rocBLAS Level-2 functions#
rocBLAS Level-2 functions perform matrix-vector operations. [Level2]
rocblas_Xgbmv + batched, strided_batched#
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rocblas_status rocblas_sgbmv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const float *alpha, const float *A, rocblas_int lda, const float *x, rocblas_int incx, const float *beta, float *y, rocblas_int incy)#
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rocblas_status rocblas_dgbmv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const double *alpha, const double *A, rocblas_int lda, const double *x, rocblas_int incx, const double *beta, double *y, rocblas_int incy)#
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rocblas_status rocblas_cgbmv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy)#
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rocblas_status rocblas_zgbmv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy)#
BLAS Level 2 API
gbmv performs one of the matrix-vector operations:
y := alpha*A*x + beta*y, or y := alpha*A**T*x + beta*y, or y := alpha*A**H*x + beta*y, where alpha and beta are scalars, x and y are vectors and A is an m by n banded matrix with kl sub-diagonals and ku super-diagonals.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
trans – [in] [rocblas_operation] indicates whether matrix A is tranposed (conjugated) or not.
m – [in] [rocblas_int] number of rows of matrix A.
n – [in] [rocblas_int] number of columns of matrix A.
kl – [in] [rocblas_int] number of sub-diagonals of A.
ku – [in] [rocblas_int] number of super-diagonals of A.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device pointer storing banded matrix A. 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 propagates up and down across sub/super-diagonals.
Note that the empty elements which do not correspond to data will not be referenced.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 3 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
lda – [in] [rocblas_int] specifies the leading dimension of A. Must be >= (kl + ku + 1).
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
gbmv functions support the _64 interface. Parameters m,`n`,`kl` and ku larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_sgbmv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const float *alpha, const float *const A[], rocblas_int lda, const float *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_dgbmv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const double *alpha, const double *const A[], rocblas_int lda, const double *const x[], rocblas_int incx, const double *beta, double *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_cgbmv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const rocblas_float_complex *alpha, const rocblas_float_complex *const A[], rocblas_int lda, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_zgbmv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const rocblas_double_complex *alpha, const rocblas_double_complex *const A[], rocblas_int lda, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
gbmv_batched 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, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
trans – [in] [rocblas_operation] indicates whether matrix A is tranposed (conjugated) or not.
m – [in] [rocblas_int] number of rows of each matrix A_i.
n – [in] [rocblas_int] number of columns of each matrix A_i.
kl – [in] [rocblas_int] number of sub-diagonals of each A_i.
ku – [in] [rocblas_int] number of super-diagonals of each A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each banded matrix A_i. 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 propagates up and down across sub/super-diagonals.
Note that the empty elements which do not correspond to data will not be referenced.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 3 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
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. Must be >= (kl + ku + 1)
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
batch_count – [in] [rocblas_int] specifies the number of instances in the batch.
gbmv_batched functions support the _64 interface. Parameters m,`n`,`kl` and ku larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_sgbmv_strided_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const float *alpha, const float *A, rocblas_int lda, rocblas_stride stride_A, const float *x, rocblas_int incx, rocblas_stride stride_x, const float *beta, float *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
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rocblas_status rocblas_dgbmv_strided_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const double *alpha, const double *A, rocblas_int lda, rocblas_stride stride_A, const double *x, rocblas_int incx, rocblas_stride stride_x, const double *beta, double *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
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rocblas_status rocblas_cgbmv_strided_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
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rocblas_status rocblas_zgbmv_strided_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, rocblas_int kl, rocblas_int ku, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
BLAS Level 2 API
gbmv_strided_batched 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, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
trans – [in] [rocblas_operation] indicates whether matrix A is tranposed (conjugated) or not.
m – [in] [rocblas_int] number of rows of matrix A.
n – [in] [rocblas_int] number of columns of matrix A.
kl – [in] [rocblas_int] number of sub-diagonals of A.
ku – [in] [rocblas_int] number of super-diagonals of A.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] 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 propagates up and down across sub/super-diagonals.
Note that the empty elements which do not correspond to data will not be referenced.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 3 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
lda – [in] [rocblas_int] specifies the leading dimension of A. Must be >= (kl + ku + 1).
stride_A – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
x – [in] device pointer to first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of x.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer to first vector (y_1).
incy – [in] [rocblas_int] specifies the increment for the elements of y.
stride_y – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (x_i+1).
batch_count – [in] [rocblas_int] specifies the number of instances in the batch.
gbmv_strided_batched functions support the _64 interface. Parameters m,`n`,`kl` and ku larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
rocblas_Xgemv + batched, strided_batched#
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rocblas_status rocblas_sgemv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const float *alpha, const float *A, rocblas_int lda, const float *x, rocblas_int incx, const float *beta, float *y, rocblas_int incy)#
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rocblas_status rocblas_dgemv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const double *alpha, const double *A, rocblas_int lda, const double *x, rocblas_int incx, const double *beta, double *y, rocblas_int incy)#
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rocblas_status rocblas_cgemv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy)#
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rocblas_status rocblas_zgemv(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy)#
BLAS Level 2 API
gemv performs one of the matrix-vector operations:
y := alpha*A*x + beta*y, or y := alpha*A**T*x + beta*y, or y := alpha*A**H*x + beta*y, where alpha and beta are scalars, x and y are vectors and A is an m by n matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
trans – [in] [rocblas_operation] indicates whether matrix A is tranposed (conjugated) or not.
m – [in] [rocblas_int] number of rows of matrix A.
n – [in] [rocblas_int] number of columns of matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device pointer storing matrix A.
lda – [in] [rocblas_int] specifies the leading dimension of A.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
gemv functions have an implementation which uses atomic operations. See section Atomic Operations for more information. The gemv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const float *alpha, const float *const A[], rocblas_int lda, const float *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_dgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const double *alpha, const double *const A[], rocblas_int lda, const double *const x[], rocblas_int incx, const double *beta, double *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_cgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const A[], rocblas_int lda, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_zgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const A[], rocblas_int lda, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_hshgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_half *const A[], rocblas_int lda, const rocblas_half *const x[], rocblas_int incx, const float *beta, rocblas_half *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_hssgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_half *const A[], rocblas_int lda, const rocblas_half *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_tstgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_bfloat16 *const A[], rocblas_int lda, const rocblas_bfloat16 *const x[], rocblas_int incx, const float *beta, rocblas_bfloat16 *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_tssgemv_batched(rocblas_handle handle, rocblas_operation trans, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_bfloat16 *const A[], rocblas_int lda, const rocblas_bfloat16 *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
gemv_batched performs a batch of 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 matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
trans – [in] [rocblas_operation] indicates whether matrices A_i are tranposed (conjugated) or not.
m – [in] [rocblas_int] number of rows of each matrix A_i.
n – [in] [rocblas_int] number of columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of each matrix A_i.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
gemv_batched functions have an implementation which uses atomic operations. See section Atomic Operations for more information. The gemv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const float *alpha, const float *A, rocblas_int lda, rocblas_stride strideA, const float *x, rocblas_int incx, rocblas_stride stridex, const float *beta, float *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_dgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const double *alpha, const double *A, rocblas_int lda, rocblas_stride strideA, const double *x, rocblas_int incx, rocblas_stride stridex, const double *beta, double *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_cgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride strideA, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_zgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride strideA, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_hshgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_half *A, rocblas_int lda, rocblas_stride strideA, const rocblas_half *x, rocblas_int incx, rocblas_stride stridex, const float *beta, rocblas_half *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_hssgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_half *A, rocblas_int lda, rocblas_stride strideA, const rocblas_half *x, rocblas_int incx, rocblas_stride stridex, const float *beta, float *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_tstgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_bfloat16 *A, rocblas_int lda, rocblas_stride strideA, const rocblas_bfloat16 *x, rocblas_int incx, rocblas_stride stridex, const float *beta, rocblas_bfloat16 *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_tssgemv_strided_batched(rocblas_handle handle, rocblas_operation transA, rocblas_int m, rocblas_int n, const float *alpha, const rocblas_bfloat16 *A, rocblas_int lda, rocblas_stride strideA, const rocblas_bfloat16 *x, rocblas_int incx, rocblas_stride stridex, const float *beta, float *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
BLAS Level 2 API
gemv_strided_batched performs a batch of 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 matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
transA – [in] [rocblas_operation] indicates whether matrices A_i are tranposed (conjugated) or not.
m – [in] [rocblas_int] number of rows of matrices A_i.
n – [in] [rocblas_int] number of columns of matrices A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device pointer to the first matrix (A_1) in the batch.
lda – [in] [rocblas_int] specifies the leading dimension of matrices A_i.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
x – [in] device pointer to the first vector (x_1) in the batch.
incx – [in] [rocblas_int] specifies the increment for the elements of vectors x_i.
stridex – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1). There are no restrictions placed on stride_x. However, ensure that stride_x is of appropriate size. When trans equals rocblas_operation_none this typically means stride_x >= n * incx, otherwise stride_x >= m * incx.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer to the first vector (y_1) in the batch.
incy – [in] [rocblas_int] specifies the increment for the elements of vectors y_i.
stridey – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1). There are no restrictions placed on stride_y. However, ensure that stride_y is of appropriate size. When trans equals rocblas_operation_none this typically means stride_y >= m * incy, otherwise stride_y >= n * incy. stridey should be non zero.
batch_count – [in] [rocblas_int] number of instances in the batch.
gemv_strided_batched functions have an implementation which uses atomic operations. See section Atomic Operations for more information. The gemv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xger + batched, strided_batched#
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rocblas_status rocblas_sger(rocblas_handle handle, rocblas_int m, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, const float *y, rocblas_int incy, float *A, rocblas_int lda)#
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rocblas_status rocblas_dger(rocblas_handle handle, rocblas_int m, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, const double *y, rocblas_int incy, double *A, rocblas_int lda)#
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rocblas_status rocblas_cgeru(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *y, rocblas_int incy, rocblas_float_complex *A, rocblas_int lda)#
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rocblas_status rocblas_zgeru(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *y, rocblas_int incy, rocblas_double_complex *A, rocblas_int lda)#
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rocblas_status rocblas_cgerc(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *y, rocblas_int incy, rocblas_float_complex *A, rocblas_int lda)#
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rocblas_status rocblas_zgerc(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *y, rocblas_int incy, rocblas_double_complex *A, rocblas_int lda)#
BLAS Level 2 API
ger,geru,gerc performs the matrix-vector operations:
A := A + alpha*x*y**T , OR A := A + alpha*x*y**H for gerc where alpha is a scalar, x and y are vectors, and A is an m by n matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
m – [in] [rocblas_int] the number of rows of the matrix A.
n – [in] [rocblas_int] the number of columns of the matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
y – [in] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
A – [inout] device pointer storing matrix A.
lda – [in] [rocblas_int] specifies the leading dimension of A.
The ger, geru, and gerc functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sger_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const float *alpha, const float *const x[], rocblas_int incx, const float *const y[], rocblas_int incy, float *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_dger_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const double *alpha, const double *const x[], rocblas_int incx, const double *const y[], rocblas_int incy, double *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_cgeru_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *const y[], rocblas_int incy, rocblas_float_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_zgeru_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *const y[], rocblas_int incy, rocblas_double_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_cgerc_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *const y[], rocblas_int incy, rocblas_float_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_zgerc_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *const y[], rocblas_int incy, rocblas_double_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
BLAS Level 2 API
ger_batched,geru_batched,gerc_batched perform a batch of the matrix-vector operations:
A := A + alpha*x*y**T , OR A := A + alpha*x*y**H for gerc where (A_i, x_i, y_i) is the i-th instance of the batch. alpha is a scalar, x_i and y_i are vectors and A_i is an m by n matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
m – [in] [rocblas_int] the number of rows of each matrix A_i.
n – [in] [rocblas_int] the number of columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
y – [in] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
A – [inout] device array of device pointers storing each matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The ger, geru, and gerc_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sger_strided_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, rocblas_stride stridex, const float *y, rocblas_int incy, rocblas_stride stridey, float *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_dger_strided_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, rocblas_stride stridex, const double *y, rocblas_int incy, rocblas_stride stridey, double *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_cgeru_strided_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_float_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_float_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_zgeru_strided_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_double_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_double_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_cgerc_strided_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_float_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_float_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_zgerc_strided_batched(rocblas_handle handle, rocblas_int m, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_double_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_double_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
BLAS Level 2 API
ger_strided_batched,geru_strided_batched,gerc_strided_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*y_i**T, OR A_i := A_i + alpha*x_i*y_i**H for gerc where (A_i, x_i, y_i) is the i-th instance of the batch. alpha is a scalar, x_i and y_i are vectors and A_i is an m by n matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
m – [in] [rocblas_int] the number of rows of each matrix A_i.
n – [in] [rocblas_int] the number of columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer to the first vector (x_1) in the batch.
incx – [in] [rocblas_int] specifies the increments for the elements of each vector x_i.
stridex – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1). There are no restrictions placed on stride_x. However, ensure that stride_x is of appropriate size. For a typical case this means stride_x >= m * incx.
y – [inout] device pointer to the first vector (y_1) in the batch.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
stridey – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1). There are no restrictions placed on stride_y. However, ensure that stride_y is of appropriate size. For a typical case this means stride_y >= n * incy.
A – [inout] device pointer to the first matrix (A_1) in the batch.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1)
batch_count – [in] [rocblas_int] number of instances in the batch.
The ger, geru, and gerc_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xsbmv + batched, strided_batched#
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rocblas_status rocblas_ssbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const float *alpha, const float *A, rocblas_int lda, const float *x, rocblas_int incx, const float *beta, float *y, rocblas_int incy)#
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rocblas_status rocblas_dsbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const double *alpha, const double *A, rocblas_int lda, const double *x, rocblas_int incx, const double *beta, double *y, rocblas_int incy)#
BLAS Level 2 API
sbmv performs the matrix-vector operation:
y := alpha*A*x + beta*y where alpha and beta are scalars, x and y are n element vectors and A should contain an upper or lower triangular n by n symmetric banded matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] rocblas_fill specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int]
k – [in] [rocblas_int] specifies the number of sub- and super-diagonals.
alpha – [in] specifies the scalar alpha.
A – [in] pointer storing matrix A on the GPU.
lda – [in] [rocblas_int] specifies the leading dimension of matrix A.
x – [in] pointer storing vector x on the GPU.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] specifies the scalar beta.
y – [out] pointer storing vector y on the GPU.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
The sbmv functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const float *alpha, const float *const A[], rocblas_int lda, const float *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_dsbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const double *alpha, const double *const A[], rocblas_int lda, const double *const x[], rocblas_int incx, const double *beta, double *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
sbmv_batched performs the matrix-vector operation:
y_i := alpha*A_i*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 n by n symmetric banded matrix, for i = 1, ..., batch_count. A should contain an upper or lower triangular n by n symmetric banded matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] number of rows and columns of each matrix A_i.
k – [in] [rocblas_int] specifies the number of sub- and super-diagonals.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of each matrix A_i.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [out] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The sbmv_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const float *alpha, const float *A, rocblas_int lda, rocblas_stride strideA, const float *x, rocblas_int incx, rocblas_stride stridex, const float *beta, float *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_dsbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const double *alpha, const double *A, rocblas_int lda, rocblas_stride strideA, const double *x, rocblas_int incx, rocblas_stride stridex, const double *beta, double *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
BLAS Level 2 API
sbmv_strided_batched performs the matrix-vector operation:
y_i := alpha*A_i*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 n by n symmetric banded matrix, for i = 1, ..., batch_count. A should contain an upper or lower triangular n by n symmetric banded matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] number of rows and columns of each matrix A_i.
k – [in] [rocblas_int] specifies the number of sub- and super-diagonals.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] Device pointer to the first matrix A_1 on the GPU.
lda – [in] [rocblas_int] specifies the leading dimension of each matrix A_i.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
x – [in] Device pointer to the first vector x_1 on the GPU.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
stridex – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1). There are no restrictions placed on stridex. However, ensure that stridex is of appropriate size. This typically means stridex >= n * incx. stridex should be non zero.
beta – [in] device pointer or host pointer to scalar beta.
y – [out] Device pointer to the first vector y_1 on the GPU.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
stridey – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1). There are no restrictions placed on stridey. However, ensure that stridey is of appropriate size. This typically means stridey >= n * incy. stridey should be non zero.
batch_count – [in] [rocblas_int] number of instances in the batch.
The sbmv_strided_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
rocblas_Xspmv + batched, strided_batched#
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rocblas_status rocblas_sspmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *A, const float *x, rocblas_int incx, const float *beta, float *y, rocblas_int incy)#
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rocblas_status rocblas_dspmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *A, const double *x, rocblas_int incx, const double *beta, double *y, rocblas_int incy)#
BLAS Level 2 API
spmv performs the matrix-vector operation:
y := alpha*A*x + beta*y where alpha and beta are scalars, x and y are n element vectors and A should contain an upper or lower triangular n by n packed symmetric matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] rocblas_fill specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int]
alpha – [in] specifies the scalar alpha.
A – [in] pointer storing matrix A on the GPU.
x – [in] pointer storing vector x on the GPU.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] specifies the scalar beta.
y – [out] pointer storing vector y on the GPU.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
The spmv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sspmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *const A[], const float *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_dspmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *const A[], const double *const x[], rocblas_int incx, const double *beta, double *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
spmv_batched performs the matrix-vector operation:
y_i := alpha*A_i*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 n by n symmetric matrix, for i = 1, ..., batch_count. A should contain an upper or lower triangular n by n packed symmetric matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] number of rows and columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix A_i.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [out] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The spmv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sspmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *A, rocblas_stride strideA, const float *x, rocblas_int incx, rocblas_stride stridex, const float *beta, float *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_dspmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *A, rocblas_stride strideA, const double *x, rocblas_int incx, rocblas_stride stridex, const double *beta, double *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
BLAS Level 2 API
spmv_strided_batched performs the matrix-vector operation:
y_i := alpha*A_i*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 n by n symmetric matrix, for i = 1, ..., batch_count. A should contain an upper or lower triangular n by n packed symmetric matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] number of rows and columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] Device pointer to the first matrix A_1 on the GPU.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
x – [in] Device pointer to the first vector x_1 on the GPU.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
stridex – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1). There are no restrictions placed on stridex. However, ensure that stridex is of appropriate size. This typically means stridex >= n * incx. stridex should be non zero.
beta – [in] device pointer or host pointer to scalar beta.
y – [out] Device pointer to the first vector y_1 on the GPU.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
stridey – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1). There are no restrictions placed on stridey. However, ensure that stridey is of appropriate size. This typically means stridey >= n * incy. stridey should be non zero.
batch_count – [in] [rocblas_int] number of instances in the batch.
The spmv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xspr + batched, strided_batched#
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rocblas_status rocblas_sspr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, float *AP)#
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rocblas_status rocblas_dspr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, double *AP)#
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rocblas_status rocblas_cspr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_float_complex *AP)#
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rocblas_status rocblas_zspr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_double_complex *AP)#
BLAS Level 2 API
spr performs the matrix-vector operations:
A := A + alpha*x*x**T where alpha is a scalar, x is a vector, and A is an n by n symmetric matrix, supplied in packed form.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of A is supplied in AP.
rocblas_fill_lower: The lower triangular part of A is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of matrix A. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
AP – [inout] device pointer storing the packed version of the specified triangular portion of the symmetric matrix A. Of at least size ((n * (n + 1)) / 2).
if uplo == rocblas_fill_upper: The upper triangular portion of the symmetric matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 4) 1 2 4 7 2 3 5 8 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 4 5 6 9 7 8 9 0 if uplo == rocblas_fill_lower: The lower triangular portion of the symmetric matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 4) 1 2 3 4 2 5 6 7 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 3 6 8 9 4 7 9 0
The spr functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sspr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *const x[], rocblas_int incx, float *const AP[], rocblas_int batch_count)#
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rocblas_status rocblas_dspr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *const x[], rocblas_int incx, double *const AP[], rocblas_int batch_count)#
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rocblas_status rocblas_cspr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, rocblas_float_complex *const AP[], rocblas_int batch_count)#
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rocblas_status rocblas_zspr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, rocblas_double_complex *const AP[], rocblas_int batch_count)#
BLAS Level 2 API
spr_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*x_i**T where alpha is a scalar, x_i is a vector, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
AP – [inout] device array of device pointers storing the packed version of the specified triangular portion of each symmetric matrix A_i of at least size ((n * (n + 1)) / 2). Array is of at least size batch_count.
if uplo == rocblas_fill_upper: The upper triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 4) 1 2 4 7 2 3 5 8 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 4 5 6 9 7 8 9 0 if uplo == rocblas_fill_lower: The lower triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 4) 1 2 3 4 2 5 6 7 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 3 6 8 9 4 7 9 0
batch_count – [in] [rocblas_int] number of instances in the batch.
The spr_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sspr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, rocblas_stride stride_x, float *AP, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_dspr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, rocblas_stride stride_x, double *AP, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_cspr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_float_complex *AP, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_zspr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_double_complex *AP, rocblas_stride stride_A, rocblas_int batch_count)#
BLAS Level 2 API
spr_strided_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*x_i**T where alpha is a scalar, x_i is a vector, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer pointing to the first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
AP – [inout] device pointer storing the packed version of the specified triangular portion of each symmetric matrix A_i. Points to the first A_1.
if uplo == rocblas_fill_upper: The upper triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 4) 1 2 4 7 2 3 5 8 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 4 5 6 9 7 8 9 0 if uplo == rocblas_fill_lower: The lower triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 4) 1 2 3 4 2 5 6 7 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 3 6 8 9 4 7 9 0
stride_A – [in] [rocblas_stride] stride from the start of one (A_i) and the next (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The spr_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xspr2 + batched, strided_batched#
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rocblas_status rocblas_sspr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, const float *y, rocblas_int incy, float *AP)#
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rocblas_status rocblas_dspr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, const double *y, rocblas_int incy, double *AP)#
BLAS Level 2 API
spr2 performs the matrix-vector operation:
A := A + alpha*x*y**T + alpha*y*x**T where alpha is a scalar, x and y are vectors, and A is an n by n symmetric matrix, supplied in packed form.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of A is supplied in AP.
rocblas_fill_lower: The lower triangular part of A is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of matrix A. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
y – [in] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
AP – [inout] device pointer storing the packed version of the specified triangular portion of the symmetric matrix A. Of at least size ((n * (n + 1)) / 2).
if uplo == rocblas_fill_upper: The upper triangular portion of the symmetric matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 4) 1 2 4 7 2 3 5 8 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 4 5 6 9 7 8 9 0 if uplo == rocblas_fill_lower: The lower triangular portion of the symmetric matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(n) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 4) 1 2 3 4 2 5 6 7 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 3 6 8 9 4 7 9 0
The spr2 functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sspr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *const x[], rocblas_int incx, const float *const y[], rocblas_int incy, float *const AP[], rocblas_int batch_count)#
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rocblas_status rocblas_dspr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *const x[], rocblas_int incx, const double *const y[], rocblas_int incy, double *const AP[], rocblas_int batch_count)#
BLAS Level 2 API
spr2_batched performs the matrix-vector operation:
A_i := A_i + alpha*x_i*y_i**T + alpha*y_i*x_i**T where alpha is a scalar, x_i and y_i are vectors, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
y – [in] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
AP – [inout] device array of device pointers storing the packed version of the specified triangular portion of each symmetric matrix A_i of at least size ((n * (n + 1)) / 2). Array is of at least size batch_count.
if uplo == rocblas_fill_upper: The upper triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 4) 1 2 4 7 2 3 5 8 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 4 5 6 9 7 8 9 0 if uplo == rocblas_fill_lower: The lower triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(n) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 4) 1 2 3 4 2 5 6 7 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 3 6 8 9 4 7 9 0
batch_count – [in] [rocblas_int] number of instances in the batch.
The spr2_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_sspr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, rocblas_stride stride_x, const float *y, rocblas_int incy, rocblas_stride stride_y, float *AP, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_dspr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, rocblas_stride stride_x, const double *y, rocblas_int incy, rocblas_stride stride_y, double *AP, rocblas_stride stride_A, rocblas_int batch_count)#
BLAS Level 2 API
spr2_strided_batched performs the matrix-vector operation:
A_i := A_i + alpha*x_i*y_i**T + alpha*y_i*x_i**T where alpha is a scalar, x_i and y_i are vectors, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer pointing to the first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
y – [in] device pointer pointing to the first vector (y_1).
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
stride_y – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1).
AP – [inout] device pointer storing the packed version of the specified triangular portion of each symmetric matrix A_i. Points to the first A_1.
if uplo == rocblas_fill_upper: The upper triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 4) 1 2 4 7 2 3 5 8 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 4 5 6 9 7 8 9 0 if uplo == rocblas_fill_lower: The lower triangular portion of each symmetric matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(n) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 4) 1 2 3 4 2 5 6 7 -----> [1, 2, 3, 4, 5, 6, 7, 8, 9, 0] 3 6 8 9 4 7 9 0
stride_A – [in] [rocblas_stride] stride from the start of one (A_i) and the next (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The spr2_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xsymv + batched, strided_batched#
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rocblas_status rocblas_ssymv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *A, rocblas_int lda, const float *x, rocblas_int incx, const float *beta, float *y, rocblas_int incy)#
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rocblas_status rocblas_dsymv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *A, rocblas_int lda, const double *x, rocblas_int incx, const double *beta, double *y, rocblas_int incy)#
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rocblas_status rocblas_csymv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy)#
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rocblas_status rocblas_zsymv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy)#
BLAS Level 2 API
symv performs the matrix-vector operation:
symv has an implementation which uses atomic operations. See Atomic Operations in the API Reference Guide for more information.y := alpha*A*x + beta*y where alpha and beta are scalars, x and y are n element vectors and A should contain an upper or lower triangular n by n symmetric matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced.
if rocblas_fill_lower, the upper part of A is not referenced.
n – [in] [rocblas_int]
alpha – [in] specifies the scalar alpha.
A – [in] pointer storing matrix A on the GPU
lda – [in] [rocblas_int] specifies the leading dimension of A.
x – [in] pointer storing vector x on the GPU.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] specifies the scalar beta
y – [out] pointer storing vector y on the GPU.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
The symv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssymv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *const A[], rocblas_int lda, const float *const x[], rocblas_int incx, const float *beta, float *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_dsymv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *const A[], rocblas_int lda, const double *const x[], rocblas_int incx, const double *beta, double *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_csymv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const A[], rocblas_int lda, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_zsymv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const A[], rocblas_int lda, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
symv_batched performs the matrix-vector operation:
y_i := alpha*A_i*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 n by n symmetric matrix, for i = 1, ..., batch_count. A a should contain an upper or lower triangular symmetric matrix and the opposing triangular part of A is not referenced.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced.
if rocblas_fill_lower, the upper part of A is not referenced.
n – [in] [rocblas_int] number of rows and columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of each matrix A_i.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [out] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The symv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssymv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *A, rocblas_int lda, rocblas_stride strideA, const float *x, rocblas_int incx, rocblas_stride stridex, const float *beta, float *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_dsymv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *A, rocblas_int lda, rocblas_stride strideA, const double *x, rocblas_int incx, rocblas_stride stridex, const double *beta, double *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_csymv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride strideA, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
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rocblas_status rocblas_zsymv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride strideA, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_int batch_count)#
BLAS Level 2 API
symv_strided_batched performs the matrix-vector operation:
y_i := alpha*A_i*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 n by n symmetric matrix, for i = 1, ..., batch_count. A a should contain an upper or lower triangular symmetric matrix and the opposing triangular part of A is not referenced.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] number of rows and columns of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] Device pointer to the first matrix A_1 on the GPU.
lda – [in] [rocblas_int] specifies the leading dimension of each matrix A_i.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
x – [in] Device pointer to the first vector x_1 on the GPU.
incx – [in] [rocblas_int] specifies the increment for the elements of each vector x_i.
stridex – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1). There are no restrictions placed on stride_x. However, ensure that stridex is of appropriate size. This typically means stridex >= n * incx. stridex should be non zero.
beta – [in] device pointer or host pointer to scalar beta.
y – [out] Device pointer to the first vector y_1 on the GPU.
incy – [in] [rocblas_int] specifies the increment for the elements of each vector y_i.
stridey – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1). There are no restrictions placed on stride_y. However, ensure that stridey is of appropriate size. This typically means stridey >= n * incy. stridey should be non zero.
batch_count – [in] [rocblas_int] number of instances in the batch.
The symv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xsyr + batched, strided_batched#
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rocblas_status rocblas_ssyr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, float *A, rocblas_int lda)#
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rocblas_status rocblas_dsyr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, double *A, rocblas_int lda)#
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rocblas_status rocblas_csyr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_float_complex *A, rocblas_int lda)#
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rocblas_status rocblas_zsyr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_double_complex *A, rocblas_int lda)#
BLAS Level 2 API
syr performs the matrix-vector operations:
A := A + alpha*x*x**T where alpha is a scalar, x is a vector, and A is an n by n symmetric matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] the number of rows and columns of matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
A – [inout] device pointer storing matrix A.
lda – [in] [rocblas_int] specifies the leading dimension of A.
The syr functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssyr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *const x[], rocblas_int incx, float *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_dsyr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *const x[], rocblas_int incx, double *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_csyr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, rocblas_float_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_zsyr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, rocblas_double_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
BLAS Level 2 API
syr_batched performs a batch of matrix-vector operations:
A[i] := A[i] + alpha*x[i]*x[i]**T where alpha is a scalar, x is an array of vectors, and A is an array of n by n symmetric matrices, for i = 1 , ... , batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] the number of rows and columns of matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
A – [inout] device array of device pointers storing each matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The syr_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssyr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, rocblas_stride stridex, float *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_dsyr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, rocblas_stride stridex, double *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_csyr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stridex, rocblas_float_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_zsyr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stridex, rocblas_double_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
BLAS Level 2 API
syr_strided_batched performs the matrix-vector operations:
A[i] := A[i] + alpha*x[i]*x[i]**T where alpha is a scalar, vectors, and A is an array of n by n symmetric matrices, for i = 1 , ... , batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] the number of rows and columns of each matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer to the first vector x_1.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stridex – [in] [rocblas_stride] specifies the pointer increment between vectors (x_i) and (x_i+1).
A – [inout] device pointer to the first matrix A_1.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The syr_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xsyr2 + batched, strided_batched#
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rocblas_status rocblas_ssyr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, const float *y, rocblas_int incy, float *A, rocblas_int lda)#
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rocblas_status rocblas_dsyr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, const double *y, rocblas_int incy, double *A, rocblas_int lda)#
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rocblas_status rocblas_csyr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *y, rocblas_int incy, rocblas_float_complex *A, rocblas_int lda)#
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rocblas_status rocblas_zsyr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *y, rocblas_int incy, rocblas_double_complex *A, rocblas_int lda)#
BLAS Level 2 API
syr2 performs the matrix-vector operations:
A := A + alpha*x*y**T + alpha*y*x**T where alpha is a scalar, x and y are vectors, and A is an n by n symmetric matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] the number of rows and columns of matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
y – [in] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
A – [inout] device pointer storing matrix A.
lda – [in] [rocblas_int] specifies the leading dimension of A.
The syr2 functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssyr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *const x[], rocblas_int incx, const float *const y[], rocblas_int incy, float *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_dsyr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *const x[], rocblas_int incx, const double *const y[], rocblas_int incy, double *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_csyr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *const y[], rocblas_int incy, rocblas_float_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_zsyr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *const y[], rocblas_int incy, rocblas_double_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
BLAS Level 2 API
syr2_batched performs a batch of matrix-vector operations:
A[i] := A[i] + alpha*x[i]*y[i]**T + alpha*y[i]*x[i]**T where alpha is a scalar, x[i] and y[i] are vectors, and A[i] is a n by n symmetric matrix, for i = 1 , ... , batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] the number of rows and columns of matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
y – [in] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
A – [inout] device array of device pointers storing each matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The syr2_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_ssyr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const float *x, rocblas_int incx, rocblas_stride stridex, const float *y, rocblas_int incy, rocblas_stride stridey, float *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_dsyr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const double *x, rocblas_int incx, rocblas_stride stridex, const double *y, rocblas_int incy, rocblas_stride stridey, double *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_csyr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_float_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_float_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
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rocblas_status rocblas_zsyr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stridex, const rocblas_double_complex *y, rocblas_int incy, rocblas_stride stridey, rocblas_double_complex *A, rocblas_int lda, rocblas_stride strideA, rocblas_int batch_count)#
BLAS Level 2 API
syr2_strided_batched the matrix-vector operations:
A[i] := A[i] + alpha*x[i]*y[i]**T + alpha*y[i]*x[i]**T where alpha is a scalar, x[i] and y[i] are vectors, and A[i] is a n by n symmetric matrices, for i = 1 , ... , batch_count
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
if rocblas_fill_upper, the lower part of A is not referenced
if rocblas_fill_lower, the upper part of A is not referenced
n – [in] [rocblas_int] the number of rows and columns of each matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer to the first vector x_1.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stridex – [in] [rocblas_stride] specifies the pointer increment between vectors (x_i) and (x_i+1).
y – [in] device pointer to the first vector y_1.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
stridey – [in] [rocblas_stride] specifies the pointer increment between vectors (y_i) and (y_i+1).
A – [inout] device pointer to the first matrix A_1.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
strideA – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The syr2_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xtbmv + batched, strided_batched#
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rocblas_status rocblas_stbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const float *A, rocblas_int lda, float *x, rocblas_int incx)#
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rocblas_status rocblas_dtbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const double *A, rocblas_int lda, double *x, rocblas_int incx)#
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rocblas_status rocblas_ctbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_float_complex *A, rocblas_int lda, rocblas_float_complex *x, rocblas_int incx)#
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rocblas_status rocblas_ztbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_double_complex *A, rocblas_int lda, rocblas_double_complex *x, rocblas_int incx)#
BLAS Level 2 API
tbmv performs one of the matrix-vector operations:
x := A*x or x := A**T*x or x := A**H*x, x is a vectors and A is a banded n by n matrix (see description below).
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper banded triangular matrix.
rocblas_fill_lower: A is a lower banded triangular matrix.
trans – [in] [rocblas_operation] indicates whether matrix A is tranposed (conjugated) or not.
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: The main diagonal of A is assumed to consist of only 1’s and is not referenced.
rocblas_diagonal_non_unit: No assumptions are made of A’s main diagonal.
n – [in] [rocblas_int] the number of rows and columns of the matrix represented by A.
k – [in] [rocblas_int]
if uplo == rocblas_fill_upper, k specifies the number of super-diagonals of the matrix A. if uplo == rocblas_fill_lower, k specifies the number of sub-diagonals of the matrix A. k must satisfy k > 0 && k < lda.
A – [in] device pointer storing banded triangular matrix A.
if uplo == rocblas_fill_upper: The matrix represented is an upper banded triangular matrix with the main diagonal and k super-diagonals, everything else can be assumed to be 0. The matrix is compacted so that the main diagonal resides on the k'th row, the first super diagonal resides on the RHS of the k-1'th row, etc, with the k'th diagonal on the RHS of the 0'th row. Ex: (rocblas_fill_upper; n = 5; k = 2) 1 6 9 0 0 0 0 9 8 7 0 2 7 8 0 0 6 7 8 9 0 0 3 8 7 ----> 1 2 3 4 5 0 0 0 4 9 0 0 0 0 0 0 0 0 0 5 0 0 0 0 0 if uplo == rocblas_fill_lower: The matrix represnted is a lower banded triangular matrix with the main diagonal and k sub-diagonals, everything else can be assumed to be 0. The matrix is compacted so that the main diagonal resides on the 0'th row, working up to the k'th diagonal residing on the LHS of the k'th row. Ex: (rocblas_fill_lower; n = 5; k = 2) 1 0 0 0 0 1 2 3 4 5 6 2 0 0 0 6 7 8 9 0 9 7 3 0 0 ----> 9 8 7 0 0 0 8 8 4 0 0 0 0 0 0 0 0 7 9 5 0 0 0 0 0
lda – [in] [rocblas_int] specifies the leading dimension of A. lda must satisfy lda > k.
x – [inout] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
The tbmv functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_stbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const float *const A[], rocblas_int lda, float *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_dtbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const double *const A[], rocblas_int lda, double *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ctbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_float_complex *const A[], rocblas_int lda, rocblas_float_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ztbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_double_complex *const A[], rocblas_int lda, rocblas_double_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
BLAS Level 2 API
tbmv_batched performs one of the matrix-vector operations:
x_i := A_i*x_i or x_i := A_i**T*x_i or x_i := A_i**H*x_i, where (A_i, x_i) is the i-th instance of the batch. x_i is a vector and A_i is an n by n matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: each A_i is an upper banded triangular matrix.
rocblas_fill_lower: each A_i is a lower banded triangular matrix.
trans – [in] [rocblas_operation] indicates whether each matrix A_i is tranposed (conjugated) or not.
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: The main diagonal of each A_i is assumed to consist of only 1’s and is not referenced.
rocblas_diagonal_non_unit: No assumptions are made of each A_i’s main diagonal.
n – [in] [rocblas_int] the number of rows and columns of the matrix represented by each A_i.
k – [in] [rocblas_int]
if uplo == rocblas_fill_upper, k specifies the number of super-diagonals of each matrix A_i. if uplo == rocblas_fill_lower, k specifies the number of sub-diagonals of each matrix A_i. k must satisfy k > 0 && k < lda.
A – [in] device array of device pointers storing each banded triangular matrix A_i.
if uplo == rocblas_fill_upper: The matrix represented is an upper banded triangular matrix with the main diagonal and k super-diagonals, everything else can be assumed to be 0. The matrix is compacted so that the main diagonal resides on the k'th row, the first super diagonal resides on the RHS of the k-1'th row, etc, with the k'th diagonal on the RHS of the 0'th row. Ex: (rocblas_fill_upper; n = 5; k = 2) 1 6 9 0 0 0 0 9 8 7 0 2 7 8 0 0 6 7 8 9 0 0 3 8 7 ----> 1 2 3 4 5 0 0 0 4 9 0 0 0 0 0 0 0 0 0 5 0 0 0 0 0 if uplo == rocblas_fill_lower: The matrix represnted is a lower banded triangular matrix with the main diagonal and k sub-diagonals, everything else can be assumed to be 0. The matrix is compacted so that the main diagonal resides on the 0'th row, working up to the k'th diagonal residing on the LHS of the k'th row. Ex: (rocblas_fill_lower; n = 5; k = 2) 1 0 0 0 0 1 2 3 4 5 6 2 0 0 0 6 7 8 9 0 9 7 3 0 0 ----> 9 8 7 0 0 0 8 8 4 0 0 0 0 0 0 0 0 7 9 5 0 0 0 0 0
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. lda must satisfy lda > k.
x – [inout] device array of device pointer storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The tbmv_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_stbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const float *A, rocblas_int lda, rocblas_stride stride_A, float *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_dtbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const double *A, rocblas_int lda, rocblas_stride stride_A, double *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ctbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ztbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation trans, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
BLAS Level 2 API
tbmv_strided_batched performs one of the matrix-vector operations:
x_i := A_i*x_i or x_i := A_i**T*x_i or x_i := A_i**H*x_i, where (A_i, x_i) is the i-th instance of the batch. x_i is a vector and A_i is an n by n matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: each A_i is an upper banded triangular matrix.
rocblas_fill_lower: each A_i is a lower banded triangular matrix.
trans – [in] [rocblas_operation] indicates whether each matrix A_i is tranposed (conjugated) or not.
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: The main diagonal of each A_i is assumed to consist of only 1’s and is not referenced.
rocblas_diagonal_non_unit: No assumptions are made of each A_i’s main diagonal.
n – [in] [rocblas_int] the number of rows and columns of the matrix represented by each A_i.
k – [in] [rocblas_int]
if uplo == rocblas_fill_upper, k specifies the number of super-diagonals of each matrix A_i. if uplo == rocblas_fill_lower, k specifies the number of sub-diagonals of each matrix A_i. k must satisfy k > 0 && k < lda.
A – [in] device array to the first matrix A_i of the batch. Stores each banded triangular matrix A_i.
if uplo == rocblas_fill_upper: The matrix represented is an upper banded triangular matrix with the main diagonal and k super-diagonals, everything else can be assumed to be 0. The matrix is compacted so that the main diagonal resides on the k'th row, the first super diagonal resides on the RHS of the k-1'th row, etc, with the k'th diagonal on the RHS of the 0'th row. Ex: (rocblas_fill_upper; n = 5; k = 2) 1 6 9 0 0 0 0 9 8 7 0 2 7 8 0 0 6 7 8 9 0 0 3 8 7 ----> 1 2 3 4 5 0 0 0 4 9 0 0 0 0 0 0 0 0 0 5 0 0 0 0 0 if uplo == rocblas_fill_lower: The matrix represnted is a lower banded triangular matrix with the main diagonal and k sub-diagonals, everything else can be assumed to be 0. The matrix is compacted so that the main diagonal resides on the 0'th row, working up to the k'th diagonal residing on the LHS of the k'th row. Ex: (rocblas_fill_lower; n = 5; k = 2) 1 0 0 0 0 1 2 3 4 5 6 2 0 0 0 6 7 8 9 0 9 7 3 0 0 ----> 9 8 7 0 0 0 8 8 4 0 0 0 0 0 0 0 0 7 9 5 0 0 0 0 0
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. lda must satisfy lda > k.
stride_A – [in] [rocblas_stride] stride from the start of one A_i matrix to the next A_(i + 1).
x – [inout] device array to the first vector x_i of the batch.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one x_i matrix to the next x_(i + 1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The tbmv_strided_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
rocblas_Xtbsv + batched, strided_batched#
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rocblas_status rocblas_stbsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const float *A, rocblas_int lda, float *x, rocblas_int incx)#
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rocblas_status rocblas_dtbsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const double *A, rocblas_int lda, double *x, rocblas_int incx)#
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rocblas_status rocblas_ctbsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_float_complex *A, rocblas_int lda, rocblas_float_complex *x, rocblas_int incx)#
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rocblas_status rocblas_ztbsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_double_complex *A, rocblas_int lda, rocblas_double_complex *x, rocblas_int incx)#
BLAS Level 2 API
tbsv solves:
A*x = b or A**T*x = b or A**H*x = b where x and b are vectors and A is a banded triangular matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: Solves A*x = b
rocblas_operation_transpose: Solves A**T*x = b
rocblas_operation_conjugate_transpose: Solves A**H*x = b
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular (i.e. the diagonal elements of A are not used in computations).
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of b. n >= 0.
k – [in] [rocblas_int]
if(uplo == rocblas_fill_upper) k specifies the number of super-diagonals of A. if(uplo == rocblas_fill_lower) k specifies the number of sub-diagonals of A. k >= 0.
A – [in] device pointer storing the matrix A in banded format.
lda – [in] [rocblas_int] specifies the leading dimension of A. lda >= (k + 1).
x – [inout] device pointer storing input vector b. Overwritten by the output vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
The tbsv functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_stbsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const float *const A[], rocblas_int lda, float *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_dtbsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const double *const A[], rocblas_int lda, double *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ctbsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_float_complex *const A[], rocblas_int lda, rocblas_float_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ztbsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_double_complex *const A[], rocblas_int lda, rocblas_double_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
BLAS Level 2 API
tbsv_batched solves:
The input vectors b_i are overwritten by the output vectors x_i.A_i*x_i = b_i or A_i**T*x_i = b_i or A_i**H*x_i = b_i where x_i and b_i are vectors and A_i is a banded triangular matrix, for i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A_i is an upper triangular matrix.
rocblas_fill_lower: A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: Solves A_i*x_i = b_i
rocblas_operation_transpose: Solves A_i**T*x_i = b_i
rocblas_operation_conjugate_transpose: Solves A_i**H*x_i = b_i
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: each A_i is assumed to be unit triangular (i.e. the diagonal elements of each A_i are not used in computations).
rocblas_diagonal_non_unit: each A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of each b_i. n >= 0.
k – [in] [rocblas_int]
if(uplo == rocblas_fill_upper) k specifies the number of super-diagonals of each A_i. if(uplo == rocblas_fill_lower) k specifies the number of sub-diagonals of each A_i. k >= 0.
A – [in] device vector of device pointers storing each matrix A_i in banded format.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. lda >= (k + 1).
x – [inout] device vector of device pointers storing each input vector b_i. Overwritten by each output vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The tbsv_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_stbsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const float *A, rocblas_int lda, rocblas_stride stride_A, float *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_dtbsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const double *A, rocblas_int lda, rocblas_stride stride_A, double *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ctbsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ztbsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, rocblas_int k, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
BLAS Level 2 API
tbsv_strided_batched solves:
The input vectors b_i are overwritten by the output vectors x_i.A_i*x_i = b_i or A_i**T*x_i = b_i or A_i**H*x_i = b_i where x_i and b_i are vectors and A_i is a banded triangular matrix, for i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A_i is an upper triangular matrix.
rocblas_fill_lower: A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: Solves A_i*x_i = b_i
rocblas_operation_transpose: Solves A_i**T*x_i = b_i
rocblas_operation_conjugate_transpose: Solves A_i**H*x_i = b_i
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: each A_i is assumed to be unit triangular (i.e. the diagonal elements of each A_i are not used in computations).
rocblas_diagonal_non_unit: each A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of each b_i. n >= 0.
k – [in] [rocblas_int]
if(uplo == rocblas_fill_upper) k specifies the number of super-diagonals of each A_i. if(uplo == rocblas_fill_lower) k specifies the number of sub-diagonals of each A_i. k >= 0.
A – [in] device pointer pointing to the first banded matrix A_1.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. lda >= (k + 1).
stride_A – [in] [rocblas_stride] specifies the distance between the start of one matrix (A_i) and the next (A_i+1).
x – [inout] device pointer pointing to the first input vector b_1. Overwritten by output vectors x.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] specifies the distance between the start of one vector (x_i) and the next (x_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The tbsv_strided_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
rocblas_Xtpmv + batched, strided_batched#
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rocblas_status rocblas_stpmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *A, float *x, rocblas_int incx)#
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rocblas_status rocblas_dtpmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *A, double *x, rocblas_int incx)#
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rocblas_status rocblas_ctpmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *A, rocblas_float_complex *x, rocblas_int incx)#
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rocblas_status rocblas_ztpmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *A, rocblas_double_complex *x, rocblas_int incx)#
BLAS Level 2 API
tpmv performs one of the matrix-vector operations:
x = A*x or x = A**T*x or x = A**H*x where x is an n element vector and A is an n by n unit, or non-unit, upper or lower triangular matrix, supplied in the pack form. The vector x is overwritten.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular.
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of A. n >= 0.
A – [in] device pointer storing matrix A, of dimension at leat ( n * ( n + 1 ) / 2 ).
Before entry with uplo = rocblas_fill_upper, the array A must contain the upper triangular matrix packed sequentially, column by column, so that A[0] contains a_{0,0}, A[1] and A[2] contain a_{0,1} and a_{1, 1}, respectively, and so on.
Before entry with uplo = rocblas_fill_lower, the array A must contain the lower triangular matrix packed sequentially, column by column, so that A[0] contains a_{0,0}, A[1] and A[2] contain a_{1,0} and a_{2,0}, respectively, and so on.
Note that when DIAG = rocblas_diagonal_unit, the diagonal elements of A are not referenced, but are assumed to be unity.
x – [inout] device pointer storing vector x. On exit, x is overwritten with the transformed vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x. incx must not be zero.
The tpmv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_stpmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *const *A, float *const *x, rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_dtpmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *const *A, double *const *x, rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ctpmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *const *A, rocblas_float_complex *const *x, rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ztpmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *const *A, rocblas_double_complex *const *x, rocblas_int incx, rocblas_int batch_count)#
BLAS Level 2 API
tpmv_batched performs one of the matrix-vector operations:
x_i = A_i*x_i or x_i = A_i**T*x_i or x_i = A_i**H*x_i, 0 < i < batch_count where x_i is an n element vector and A_i is an n by n (unit, or non-unit, upper or lower triangular matrix) The vectors x_i are overwritten.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A_i is an upper triangular matrix.
rocblas_fill_lower: A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A_i is assumed to be unit triangular.
rocblas_diagonal_non_unit: A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of matrices A_i. n >= 0.
A – [in] device pointer to an array of device pointers to the A_i matrices, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A_i, otherwise the lower triangular part of the leading n-by-n array contains the matrix A_i.
x – [inout] device pointer to an array of device pointers to the x_i vectors. On exit, each x_i is overwritten with the transformed vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of vectors x_i.
batch_count – [in] [rocblas_int] The number of batched matrices/vectors.
The tpmv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_stpmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *A, rocblas_stride stride_A, float *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_dtpmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *A, rocblas_stride stride_A, double *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ctpmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *A, rocblas_stride stride_A, rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ztpmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *A, rocblas_stride stride_A, rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
BLAS Level 2 API
tpmv_strided_batched performs one of the matrix-vector operations:
x_i = A_i*x_i or x_i = A_i**T*x_i or x_i = A_i**H*x_i, 0 < i < batch_count where x_i is an n element vector and A_i is an n by n (unit, or non-unit, upper or lower triangular matrix) with strides specifying how to retrieve $x_i$ (resp. $A_i$) from $x_{i-1}$ (resp. $A_i$). The vectors x_i are overwritten.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A_i is an upper triangular matrix.
rocblas_fill_lower: A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A_i is assumed to be unit triangular.
rocblas_diagonal_non_unit: A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of matrices A_i. n >= 0.
A – [in] device pointer to the matrix A_1 of the batch, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A_i, otherwise the lower triangular part of the leading n-by-n array contains the matrix A_i.
stride_A – [in] [rocblas_stride] stride from the start of one A_i matrix to the next A_{i + 1}.
x – [inout] device pointer to the vector x_1 of the batch. On exit, each x_i is overwritten with the transformed vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of one vector x.
stride_x – [in] [rocblas_stride] stride from the start of one x_i vector to the next x_{i + 1}.
batch_count – [in] [rocblas_int] The number of batched matrices/vectors.
The tpmv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xtpsv + batched, strided_batched#
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rocblas_status rocblas_stpsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *AP, float *x, rocblas_int incx)#
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rocblas_status rocblas_dtpsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *AP, double *x, rocblas_int incx)#
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rocblas_status rocblas_ctpsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *AP, rocblas_float_complex *x, rocblas_int incx)#
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rocblas_status rocblas_ztpsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *AP, rocblas_double_complex *x, rocblas_int incx)#
BLAS Level 2 API
tpsv solves:
The input vector b is overwritten by the output vector x.A*x = b or A**T*x = b or A**H*x = b where x and b are vectors and A is a triangular matrix stored in the packed format.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: Solves A*x = b
rocblas_operation_transpose: Solves A**T*x = b
rocblas_operation_conjugate_transpose: Solves A**H*x = b
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular (i.e. the diagonal elements of A are not used in computations).
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of b. n >= 0.
AP – [in] device pointer storing the packed version of matrix A, of dimension >= (n * (n + 1) / 2).
x – [inout] device pointer storing vector b on input, overwritten by x on output.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
The tpsv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_stpsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *const AP[], float *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_dtpsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *const AP[], double *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ctpsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *const AP[], rocblas_float_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ztpsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *const AP[], rocblas_double_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
BLAS Level 2 API
tpsv_batched solves:
The input vectors b_i are overwritten by the output vectors x_i.A_i*x_i = b_i or A_i**T*x_i = b_i or A_i**H*x_i = b_i where x_i and b_i are vectors and A_i is a triangular matrix stored in the packed format, for i in [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: each A_i is an upper triangular matrix.
rocblas_fill_lower: each A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: Solves A*x = b
rocblas_operation_transpose: Solves A**T*x = b
rocblas_operation_conjugate_transpose: Solves A**H*x = b
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: Each A_i is assumed to be unit triangular (i.e. the diagonal elements of each A_i are not used in computations).
rocblas_diagonal_non_unit: each A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of each b_i. n >= 0.
AP – [in] device array of device pointers storing the packed versions of each matrix A_i, of dimension >= (n * (n + 1) / 2).
x – [inout] device array of device pointers storing each input vector b_i, overwritten by x_i on output.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
batch_count – [in] [rocblas_int] specifies the number of instances in the batch.
The tpsv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_stpsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *AP, rocblas_stride stride_A, float *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_dtpsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *AP, rocblas_stride stride_A, double *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ctpsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *AP, rocblas_stride stride_A, rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ztpsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *AP, rocblas_stride stride_A, rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
BLAS Level 2 API
tpsv_strided_batched solves:
The input vectors b_i are overwritten by the output vectors x_i.A_i*x_i = b_i or A_i**T*x_i = b_i or A_i**H*x_i = b_i where x_i and b_i are vectors and A_i is a triangular matrix stored in the packed format, for i in [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: each A_i is an upper triangular matrix.
rocblas_fill_lower: each A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: Solves A*x = b
rocblas_operation_transpose: Solves A**T*x = b
rocblas_operation_conjugate_transpose: Solves A**H*x = b
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: each A_i is assumed to be unit triangular (i.e. the diagonal elements of each A_i are not used in computations).
rocblas_diagonal_non_unit: each A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of each b_i. n >= 0.
AP – [in] device pointer pointing to the first packed matrix A_1, of dimension >= (n * (n + 1) / 2).
stride_A – [in] [rocblas_stride] stride from the beginning of one packed matrix (AP_i) and the next (AP_i+1).
x – [inout] device pointer pointing to the first input vector b_1. Overwritten by each x_i on output.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the beginning of one vector (x_i) and the next (x_i+1).
batch_count – [in] [rocblas_int] specifies the number of instances in the batch.
The tpsv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xtrmv + batched, strided_batched#
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rocblas_status rocblas_strmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *A, rocblas_int lda, float *x, rocblas_int incx)#
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rocblas_status rocblas_dtrmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *A, rocblas_int lda, double *x, rocblas_int incx)#
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rocblas_status rocblas_ctrmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *A, rocblas_int lda, rocblas_float_complex *x, rocblas_int incx)#
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rocblas_status rocblas_ztrmv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *A, rocblas_int lda, rocblas_double_complex *x, rocblas_int incx)#
BLAS Level 2 API
trmv performs one of the matrix-vector operations:
x = A*x or x = A**T*x or x = A**H*x where x is an n element vector and A is an n by n unit, or non-unit, upper or lower triangular matrix. The vector x is overwritten.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular.
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of A. n >= 0.
A – [in] device pointer storing matrix A, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A, otherwise the lower triangular part of the leading n-by-n array contains the matrix A.
lda – [in] [rocblas_int] specifies the leading dimension of A. lda must be at least max( 1, n ).
x – [inout] device pointer storing vector x. On exit, x is overwritten with the transformed vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
The trmv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_strmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *const *A, rocblas_int lda, float *const *x, rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_dtrmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *const *A, rocblas_int lda, double *const *x, rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ctrmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *const *A, rocblas_int lda, rocblas_float_complex *const *x, rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ztrmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *const *A, rocblas_int lda, rocblas_double_complex *const *x, rocblas_int incx, rocblas_int batch_count)#
BLAS Level 2 API
trmv_batched performs one of the matrix-vector operations:
x_i = A_i*x_i or x_i = A_i**T*x_i or x_i = A_i**H*x_i, 0 < i < batch_count where x_i is an n element vector and A_i is an n by n (unit, or non-unit, upper or lower triangular matrix) The vectors x_i are overwritten.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A_i is an upper triangular matrix.
rocblas_fill_lower: A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A_i is assumed to be unit triangular.
rocblas_diagonal_non_unit: A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of matrices A_i. n >= 0.
A – [in] device pointer to an array of device pointers to the A_i matrices, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A_i, otherwise the lower triangular part of the leading n-by-n array contains the matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of A_i. lda must be at least max( 1, n ).
x – [inout] device pointer to an array of device pointers to the x_i vectors. On exit, each x_i is overwritten with the transformed vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of vectors x_i.
batch_count – [in] [rocblas_int] The number of batched matrices/vectors.
The trmv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_strmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *A, rocblas_int lda, rocblas_stride stride_A, float *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_dtrmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *A, rocblas_int lda, rocblas_stride stride_A, double *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ctrmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ztrmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
BLAS Level 2 API
trmv_strided_batched performs one of the matrix-vector operations:
The vectors x_i are overwritten.x_i = A_i*x_i or x_i = A_i**T*x_i, or x_i = A_i**H*x_i, 0 < i < batch_count where x_i is an n element vector and A_i is an n by n (unit, or non-unit, upper or lower triangular matrix) with strides specifying how to retrieve $x_i$ (resp. $A_i$) from $x_{i-1}$ (resp. $A_i$).
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A_i is an upper triangular matrix.
rocblas_fill_lower: A_i is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A_i is assumed to be unit triangular.
rocblas_diagonal_non_unit: A_i is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of matrices A_i. n >= 0.
A – [in] device pointer to the matrix A_1 of the batch, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A_i, otherwise the lower triangular part of the leading n-by-n array contains the matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of A_i. lda must be at least max( 1, n ).
stride_A – [in] [rocblas_stride] stride from the start of one A_i matrix to the next A_{i + 1}.
x – [inout] device pointer to the vector x_1 of the batch. On exit, each x_i is overwritten with the transformed vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of one vector x.
stride_x – [in] [rocblas_stride] stride from the start of one x_i vector to the next x_{i + 1}.
batch_count – [in] [rocblas_int] The number of batched matrices/vectors.
The trmv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xtrsv + batched, strided_batched#
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rocblas_status rocblas_strsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *A, rocblas_int lda, float *x, rocblas_int incx)#
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rocblas_status rocblas_dtrsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *A, rocblas_int lda, double *x, rocblas_int incx)#
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rocblas_status rocblas_ctrsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *A, rocblas_int lda, rocblas_float_complex *x, rocblas_int incx)#
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rocblas_status rocblas_ztrsv(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *A, rocblas_int lda, rocblas_double_complex *x, rocblas_int incx)#
BLAS Level 2 API
trsv solves:
Although not widespread, some gemm kernels used by trsv may use atomic operations. See Atomic Operations in the API Reference Guide for more information.A*x = b or A**T*x = b or A**H*x = b, where x and b are vectors and A is a triangular matrix. The vector x is overwritten on b.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular.
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of b. n >= 0.
A – [in] device pointer storing matrix A, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A, otherwise the lower triangular part of the leading n-by-n array contains the matrix A.
lda – [in] [rocblas_int] specifies the leading dimension of A. lda must be at least max( 1, n ).
x – [inout] device pointer storing vector x. On exit, x is overwritten with the transformed vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
The trsv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_strsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *const A[], rocblas_int lda, float *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_dtrsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *const A[], rocblas_int lda, double *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ctrsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *const A[], rocblas_int lda, rocblas_float_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
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rocblas_status rocblas_ztrsv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *const A[], rocblas_int lda, rocblas_double_complex *const x[], rocblas_int incx, rocblas_int batch_count)#
BLAS Level 2 API
trsv_batched solves:
The vector x is overwritten on b.A_i*x_i = b_i or A_i**T*x_i = b_i or A_i**H*x_i = b_i, where (A_i, x_i, b_i) is the i-th instance of the batch. x_i and b_i are vectors and A_i is an n by n triangular matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular.
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of b. n >= 0.
A – [in] device pointer to an array of device pointers to the A_i matrices, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A_i, otherwise the lower triangular part of the leading n-by-n array contains the matrix A_i.
lda – [in] [rocblas_int] specifies the leading dimension of A_i. lda must be at least max( 1, n ).
x – [inout] device pointer to an array of device pointers to the x_i vectors. On exit, each x_i is overwritten with the transformed vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
batch_count – [in] [rocblas_int] number of instances in the batch.
The trsv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_strsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const float *A, rocblas_int lda, rocblas_stride stride_A, float *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_dtrsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const double *A, rocblas_int lda, rocblas_stride stride_A, double *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ctrsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
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rocblas_status rocblas_ztrsv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_operation transA, rocblas_diagonal diag, rocblas_int n, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_int batch_count)#
BLAS Level 2 API
trsv_strided_batched solves:
The vector x is overwritten on b.A_i*x_i = b_i or A_i**T*x_i = b_i or A_i**H*x_i = b_i, where (A_i, x_i, b_i) is the i-th instance of the batch. x_i and b_i are vectors and A_i is an n by n triangular matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: A is an upper triangular matrix.
rocblas_fill_lower: A is a lower triangular matrix.
transA – [in] [rocblas_operation]
rocblas_operation_none: op(A) = A.
rocblas_operation_transpose: op(A) = A^T
rocblas_operation_conjugate_transpose: op(A) = A^H
diag – [in] [rocblas_diagonal]
rocblas_diagonal_unit: A is assumed to be unit triangular.
rocblas_diagonal_non_unit: A is not assumed to be unit triangular.
n – [in] [rocblas_int] n specifies the number of rows of each b_i. n >= 0.
A – [in] device pointer to the matrix A_1 of the batch, of dimension ( lda, n ). If uplo == rocblas_fill_upper, the upper triangular part of the leading n-by-n array contains the matrix A_i, otherwise the lower triangular part of the leading n-by-n array contains the matrix A_i.
stride_A – [in] [rocblas_stride] stride from the start of one A_i matrix to the next A_(i + 1).
lda – [in] [rocblas_int] specifies the leading dimension of A_i. lda must be at least max( 1, n ).
x – [inout] device pointer to the vector x_1 of the batch. On exit, each x_i is overwritten with the transformed vector x_i.
stride_x – [in] [rocblas_stride] stride from the start of one x_i vector to the next x_(i + 1)
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
batch_count – [in] [rocblas_int] number of instances in the batch.
The trsv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xhemv + batched, strided_batched#
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rocblas_status rocblas_chemv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy)#
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rocblas_status rocblas_zhemv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy)#
BLAS Level 2 API
hemv performs one of the matrix-vector operations:
y := alpha*A*x + beta*y where alpha and beta are scalars, x and y are n element vectors and A is an n by n Hermitian matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: the upper triangular part of the Hermitian matrix A is supplied.
rocblas_fill_lower: the lower triangular part of the Hermitian matrix A is supplied.
n – [in] [rocblas_int] the order of the matrix A.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device pointer storing matrix A. Of dimension (lda, n).
if uplo == rocblas_fill_upper: The upper triangular part of A must contain the upper triangular part of a Hermitian matrix. The lower triangular part of A will not be referenced. if uplo == rocblas_fill_lower: The lower triangular part of A must contain the lower triangular part of a Hermitian matrix. The upper triangular part of A will not be referenced. As a Hermitian matrix, the imaginary part of the main diagonal of A will not be referenced and is assumed to be == 0.
lda – [in] [rocblas_int] specifies the leading dimension of A. must be >= max(1, n).
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
The hemv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_chemv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const A[], rocblas_int lda, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_zhemv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const A[], rocblas_int lda, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
hemv_batched performs one of the matrix-vector operations:
y_i := alpha*A_i*x_i + beta*y_i where alpha and beta are scalars, x_i and y_i are n element vectors and A_i is an n by n Hermitian matrix, for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: the upper triangular part of the Hermitian matrix A is supplied.
rocblas_fill_lower: the lower triangular part of the Hermitian matrix A is supplied.
n – [in] [rocblas_int] the order of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix A_i of dimension (lda, n).
if uplo == rocblas_fill_upper: The upper triangular part of each A_i must contain the upper triangular part of a Hermitian matrix. The lower triangular part of each A_i will not be referenced. if uplo == rocblas_fill_lower: The lower triangular part of each A_i must contain the lower triangular part of a Hermitian matrix. The upper triangular part of each A_i will not be referenced. As a Hermitian matrix, the imaginary part of the main diagonal of each A_i will not be referenced and is assumed to be == 0.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. must be >= max(1, n).
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
batch_count – [in] [rocblas_int] number of instances in the batch.
The hemv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_chemv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
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rocblas_status rocblas_zhemv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
BLAS Level 2 API
hemv_strided_batched performs one of the matrix-vector operations:
y_i := alpha*A_i*x_i + beta*y_i where alpha and beta are scalars, x_i and y_i are n element vectors and A_i is an n by n Hermitian matrix, for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: the upper triangular part of the Hermitian matrix A is supplied.
rocblas_fill_lower: the lower triangular part of the Hermitian matrix A is supplied.
n – [in] [rocblas_int] the order of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix A_i of dimension (lda, n).
if uplo == rocblas_fill_upper: The upper triangular part of each A_i must contain the upper triangular part of a Hermitian matrix. The lower triangular part of each A_i will not be referenced. if uplo == rocblas_fill_lower: The lower triangular part of each A_i must contain the lower triangular part of a Hermitian matrix. The upper triangular part of each A_i will not be referenced. As a Hermitian matrix, the imaginary part of the main diagonal of each A_i will not be referenced and is assumed to be == 0.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. must be >= max(1, n).
stride_A – [in] [rocblas_stride] stride from the start of one (A_i) to the next (A_i+1).
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
stride_y – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The hemv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xhbmv + batched, strided_batched#
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rocblas_status rocblas_chbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy)#
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rocblas_status rocblas_zhbmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy)#
BLAS Level 2 API
hbmv performs the matrix-vector operations:
y := alpha*A*x + beta*y where alpha and beta are scalars, x and y are n element vectors and A is an n by n Hermitian band matrix, with k super-diagonals.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: The upper triangular part of A is being supplied.
rocblas_fill_lower: The lower triangular part of A is being supplied.
n – [in] [rocblas_int] the order of the matrix A.
k – [in] [rocblas_int] the number of super-diagonals of the matrix A. Must be >= 0.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device pointer storing matrix A. Of dimension (lda, n).
if uplo == rocblas_fill_upper: The leading (k + 1) by n part of A must contain the upper triangular band part of the Hermitian matrix, with the leading diagonal in row (k + 1), the first super-diagonal on the RHS of row k, etc. The top left k by x triangle of A will not be referenced. Ex (upper, lda = n = 4, k = 1): A Represented matrix (0,0) (5,9) (6,8) (7,7) (1, 0) (5, 9) (0, 0) (0, 0) (1,0) (2,0) (3,0) (4,0) (5,-9) (2, 0) (6, 8) (0, 0) (0,0) (0,0) (0,0) (0,0) (0, 0) (6,-8) (3, 0) (7, 7) (0,0) (0,0) (0,0) (0,0) (0, 0) (0, 0) (7,-7) (4, 0) if uplo == rocblas_fill_lower: The leading (k + 1) by n part of A must contain the lower triangular band part of the Hermitian matrix, with the leading diagonal in row (1), the first sub-diagonal on the LHS of row 2, etc. The bottom right k by k triangle of A will not be referenced. Ex (lower, lda = 2, n = 4, k = 1): A Represented matrix (1,0) (2,0) (3,0) (4,0) (1, 0) (5,-9) (0, 0) (0, 0) (5,9) (6,8) (7,7) (0,0) (5, 9) (2, 0) (6,-8) (0, 0) (0, 0) (6, 8) (3, 0) (7,-7) (0, 0) (0, 0) (7, 7) (4, 0) As a Hermitian matrix, the imaginary part of the main diagonal of A will not be referenced and is assumed to be == 0.
