hipblaszgbmvstridedbatched Interface Reference#
hipfort_hipblas::hipblaszgbmvstridedbatched Interface Reference
BLAS Level 2 API. More...
Public Member Functions | |
integer(kind(hipblas_status_success)) function | hipblaszgbmvstridedbatched_ (handle, trans, m, n, kl, ku, alpha, A, lda, strideA, x, incx, stridex, beta, y, incy, stridey, batchCount) |
integer(kind(hipblas_status_success)) function | hipblaszgbmvstridedbatched_full_rank (handle, trans, m, n, kl, ku, alpha, A, lda, strideA, x, incx, stridex, beta, y, incy, stridey, batchCount) |
integer(kind(hipblas_status_success)) function | hipblaszgbmvstridedbatched_rank_0 (handle, trans, m, n, kl, ku, alpha, A, lda, strideA, x, incx, stridex, beta, y, incy, stridey, batchCount) |
integer(kind(hipblas_status_success)) function | hipblaszgbmvstridedbatched_rank_1 (handle, trans, m, n, kl, ku, alpha, A, lda, strideA, x, incx, stridex, beta, y, incy, stridey, batchCount) |
Detailed Description
BLAS Level 2 API.
gbmvStridedBatched performs one of the matrix-vector operations
y_i := alpha*A_i*x_i + beta*y_i, or y_i := alpha*A_i**T*x_i + beta*y_i, or y_i := alpha*A_i**H*x_i + beta*y_i,
where (A_i, x_i, y_i) is the i-th instance of the batch. alpha and beta are scalars, x_i and y_i are vectors and A_i is an m by n banded matrix with kl sub-diagonals and ku super-diagonals, for i = 1, ..., batchCount.
- Parameters
-
[in] handle [hipblasHandle_t] handle to the hipblas library context queue. [in] trans [hipblasOperation_t] indicates whether matrix A is tranposed (conjugated) or not [in] m [int] number of rows of matrix A [in] n [int] number of columns of matrix A [in] kl [int] number of sub-diagonals of A [in] ku [int] number of super-diagonals of A [in] alpha device pointer or host pointer to scalar alpha. [in] A device pointer to first banded matrix (A_1). Leading (kl + ku + 1) by n part of the matrix contains the coefficients of the banded matrix. The leading diagonal resides in row (ku + 1) with the first super-diagonal above on the RHS of row ku. The first sub-diagonal resides below on the LHS of row ku + 2. This propogates up and down across sub/super-diagonals. Ex: (m = n = 7; ku = 2, kl = 2) 1 2 3 0 0 0 0 0 0 3 3 3 3 3 4 1 2 3 0 0 0 0 2 2 2 2 2 2 5 4 1 2 3 0 0 -—> 1 1 1 1 1 1 1 0 5 4 1 2 3 0 4 4 4 4 4 4 0 0 0 5 4 1 2 0 5 5 5 5 5 0 0 0 0 0 5 4 1 2 0 0 0 0 0 0 0 0 0 0 0 5 4 1 0 0 0 0 0 0 0 Note that the empty elements which don't correspond to data will not be referenced. [in] lda [int] specifies the leading dimension of A. Must be >= (kl + ku + 1) [in] strideA [hipblasStride] stride from the start of one matrix (A_i) and the next one (A_i+1) [in] x device pointer to first vector (x_1). [in] incx [int] specifies the increment for the elements of x. [in] stridex [hipblasStride] stride from the start of one vector (x_i) and the next one (x_i+1) [in] beta device pointer or host pointer to scalar beta. [in,out] y device pointer to first vector (y_1). [in] incy [int] specifies the increment for the elements of y. [in] stridey [hipblasStride] stride from the start of one vector (y_i) and the next one (x_i+1) [in] batchCount [int] specifies the number of instances in the batch.
Member Function/Subroutine Documentation
◆ hipblaszgbmvstridedbatched_()
integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszgbmvstridedbatched::hipblaszgbmvstridedbatched_ | ( | type(c_ptr), value | handle, |
integer(kind(hipblas_op_n)), value | trans, | ||
integer(c_int), value | m, | ||
integer(c_int), value | n, | ||
integer(c_int), value | kl, | ||
integer(c_int), value | ku, | ||
complex(c_double_complex) | alpha, | ||
type(c_ptr), value | A, | ||
integer(c_int), value | lda, | ||
integer(c_int64_t), value | strideA, | ||
type(c_ptr), value | x, | ||
integer(c_int), value | incx, | ||
integer(c_int64_t), value | stridex, | ||
complex(c_double_complex) | beta, | ||
type(c_ptr), value | y, | ||
integer(c_int), value | incy, | ||
integer(c_int64_t), value | stridey, | ||
integer(c_int), value | batchCount | ||
) |
◆ hipblaszgbmvstridedbatched_full_rank()
integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszgbmvstridedbatched::hipblaszgbmvstridedbatched_full_rank | ( | type(c_ptr) | handle, |
integer(kind(hipblas_op_n)) | trans, | ||
integer(c_int) | m, | ||
integer(c_int) | n, | ||
integer(c_int) | kl, | ||
integer(c_int) | ku, | ||
complex(c_double_complex) | alpha, | ||
complex(c_double_complex), dimension(:,:), target | A, | ||
integer(c_int) | lda, | ||
integer(c_int64_t) | strideA, | ||
complex(c_double_complex), dimension(:), target | x, | ||
integer(c_int) | incx, | ||
integer(c_int64_t) | stridex, | ||
complex(c_double_complex) | beta, | ||
complex(c_double_complex), dimension(:), target | y, | ||
integer(c_int) | incy, | ||
integer(c_int64_t) | stridey, | ||
integer(c_int) | batchCount | ||
) |
◆ hipblaszgbmvstridedbatched_rank_0()
integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszgbmvstridedbatched::hipblaszgbmvstridedbatched_rank_0 | ( | type(c_ptr) | handle, |
integer(kind(hipblas_op_n)) | trans, | ||
integer(c_int) | m, | ||
integer(c_int) | n, | ||
integer(c_int) | kl, | ||
integer(c_int) | ku, | ||
complex(c_double_complex) | alpha, | ||
complex(c_double_complex), target | A, | ||
integer(c_int) | lda, | ||
integer(c_int64_t) | strideA, | ||
complex(c_double_complex), target | x, | ||
integer(c_int) | incx, | ||
integer(c_int64_t) | stridex, | ||
complex(c_double_complex) | beta, | ||
complex(c_double_complex), target | y, | ||
integer(c_int) | incy, | ||
integer(c_int64_t) | stridey, | ||
integer(c_int) | batchCount | ||
) |
◆ hipblaszgbmvstridedbatched_rank_1()
integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszgbmvstridedbatched::hipblaszgbmvstridedbatched_rank_1 | ( | type(c_ptr) | handle, |
integer(kind(hipblas_op_n)) | trans, | ||
integer(c_int) | m, | ||
integer(c_int) | n, | ||
integer(c_int) | kl, | ||
integer(c_int) | ku, | ||
complex(c_double_complex) | alpha, | ||
complex(c_double_complex), dimension(:), target | A, | ||
integer(c_int) | lda, | ||
integer(c_int64_t) | strideA, | ||
complex(c_double_complex), dimension(:), target | x, | ||
integer(c_int) | incx, | ||
integer(c_int64_t) | stridex, | ||
complex(c_double_complex) | beta, | ||
complex(c_double_complex), dimension(:), target | y, | ||
integer(c_int) | incy, | ||
integer(c_int64_t) | stridey, | ||
integer(c_int) | batchCount | ||
) |
The documentation for this interface was generated from the following file: