCoreCublasCallIfAvailable([&](rocblas_handle handle) {
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      PADDLE_ENFORCE_GPU_SUCCESS(phi::dynload::rocblas_gemm_ex(handle,
                                                               transa,
                                                               transb,
                                                               m,
                                                               n,
                                                               k,
                                                               alpha,
                                                               A,
                                                               Atype,
                                                               lda,
                                                               B,
                                                               Btype,
                                                               ldb,
                                                               beta,
                                                               C,
                                                               Ctype,
                                                               ldc,
                                                               C,
                                                               Ctype,
                                                               ldc,
                                                               computeType,
                                                               algo,
                                                               0,
                                                               0));
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    });
  }
};

template <>
template <typename T>
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void Blas<phi::GPUContext>::GEMM(CBLAS_TRANSPOSE transA,
                                 CBLAS_TRANSPOSE transB,
                                 int M,
                                 int N,
                                 int K,
                                 T alpha,
                                 const T *A,
                                 const T *B,
                                 T beta,
                                 T *C) const {
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  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GEMM(handle,
                    cuTransB,
                    cuTransA,
                    N,
                    M,
                    K,
                    &alpha,
                    B,
                    ldb,
                    A,
                    lda,
                    &beta,
                    C,
                    N);
  });
}

template <>
template <>
673 674 675 676 677 678 679 680 681 682
inline void Blas<phi::GPUContext>::GEMM(CBLAS_TRANSPOSE transA,
                                        CBLAS_TRANSPOSE transB,
                                        int M,
                                        int N,
                                        int K,
                                        phi::dtype::float16 alpha,
                                        const phi::dtype::float16 *A,
                                        const phi::dtype::float16 *B,
                                        phi::dtype::float16 beta,
                                        phi::dtype::float16 *C) const {
683 684 685 686 687 688 689 690 691 692 693 694 695 696 697
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;

  // TODO(kexinzhao): add processing code for compute capability < 53 case
  PADDLE_ENFORCE_GE(
      context_.GetComputeCapability(),
      53,
698
      phi::errors::InvalidArgument(
699 700 701 702 703 704 705
          "cublas fp16 gemm requires GPU compute capability >= 53,"
          "but received %d",
          context_.GetComputeCapability()));

  float h_alpha = static_cast<float>(alpha);
  float h_beta = static_cast<float>(beta);

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  auto &cuda_ctx = const_cast<phi::GPUContext &>(context_);
  CUBlas<phi::dtype::float16>::GEMM_EX(&cuda_ctx,
                                       cuTransB,
                                       cuTransA,
                                       N,
                                       M,
                                       K,
                                       &h_alpha,
                                       B,
                                       rocblas_datatype_f16_r,
                                       ldb,
                                       A,
                                       rocblas_datatype_f16_r,
                                       lda,
                                       &h_beta,
                                       C,
                                       rocblas_datatype_f16_r,
                                       N,
                                       rocblas_datatype_f32_r);
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}

template <>
template <>
729 730 731 732 733 734 735 736 737 738
inline void Blas<phi::GPUContext>::GEMM(CBLAS_TRANSPOSE transA,
                                        CBLAS_TRANSPOSE transB,
                                        int M,
                                        int N,
                                        int K,
                                        phi::dtype::bfloat16 alpha,
                                        const phi::dtype::bfloat16 *A,
                                        const phi::dtype::bfloat16 *B,
                                        phi::dtype::bfloat16 beta,
                                        phi::dtype::bfloat16 *C) const {
739 740 741 742 743 744 745 746 747 748 749 750 751 752
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  // TODO(zhiqiu): 80 has the same meaning for rocm and cuda?
  PADDLE_ENFORCE_GE(
      context_.GetComputeCapability(),
      80,
753
      phi::errors::InvalidArgument(
754
          "rocblas bf16 gemm requires GPU compute capability >= 80,"
755 756 757 758 759 760 761 762 763
          "but received %d",
          context_.GetComputeCapability()));

  float h_alpha = static_cast<float>(alpha);
  float h_beta = static_cast<float>(beta);
  rocblas_gemm_algo algo = rocblas_gemm_algo_standard;

  context_.TensorCoreCublasCallIfAvailable([&](rocblas_handle handle) {
    PADDLE_ENFORCE_GPU_SUCCESS(
764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787
        phi::dynload::rocblas_gemm_ex(handle,
                                      cuTransB,
                                      cuTransA,
                                      N,
                                      M,
                                      K,
                                      &h_alpha,
                                      B,
                                      rocblas_datatype_bf16_r,
                                      ldb,
                                      A,
                                      rocblas_datatype_bf16_r,
                                      lda,
                                      &h_beta,
                                      C,
                                      rocblas_datatype_bf16_r,
                                      N,
                                      C,
                                      rocblas_datatype_bf16_r,
                                      N,
                                      rocblas_datatype_f32_r,
                                      algo,
                                      0,
                                      0));
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  });
}

template <>
template <>
793 794 795 796 797
inline void Blas<phi::GPUContext>::GEMM(CBLAS_TRANSPOSE transA,
                                        CBLAS_TRANSPOSE transB,
                                        int M,
                                        int N,
                                        int K,
798 799 800 801 802
                                        phi::dtype::complex<float> alpha,
                                        const phi::dtype::complex<float> *A,
                                        const phi::dtype::complex<float> *B,
                                        phi::dtype::complex<float> beta,
                                        phi::dtype::complex<float> *C) const {
803 804 805 806 807 808 809 810 811 812
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
813 814

  // TODO(kexinzhao): add processing code for compute capability < 53 case
815 816
  PADDLE_ENFORCE_GE(
      context_.GetComputeCapability(),
817
      53,
818
      phi::errors::InvalidArgument(
819
          "cublas complex64 gemm requires GPU compute capability >= 53,"
820 821 822
          "but received %d",
          context_.GetComputeCapability()));

823 824 825
  thrust::complex<float> c_alpha =
      thrust::complex<float>(alpha.real, alpha.imag);
  thrust::complex<float> c_beta = thrust::complex<float>(beta.real, beta.imag);
826

827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845
  auto &cuda_ctx = const_cast<phi::GPUContext &>(context_);
  CUBlas<phi::dtype::complex<float>>::GEMM_EX(&cuda_ctx,
                                              cuTransB,
                                              cuTransA,
                                              N,
                                              M,
                                              K,
                                              &c_alpha,
                                              B,
                                              rocblas_datatype_f32_c,
                                              ldb,
                                              A,
                                              rocblas_datatype_f32_c,
                                              lda,
                                              &c_beta,
                                              C,
                                              rocblas_datatype_f32_c,
                                              N,
                                              rocblas_datatype_f32_c);
846 847 848 849
}

template <>
template <>
850 851 852 853 854 855 856 857 858 859
inline void Blas<phi::GPUContext>::GEMM(CBLAS_TRANSPOSE transA,
                                        CBLAS_TRANSPOSE transB,
                                        int M,
                                        int N,
                                        int K,
                                        phi::dtype::complex<double> alpha,
                                        const phi::dtype::complex<double> *A,
                                        const phi::dtype::complex<double> *B,
                                        phi::dtype::complex<double> beta,
                                        phi::dtype::complex<double> *C) const {
860 861 862 863 864 865 866 867 868 869 870 871 872 873 874
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;

  // TODO(kexinzhao): add processing code for compute capability < 53 case
  PADDLE_ENFORCE_GE(
      context_.GetComputeCapability(),
      53,
875
      phi::errors::InvalidArgument(
876 877 878 879 880 881 882 883 884
          "cublas complex128 gemm requires GPU compute capability >= 53,"
          "but received %d",
          context_.GetComputeCapability()));

  thrust::complex<double> c_alpha =
      thrust::complex<double>(alpha.real, alpha.imag);
  thrust::complex<double> c_beta =
      thrust::complex<double>(beta.real, beta.imag);

