hipblaszsyrk Interface Reference

hipblaszsyrk Interface Reference#

HIPFORT API Reference: hipfort_hipblas::hipblaszsyrk Interface Reference
hipfort_hipblas::hipblaszsyrk Interface Reference

BLAS Level 3 API. More...

Public Member Functions

integer(kind(hipblas_status_success)) function hipblaszsyrk_ (handle, uplo, transA, n, k, alpha, A, lda, beta, C, ldc)
 
integer(kind(hipblas_status_success)) function hipblaszsyrk_full_rank (handle, uplo, transA, n, k, alpha, A, lda, beta, C, ldc)
 
integer(kind(hipblas_status_success)) function hipblaszsyrk_rank_0 (handle, uplo, transA, n, k, alpha, A, lda, beta, C, ldc)
 
integer(kind(hipblas_status_success)) function hipblaszsyrk_rank_1 (handle, uplo, transA, n, k, alpha, A, lda, beta, C, ldc)
 

Detailed Description

BLAS Level 3 API.

syrk performs one of the matrix-matrix operations for a symmetric rank-k update

C := alpha*op( A )*op( A )^T + beta*C

where alpha and beta are scalars, op(A) is an n by k matrix, and C is a symmetric n x n matrix stored as either upper or lower.

op( A ) = A, and A is n by k if transA == HIPBLAS_OP_N
op( A ) = A^T and A is k by n if transA == HIPBLAS_OP_T
Parameters
[in]handle[hipblasHandle_t] handle to the hipblas library context queue.
[in]uplo[hipblasFillMode_t] HIPBLAS_FILL_MODE_UPPER: C is an upper triangular matrix HIPBLAS_FILL_MODE_LOWER: C is a lower triangular matrix
[in]transA[hipblasOperation_t] HIPBLAS_OP_T: op(A) = A^T HIPBLAS_OP_N: op(A) = A HIPBLAS_OP_C: op(A) = A^T

HIPBLAS_OP_C is not supported for complex types, see cherk and zherk.

Parameters
[in]n[int] n specifies the number of rows and columns of C. n >= 0.
[in]k[int] k specifies the number of columns of op(A). k >= 0.
[in]alphaalpha specifies the scalar alpha. When alpha is zero then A is not referenced and A need not be set before entry.
[in]Apointer storing matrix A on the GPU. Martrix dimension is ( lda, k ) when if transA = HIPBLAS_OP_N, otherwise (lda, n) only the upper/lower triangular part is accessed.
[in]lda[int] lda specifies the first dimension of A. if transA = HIPBLAS_OP_N, lda >= max( 1, n ), otherwise lda >= max( 1, k ).
[in]betabeta specifies the scalar beta. When beta is zero then C need not be set before entry.
[in]Cpointer storing matrix C on the GPU.
[in]ldc[int] ldc specifies the first dimension of C. ldc >= max( 1, n ).

Member Function/Subroutine Documentation

◆ hipblaszsyrk_()

integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszsyrk::hipblaszsyrk_ ( type(c_ptr), value  handle,
integer(kind(hipblas_fill_mode_upper)), value  uplo,
integer(kind(hipblas_op_n)), value  transA,
integer(c_int), value  n,
integer(c_int), value  k,
complex(c_double_complex)  alpha,
type(c_ptr), value  A,
integer(c_int), value  lda,
complex(c_double_complex)  beta,
type(c_ptr), value  C,
integer(c_int), value  ldc 
)

◆ hipblaszsyrk_full_rank()

integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszsyrk::hipblaszsyrk_full_rank ( type(c_ptr)  handle,
integer(kind(hipblas_fill_mode_upper))  uplo,
integer(kind(hipblas_op_n))  transA,
integer(c_int)  n,
integer(c_int)  k,
complex(c_double_complex)  alpha,
complex(c_double_complex), dimension(:,:), target  A,
integer(c_int)  lda,
complex(c_double_complex)  beta,
complex(c_double_complex), dimension(:,:), target  C,
integer(c_int)  ldc 
)

◆ hipblaszsyrk_rank_0()

integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszsyrk::hipblaszsyrk_rank_0 ( type(c_ptr)  handle,
integer(kind(hipblas_fill_mode_upper))  uplo,
integer(kind(hipblas_op_n))  transA,
integer(c_int)  n,
integer(c_int)  k,
complex(c_double_complex)  alpha,
complex(c_double_complex), target  A,
integer(c_int)  lda,
complex(c_double_complex)  beta,
complex(c_double_complex), target  C,
integer(c_int)  ldc 
)

◆ hipblaszsyrk_rank_1()

integer(kind(hipblas_status_success)) function hipfort_hipblas::hipblaszsyrk::hipblaszsyrk_rank_1 ( type(c_ptr)  handle,
integer(kind(hipblas_fill_mode_upper))  uplo,
integer(kind(hipblas_op_n))  transA,
integer(c_int)  n,
integer(c_int)  k,
complex(c_double_complex)  alpha,
complex(c_double_complex), dimension(:), target  A,
integer(c_int)  lda,
complex(c_double_complex)  beta,
complex(c_double_complex), dimension(:), target  C,
integer(c_int)  ldc 
)

The documentation for this interface was generated from the following file: