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#pragma once |
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#include <ATen/OpMathType.h> |
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#include <ATen/native/DispatchStub.h> |
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#include <ATen/native/TransposeType.h> |
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#include <c10/util/complex.h> |
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#include <c10/core/ScalarType.h> |
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#include <c10/core/Scalar.h> |
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namespace at { |
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namespace native { |
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namespace cpublas { |
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namespace internal { |
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void normalize_last_dims( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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int64_t *lda, int64_t *ldb, int64_t *ldc); |
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} |
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using gemm_fn = void(*)( |
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at::ScalarType type, |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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const Scalar& alpha, |
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const void *a, int64_t lda, |
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const void *b, int64_t ldb, |
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const Scalar& beta, |
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void *c, int64_t ldc); |
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DECLARE_DISPATCH(gemm_fn, gemm_stub); |
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template <typename scalar_t> |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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at::opmath_type<scalar_t> alpha, |
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const scalar_t *a, int64_t lda, |
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const scalar_t *b, int64_t ldb, |
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at::opmath_type<scalar_t> beta, |
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scalar_t *c, int64_t ldc) { |
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internal::normalize_last_dims(transa, transb, m, n, k, &lda, &ldb, &ldc); |
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gemm_stub( |
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kCPU, c10::CppTypeToScalarType<scalar_t>::value, |
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transa, transb, m, n, k, alpha, a, lda, b, ldb, beta, c, ldc); |
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} |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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double alpha, |
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const double *a, int64_t lda, |
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const double *b, int64_t ldb, |
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double beta, |
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double *c, int64_t ldc); |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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float alpha, |
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const float *a, int64_t lda, |
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const float *b, int64_t ldb, |
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float beta, |
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float *c, int64_t ldc); |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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float alpha, |
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const at::BFloat16 *a, int64_t lda, |
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const at::BFloat16 *b, int64_t ldb, |
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float beta, |
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at::BFloat16 *c, int64_t ldc); |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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c10::complex<double> alpha, |
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const c10::complex<double> *a, int64_t lda, |
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const c10::complex<double> *b, int64_t ldb, |
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c10::complex<double> beta, |
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c10::complex<double> *c, int64_t ldc); |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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c10::complex<float> alpha, |
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const c10::complex<float> *a, int64_t lda, |
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const c10::complex<float> *b, int64_t ldb, |
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c10::complex<float> beta, |
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c10::complex<float> *c, int64_t ldc); |
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void gemm( |
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TransposeType transa, TransposeType transb, |
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int64_t m, int64_t n, int64_t k, |
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int64_t alpha, |
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const int64_t *a, int64_t lda, |
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const int64_t *b, int64_t ldb, |
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int64_t beta, |
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int64_t *c, int64_t ldc); |
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template <typename scalar_t> |
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void gemm_batched( |
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TransposeType transa, TransposeType transb, |
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int64_t batch_size, int64_t m, int64_t n, int64_t k, |
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scalar_t alpha, |
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const scalar_t * const *a, int64_t lda, |
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const scalar_t * const *b, int64_t ldb, |
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const scalar_t beta, |
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scalar_t * const *c, int64_t ldc); |
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template <typename scalar_t> |
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void gemm_batched_with_stride( |
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TransposeType transa, TransposeType transb, |
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int64_t batch_size, int64_t m, int64_t n, int64_t k, |
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scalar_t alpha, |
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const scalar_t *a, int64_t lda, int64_t batch_stride_a, |
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const scalar_t *b, int64_t ldb, int64_t batch_stride_b, |
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scalar_t beta, |
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scalar_t *c, int64_t ldc, int64_t batch_stride_c); |
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using axpy_fn = void(*)(at::ScalarType type, int64_t n, const Scalar& a, const void *x, int64_t incx, void *y, int64_t incy); |
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DECLARE_DISPATCH(axpy_fn, axpy_stub); |
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template<typename scalar_t> |
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void axpy(int64_t n, scalar_t a, const scalar_t *x, int64_t incx, scalar_t *y, int64_t incy){ |
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if(n == 1) |
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{ |
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incx = 1; |
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incy = 1; |
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} |
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axpy_stub( |
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kCPU, c10::CppTypeToScalarType<scalar_t>::value, |
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n, a, x, incx, y, incy); |
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} |
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void axpy(int64_t n, double a, const double *x, int64_t incx, double *y, int64_t incy); |
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void axpy(int64_t n, float a, const float *x, int64_t incx, float *y, int64_t incy); |
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void axpy(int64_t n, c10::complex<double> a, const c10::complex<double> *x, int64_t incx, c10::complex<double> *y, int64_t incy); |
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void axpy(int64_t n, c10::complex<float> a, const c10::complex<float> *x, int64_t incx, c10::complex<float> *y, int64_t incy); |
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using copy_fn = void(*)(at::ScalarType type, int64_t n, const void *x, int64_t incx, void *y, int64_t incy); |
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DECLARE_DISPATCH(copy_fn, copy_stub); |
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template<typename scalar_t> |
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void copy(int64_t n, const scalar_t *x, int64_t incx, scalar_t *y, int64_t incy) { |
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if(n == 1) |
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{ |
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incx = 1; |
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incy = 1; |
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} |
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copy_stub( |
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kCPU, c10::CppTypeToScalarType<scalar_t>::value, |
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n, x, incx, y, incy); |
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} |
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void copy(int64_t n, const double *x, int64_t incx, double *y, int64_t incy); |
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void copy(int64_t n, const float *x, int64_t incx, float *y, int64_t incy); |
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void copy(int64_t n, const c10::complex<double> *x, int64_t incx, c10::complex<double> *y, int64_t incy); |
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void copy(int64_t n, const c10::complex<float> *x, int64_t incx, c10::complex<float> *y, int64_t incy); |
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}}} |
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