885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903
  auto &cuda_ctx = const_cast<phi::GPUContext &>(context_);
  CUBlas<phi::dtype::complex<double>>::GEMM_EX(&cuda_ctx,
                                               cuTransB,
                                               cuTransA,
                                               N,
                                               M,
                                               K,
                                               &c_alpha,
                                               B,
                                               rocblas_datatype_f64_c,
                                               ldb,
                                               A,
                                               rocblas_datatype_f64_c,
                                               lda,
                                               &c_beta,
                                               C,
                                               rocblas_datatype_f64_c,
                                               N,
                                               rocblas_datatype_f64_c);
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}

template <>
template <typename T>
908 909 910 911 912 913 914 915 916 917 918 919 920
void Blas<phi::GPUContext>::GEMM(bool transA,
                                 bool transB,
                                 int M,
                                 int N,
                                 int K,
                                 T alpha,
                                 const T *A,
                                 int lda,
                                 const T *B,
                                 int ldb,
                                 T beta,
                                 T *C,
                                 int ldc) const {
921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  rocblas_operation cuTransA =
      transA ? rocblas_operation_transpose : rocblas_operation_none;
  rocblas_operation cuTransB =
      transB ? rocblas_operation_transpose : rocblas_operation_none;
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GEMM(handle,
                    cuTransB,
                    cuTransA,
                    N,
                    M,
                    K,
                    &alpha,
                    B,
                    ldb,
                    A,
                    lda,
                    &beta,
                    C,
                    ldc);
  });
}

template <>
template <>
947 948 949 950 951 952 953 954 955 956 957 958 959
inline void Blas<phi::GPUContext>::GEMM(bool transA,
                                        bool transB,
                                        int M,
                                        int N,
                                        int K,
                                        phi::dtype::float16 alpha,
                                        const phi::dtype::float16 *A,
                                        int lda,
                                        const phi::dtype::float16 *B,
                                        int ldb,
                                        phi::dtype::float16 beta,
                                        phi::dtype::float16 *C,
                                        int ldc) const {
960 961 962 963 964 965 966 967
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  rocblas_operation cuTransA =
      transA ? rocblas_operation_transpose : rocblas_operation_none;
  rocblas_operation cuTransB =
      transB ? rocblas_operation_transpose : rocblas_operation_none;

  context_.CublasCall([&](rocblas_handle handle) {
968 969 970 971 972 973 974 975 976 977 978 979 980 981
    CUBlas<phi::dtype::float16>::GEMM(handle,
                                      cuTransB,
                                      cuTransA,
                                      N,
                                      M,
                                      K,
                                      &alpha,
                                      B,
                                      ldb,
                                      A,
                                      lda,
                                      &beta,
                                      C,
                                      ldc);
982 983 984
  });
}

985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000 1001
template <>
template <>
inline void Blas<phi::GPUContext>::GEMM(bool transA,
                                        bool transB,
                                        int M,
                                        int N,
                                        int K,
                                        phi::dtype::bfloat16 alpha,
                                        const phi::dtype::bfloat16 *A,
                                        int lda,
                                        const phi::dtype::bfloat16 *B,
                                        int ldb,
                                        phi::dtype::bfloat16 beta,
                                        phi::dtype::bfloat16 *C,
                                        int ldc) const {
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
1002 1003 1004 1005
  rocblas_operation cuTransA =
      transA ? rocblas_operation_none : rocblas_operation_transpose;
  rocblas_operation cuTransB =
      transB ? rocblas_operation_none : rocblas_operation_transpose;
1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046
  PADDLE_ENFORCE_GE(
      context_.GetComputeCapability(),
      80,
      phi::errors::InvalidArgument(
          "rocblas bf16 gemm requires GPU compute capability >= 80,"
          "but received %d",
          context_.GetComputeCapability()));

  float h_alpha = static_cast<float>(alpha);
  float h_beta = static_cast<float>(beta);
  rocblas_gemm_algo algo = rocblas_gemm_algo_standard;

  context_.TensorCoreCublasCallIfAvailable([&](rocblas_handle handle) {
    PADDLE_ENFORCE_GPU_SUCCESS(
        phi::dynload::rocblas_gemm_ex(handle,
                                      cuTransB,
                                      cuTransA,
                                      N,
                                      M,
                                      K,
                                      &h_alpha,
                                      B,
                                      rocblas_datatype_bf16_r,
                                      ldb,
                                      A,
                                      rocblas_datatype_bf16_r,
                                      lda,
                                      &h_beta,
                                      C,
                                      rocblas_datatype_bf16_r,
                                      ldc,
                                      C,
                                      rocblas_datatype_bf16_r,
                                      ldc,
                                      rocblas_datatype_f32_r,
                                      algo,
                                      0,
                                      0));
  });
}

1047 1048
template <>
template <typename T>
1049
void Blas<phi::GPUContext>::AXPY(int n, T alpha, const T *x, T *y) const {
1050 1051 1052 1053 1054 1055 1056
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::AXPY(handle, n, &alpha, x, 1, y, 1);
  });
}

template <>
template <typename T>
1057
void Blas<phi::GPUContext>::SCAL(int n, const T alpha, T *x) const {
1058 1059 1060 1061 1062 1063
  context_.CublasCall(
      [&](rocblas_handle handle) { CUBlas<T>::SCAL(handle, n, &alpha, x, 1); });
}

template <>
template <typename T>
1064
void Blas<phi::GPUContext>::VCOPY(int n, const T *x, T *y) const {
1065 1066 1067 1068 1069 1070
  context_.CublasCall(
      [&](rocblas_handle handle) { CUBlas<T>::VCOPY(handle, n, x, 1, y, 1); });
}

template <>
template <typename T>
1071 1072 1073 1074 1075 1076 1077 1078
void Blas<phi::GPUContext>::GEMV(bool trans_a,
                                 int M,
                                 int N,
                                 T alpha,
                                 const T *A,
                                 const T *B,
                                 T beta,
                                 T *C) const {
1079 1080 1081 1082 1083 1084 1085 1086 1087 1088
  rocblas_operation cuTransA =
      !trans_a ? rocblas_operation_transpose : rocblas_operation_none;

  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GEMV(handle, cuTransA, N, M, &alpha, A, N, B, 1, &beta, C, 1);
  });
}

template <>
template <>
1089 1090 1091 1092 1093 1094 1095 1096
inline void Blas<phi::GPUContext>::GEMV(bool trans_a,
                                        int M,
                                        int N,
                                        phi::dtype::float16 alpha,
                                        const phi::dtype::float16 *A,
                                        const phi::dtype::float16 *B,
                                        phi::dtype::float16 beta,
                                        phi::dtype::float16 *C) const {
1097 1098
  // Because cublas doesn't support half gemv, we use cublasHgemm to achieve it.
  if (trans_a) {
1099
    this->template GEMM<phi::dtype::float16>(
1100 1101
        CblasNoTrans, CblasNoTrans, 1, N, M, alpha, B, A, beta, C);
  } else {
1102
    this->template GEMM<phi::dtype::float16>(
1103 1104 1105 1106 1107 1108
        CblasNoTrans, CblasNoTrans, M, 1, N, alpha, A, B, beta, C);
  }
}

template <>
template <>
1109 1110 1111 1112 1113 1114 1115 1116
inline void Blas<phi::GPUContext>::GEMV(bool trans_a,
                                        int M,
                                        int N,
                                        phi::dtype::bfloat16 alpha,
                                        const phi::dtype::bfloat16 *A,
                                        const phi::dtype::bfloat16 *B,
                                        phi::dtype::bfloat16 beta,
                                        phi::dtype::bfloat16 *C) const {
1117 1118
  // Because rocblas doesn't support bfloat16 gemv, we use gemmex to achieve it.
  if (trans_a) {
1119
    this->template GEMM<phi::dtype::bfloat16>(
1120 1121
        CblasNoTrans, CblasNoTrans, 1, N, M, alpha, B, A, beta, C);
  } else {
1122
    this->template GEMM<phi::dtype::bfloat16>(
1123 1124 1125 1126 1127 1128
        CblasNoTrans, CblasNoTrans, M, 1, N, alpha, A, B, beta, C);
  }
}

template <>
template <typename T>
1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141
void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                        CBLAS_TRANSPOSE transB,
                                        int M,
                                        int N,
                                        int K,
                                        T alpha,
                                        const T *A,
                                        const T *B,
                                        T beta,
                                        T *C,
                                        int batchCount,
                                        int64_t strideA,
                                        int64_t strideB) const {
1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  int ldc = N;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  const int64_t strideC = M * N;
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GEMM_STRIDED_BATCH(handle,
                                  cuTransB,
                                  cuTransA,
                                  N,
                                  M,
                                  K,
                                  &alpha,
                                  B,
                                  ldb,
                                  strideB,
                                  A,
                                  lda,
                                  strideA,
                                  &beta,
                                  C,
                                  ldc,
                                  strideC,
                                  batchCount);
  });
}

R
ronnywang 已提交
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// note(wangran16): unknown bug. parameters dislocation when calling
// GEMM_STRIDED_BATCH<float> and GEMM_STRIDED_BATCH<double>
template <>
template <>
inline void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                               CBLAS_TRANSPOSE transB,
                                               int M,
                                               int N,
                                               int K,
                                               float alpha,
                                               const float *A,
                                               const float *B,
                                               float beta,
                                               float *C,
                                               int batchCount,
                                               int64_t strideA,
                                               int64_t strideB) const {
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  int ldc = N;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  const int64_t strideC = M * N;
  context_.CublasCall([&](rocblas_handle handle) {
    PADDLE_ENFORCE_GPU_SUCCESS(
1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224
        phi::dynload::rocblas_sgemm_strided_batched(handle,
                                                    cuTransB,
                                                    cuTransA,
                                                    N,
                                                    M,
                                                    K,
                                                    &alpha,
                                                    B,
                                                    ldb,
                                                    strideB,
                                                    A,
                                                    lda,
                                                    strideA,
                                                    &beta,
                                                    C,
                                                    ldc,
                                                    strideC,
                                                    batchCount));
R
ronnywang 已提交
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  });
}

template <>
template <>
inline void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                               CBLAS_TRANSPOSE transB,
                                               int M,
                                               int N,
                                               int K,
                                               double alpha,
                                               const double *A,
                                               const double *B,
                                               double beta,
                                               double *C,
                                               int batchCount,
                                               int64_t strideA,
                                               int64_t strideB) const {
  // Note that cublas follows fortran order, so the order is different from
  // the cblas convention.
  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  int ldc = N;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  const int64_t strideC = M * N;
  context_.CublasCall([&](rocblas_handle handle) {
    PADDLE_ENFORCE_GPU_SUCCESS(
1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274
        phi::dynload::rocblas_dgemm_strided_batched(handle,
                                                    cuTransB,
                                                    cuTransA,
                                                    N,
                                                    M,
                                                    K,
                                                    &alpha,
                                                    B,
                                                    ldb,
                                                    strideB,
                                                    A,
                                                    lda,
                                                    strideA,
                                                    &beta,
                                                    C,
                                                    ldc,
                                                    strideC,
                                                    batchCount));
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ronnywang 已提交
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  });
}

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template <>
template <>
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inline void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                               CBLAS_TRANSPOSE transB,
                                               int M,
                                               int N,
                                               int K,
                                               phi::dtype::bfloat16 alpha,
                                               const phi::dtype::bfloat16 *A,
                                               const phi::dtype::bfloat16 *B,
                                               phi::dtype::bfloat16 beta,
                                               phi::dtype::bfloat16 *C,
                                               int batchCount,
                                               int64_t strideA,
                                               int64_t strideB) const {
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  int lda = (transA == CblasNoTrans) ? K : M;
  int ldb = (transB == CblasNoTrans) ? N : K;
  int ldc = N;
  const int64_t strideC = M * N;
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_operation cuTransB = (transB == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  float h_alpha = static_cast<float>(alpha);
  float h_beta = static_cast<float>(beta);
  rocblas_gemm_algo algo = rocblas_gemm_algo_standard;

  context_.TensorCoreCublasCallIfAvailable([&](rocblas_handle handle) {
    PADDLE_ENFORCE_GPU_SUCCESS(
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        phi::dynload::rocblas_gemm_strided_batched_ex(handle,
                                                      cuTransB,
                                                      cuTransA,
                                                      N,
                                                      M,
                                                      K,
                                                      &h_alpha,
                                                      B,
                                                      rocblas_datatype_bf16_r,
                                                      ldb,
                                                      strideB,
                                                      A,
                                                      rocblas_datatype_bf16_r,
                                                      lda,
                                                      strideA,
                                                      &h_beta,
                                                      C,
                                                      rocblas_datatype_bf16_r,
                                                      ldc,
                                                      strideC,
                                                      C,
                                                      rocblas_datatype_bf16_r,
                                                      ldc,
                                                      strideC,
                                                      batchCount,
                                                      rocblas_datatype_f32_r,
                                                      algo,
                                                      0,
                                                      0));
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  });
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                        CBLAS_TRANSPOSE transB,
                                        int M,
                                        int N,
                                        int K,
                                        T alpha,
                                        const T **A,
                                        const T **B,
                                        T beta,
                                        T **C,
                                        int batchCount) const {
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  for (int k = 0; k < batchCount; ++k) {
    this->template GEMM<T>(
        transA, transB, M, N, K, alpha, A[k], B[k], beta, C[k]);
  }
}

template <>
template <>
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inline void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                               CBLAS_TRANSPOSE transB,
                                               int M,
                                               int N,
                                               int K,
                                               phi::dtype::float16 alpha,
                                               const phi::dtype::float16 **A,
                                               const phi::dtype::float16 **B,
                                               phi::dtype::float16 beta,
                                               phi::dtype::float16 **C,
                                               int batchCount) const {
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  for (int k = 0; k < batchCount; ++k) {
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    this->template GEMM<phi::dtype::float16>(
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        transA, transB, M, N, K, alpha, A[k], B[k], beta, C[k]);
  }
}

template <>
template <>
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inline void Blas<phi::GPUContext>::BatchedGEMM(CBLAS_TRANSPOSE transA,
                                               CBLAS_TRANSPOSE transB,
                                               int M,
                                               int N,
                                               int K,
                                               phi::dtype::bfloat16 alpha,
                                               const phi::dtype::bfloat16 **A,
                                               const phi::dtype::bfloat16 **B,
                                               phi::dtype::bfloat16 beta,
                                               phi::dtype::bfloat16 **C,
                                               int batchCount) const {
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  for (int k = 0; k < batchCount; ++k) {
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    this->template GEMM<phi::dtype::bfloat16>(
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        transA, transB, M, N, K, alpha, A[k], B[k], beta, C[k]);
  }
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::TRSM(CBLAS_SIDE side,
                                 CBLAS_UPLO uplo,
                                 CBLAS_TRANSPOSE transA,
                                 CBLAS_DIAG diag,
                                 int M,
                                 int N,
                                 T alpha,
                                 const T *A,
                                 int lda,
                                 T *B,
                                 int ldb) const {
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  // solve row major `op ( A ) X = α B` by taking it as `X' op ( A' )  =  α B'`
  // where ' stands for transpose
  rocblas_side cuSide =
      (side == CblasLeft) ? rocblas_side_right : rocblas_side_left;
  rocblas_fill cuUplo =
      (uplo == CblasLower) ? rocblas_fill_upper : rocblas_fill_lower;
  // use CUBLAS_OP_C (conjugate transpose) for complex
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_diagonal cuDiag =
      (diag == CblasUnit) ? rocblas_diagonal_unit : rocblas_diagonal_non_unit;

  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::TRSM(
        handle, cuSide, cuUplo, cuTransA, cuDiag, N, M, &alpha, A, lda, B, ldb);
  });
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::BatchedGETRF(
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    int n, T **a, int *ipiv, int *info, int batch_size) const {
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GETRF_BATCH(handle, n, a, n, ipiv, info, batch_size);
  });
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::BatchedGETRI(int n,
                                         const T **a,
                                         const int *ipiv,
                                         T **a_inv,
                                         int *info,
                                         int batch_size) const {
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  PADDLE_ENFORCE_NE(
      a_inv,
      a,
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      phi::errors::InvalidArgument(
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          "cuBLAS fuction 'cublas<S/D>getrfBatched' cannot be executed "
          "in-place. The memory space of output matrix (address: %p) cannot "
          "overlap memory space of input matrix (address: %p).",
          a_inv,
          a));
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GETRI_BATCH(handle, n, a, n, ipiv, a_inv, n, info, batch_size);
  });
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::BatchedMatInv(
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    int n, const T **a, T **a_inv, int *info, int batch_size) const {
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::MATINV_BATCH(handle, n, a, n, a_inv, n, info, batch_size);
  });
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::BatchedGETRS(CBLAS_TRANSPOSE trans,
                                         int n,
                                         int nrhs,
                                         const T **a,
                                         int lda,
                                         int *ipiv,
                                         T **b,
                                         int ldb,
                                         int *info,
                                         int batch_size) const {
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  rocblas_operation cuTrans = (trans == CblasNoTrans)
                                  ? rocblas_operation_none
                                  : rocblas_operation_transpose;
  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::GETRS_BATCH(
        handle, cuTrans, n, nrhs, a, lda, ipiv, b, ldb, info, batch_size);
  });
}

template <>
template <typename T>
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void Blas<phi::GPUContext>::BatchedTRSM(CBLAS_SIDE side,
                                        CBLAS_UPLO uplo,
                                        CBLAS_TRANSPOSE transA,
                                        CBLAS_DIAG diag,
                                        int M,
                                        int N,
                                        T alpha,
                                        const T **A,
                                        int lda,
                                        T **B,
                                        int ldb,
                                        int batch_size) const {
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  // solve row major `op ( A ) X = α B` by taking it as `X' op ( A' )  =  α B'`
  // where ' stands for transpose
  rocblas_side cuSide =
      (side == CblasLeft) ? rocblas_side_right : rocblas_side_left;
  rocblas_fill cuUplo =
      (uplo == CblasLower) ? rocblas_fill_upper : rocblas_fill_lower;
  // use CUBLAS_OP_C (conjugate transpose) for complex
  rocblas_operation cuTransA = (transA == CblasNoTrans)
                                   ? rocblas_operation_none
                                   : rocblas_operation_transpose;
  rocblas_diagonal cuDiag =
      (diag == CblasUnit) ? rocblas_diagonal_unit : rocblas_diagonal_non_unit;

  context_.CublasCall([&](rocblas_handle handle) {
    CUBlas<T>::TRSM_BATCH(handle,
                          cuSide,
                          cuUplo,
                          cuTransA,
                          cuDiag,
                          N,
                          M,
                          &alpha,
                          A,
                          lda,
                          B,
                          ldb,
                          batch_size);
  });
}

}  // namespace funcs
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}  // namespace phi