lda – [in] [rocblas_int] specifies the leading dimension of A. must be >= k + 1.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
The hbmv functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_chbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const rocblas_float_complex *alpha, const rocblas_float_complex *const A[], rocblas_int lda, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_zhbmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const rocblas_double_complex *alpha, const rocblas_double_complex *const A[], rocblas_int lda, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
hbmv_batched performs one of the matrix-vector operations:
y_i := alpha*A_i*x_i + beta*y_i where alpha and beta are scalars, x_i and y_i are n element vectors and A_i is an n by n Hermitian band matrix with k super-diagonals, for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: The upper triangular part of each A_i is being supplied.
rocblas_fill_lower: The lower triangular part of each A_i is being supplied.
n – [in] [rocblas_int] the order of each matrix A_i.
k – [in] [rocblas_int] the number of super-diagonals of each matrix A_i. Must be >= 0.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array of device pointers storing each matrix_i A of dimension (lda, n).
if uplo == rocblas_fill_upper: The leading (k + 1) by n part of each A_i must contain the upper triangular band part of the Hermitian matrix, with the leading diagonal in row (k + 1), the first super-diagonal on the RHS of row k, etc. The top left k by x triangle of each A_i will not be referenced. Ex (upper, lda = n = 4, k = 1): A Represented matrix (0,0) (5,9) (6,8) (7,7) (1, 0) (5, 9) (0, 0) (0, 0) (1,0) (2,0) (3,0) (4,0) (5,-9) (2, 0) (6, 8) (0, 0) (0,0) (0,0) (0,0) (0,0) (0, 0) (6,-8) (3, 0) (7, 7) (0,0) (0,0) (0,0) (0,0) (0, 0) (0, 0) (7,-7) (4, 0) if uplo == rocblas_fill_lower: The leading (k + 1) by n part of each A_i must contain the lower triangular band part of the Hermitian matrix, with the leading diagonal in row (1), the first sub-diagonal on the LHS of row 2, etc. The bottom right k by k triangle of each A_i will not be referenced. Ex (lower, lda = 2, n = 4, k = 1): A Represented matrix (1,0) (2,0) (3,0) (4,0) (1, 0) (5,-9) (0, 0) (0, 0) (5,9) (6,8) (7,7) (0,0) (5, 9) (2, 0) (6,-8) (0, 0) (0, 0) (6, 8) (3, 0) (7,-7) (0, 0) (0, 0) (7, 7) (4, 0) As a Hermitian matrix, the imaginary part of the main diagonal of each A_i will not be referenced and is assumed to be == 0.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. must be >= max(1, n).
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
batch_count – [in] [rocblas_int] number of instances in the batch.
The hbmv_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
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rocblas_status rocblas_chbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const rocblas_float_complex *alpha, const rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
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rocblas_status rocblas_zhbmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, rocblas_int k, const rocblas_double_complex *alpha, const rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
BLAS Level 2 API
hbmv_strided_batched performs one of the matrix-vector operations:
y_i := alpha*A_i*x_i + beta*y_i where alpha and beta are scalars, x_i and y_i are n element vectors and A_i is an n by n Hermitian band matrix with k super-diagonals, for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: The upper triangular part of each A_i is being supplied.
rocblas_fill_lower: The lower triangular part of each A_i is being supplied.
n – [in] [rocblas_int] the order of each matrix A_i.
k – [in] [rocblas_int] the number of super-diagonals of each matrix A_i. Must be >= 0.
alpha – [in] device pointer or host pointer to scalar alpha.
A – [in] device array pointing to the first matrix A_1. Each A_i is of dimension (lda, n).
if uplo == rocblas_fill_upper: The leading (k + 1) by n part of each A_i must contain the upper triangular band part of the Hermitian matrix, with the leading diagonal in row (k + 1), the first super-diagonal on the RHS of row k, etc. The top left k by x triangle of each A_i will not be referenced. Ex (upper, lda = n = 4, k = 1): A Represented matrix (0,0) (5,9) (6,8) (7,7) (1, 0) (5, 9) (0, 0) (0, 0) (1,0) (2,0) (3,0) (4,0) (5,-9) (2, 0) (6, 8) (0, 0) (0,0) (0,0) (0,0) (0,0) (0, 0) (6,-8) (3, 0) (7, 7) (0,0) (0,0) (0,0) (0,0) (0, 0) (0, 0) (7,-7) (4, 0) if uplo == rocblas_fill_lower: The leading (k + 1) by n part of each A_i must contain the lower triangular band part of the Hermitian matrix, with the leading diagonal in row (1), the first sub-diagonal on the LHS of row 2, etc. The bottom right k by k triangle of each A_i will not be referenced. Ex (lower, lda = 2, n = 4, k = 1): A Represented matrix (1,0) (2,0) (3,0) (4,0) (1, 0) (5,-9) (0, 0) (0, 0) (5,9) (6,8) (7,7) (0,0) (5, 9) (2, 0) (6,-8) (0, 0) (0, 0) (6, 8) (3, 0) (7,-7) (0, 0) (0, 0) (7, 7) (4, 0) As a Hermitian matrix, the imaginary part of the main diagonal of each A_i will not be referenced and is assumed to be == 0.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. must be >= max(1, n).
stride_A – [in] [rocblas_stride] stride from the start of one matrix (A_i) and the next one (A_i+1).
x – [in] device array pointing to the first vector y_1.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array pointing to the first vector y_1.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
stride_y – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The hbmv_strided_batched functions support the _64 interface. Parameters n and k larger than int32_t max value are not currently supported. Refer to section ILP64 Interface.
rocblas_Xhpmv + batched, strided_batched#
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rocblas_status rocblas_chpmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *AP, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy)#
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rocblas_status rocblas_zhpmv(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *AP, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy)#
BLAS Level 2 API
hpmv performs the matrix-vector operation:
y := alpha*A*x + beta*y where alpha and beta are scalars, x and y are n element vectors and A is an n by n Hermitian matrix, supplied in packed form (see description below).
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: the upper triangular part of the Hermitian matrix A is supplied in AP.
rocblas_fill_lower: the lower triangular part of the Hermitian matrix A is supplied in AP.
n – [in] [rocblas_int] the order of the matrix A. Must be >= 0.
alpha – [in] device pointer or host pointer to scalar alpha.
AP – [in] device pointer storing the packed version of the specified triangular portion of the Hermitian matrix A. Of at least size ((n * (n + 1)) / 2).
Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.if uplo == rocblas_fill_upper: The upper triangular portion of the Hermitian matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (3, 2) (2,-1) (4, 0) (5,-1) ---> [(1,0),(2,1),(4,0),(3,2),(5,-1),(6,0)] (3,-2) (5, 1) (6, 0) if uplo == rocblas_fill_lower: The lower triangular portion of the Hermitian matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (3, 2) (2,-1) (4, 0) (5,-1) ---> [(1,0),(2,-1),(3,-2),(4,0),(5,1),(6,0)] (3,-2) (5, 1) (6, 0)
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
The hpmv functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_chpmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const AP[], const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *beta, rocblas_float_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
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rocblas_status rocblas_zhpmv_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const AP[], const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *beta, rocblas_double_complex *const y[], rocblas_int incy, rocblas_int batch_count)#
BLAS Level 2 API
hpmv_batched performs the matrix-vector operation:
y_i := alpha*A_i*x_i + beta*y_i where alpha and beta are scalars, x_i and y_i are n element vectors and A_i is an n by n Hermitian matrix, supplied in packed form (see description below), for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: the upper triangular part of each Hermitian matrix A_i is supplied in AP.
rocblas_fill_lower: the lower triangular part of each Hermitian matrix A_i is supplied in AP.
n – [in] [rocblas_int] the order of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
AP – [in] device pointer of device pointers storing the packed version of the specified triangular portion of each Hermitian matrix A_i. Each A_i is of at least size ((n * (n + 1)) / 2).
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that each AP_i contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (3, 2) (2,-1) (4, 0) (5,-1) ---> [(1,0),(2,1),(4,0),(3,2),(5,-1),(6,0)] (3,-2) (5, 1) (6, 0) if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that each AP_i contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (3, 2) (2,-1) (4, 0) (5,-1) ---> [(1,0),(2,-1),(3,-2),(4,0),(5,1),(6,0)] (3,-2) (5, 1) (6, 0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
batch_count – [in] [rocblas_int] number of instances in the batch.
The hpmv_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_chpmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *AP, rocblas_stride stride_A, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_float_complex *beta, rocblas_float_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
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rocblas_status rocblas_zhpmv_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *AP, rocblas_stride stride_A, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_double_complex *beta, rocblas_double_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_int batch_count)#
BLAS Level 2 API
hpmv_strided_batched performs the matrix-vector operation:
y_i := alpha*A_i*x_i + beta*y_i where alpha and beta are scalars, x_i and y_i are n element vectors and A_i is an n by n Hermitian matrix, supplied in packed form (see description below), for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill]
rocblas_fill_upper: the upper triangular part of each Hermitian matrix A_i is supplied in AP.
rocblas_fill_lower: the lower triangular part of each Hermitian matrix A_i is supplied in AP.
n – [in] [rocblas_int] the order of each matrix A_i.
alpha – [in] device pointer or host pointer to scalar alpha.
AP – [in] device pointer pointing to the beginning of the first matrix (AP_1). Stores the packed version of the specified triangular portion of each Hermitian matrix AP_i of size ((n * (n + 1)) / 2).
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that each AP_i contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (3, 2) (2,-1) (4, 0) (5,-1) ---> [(1,0),(2,1),(4,0),(3,2),(5,-1),(6,0)] (3,-2) (5, 1) (6, 0) if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that each AP_i contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (3, 2) (2,-1) (4, 0) (5,-1) ---> [(1,0),(2,-1),(3,-2),(4,0),(5,1),(6,0)] (3,-2) (5, 1) (6, 0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
stride_A – [in] [rocblas_stride] stride from the start of one matrix (AP_i) and the next one (AP_i+1).
x – [in] device array pointing to the beginning of the first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
beta – [in] device pointer or host pointer to scalar beta.
y – [inout] device array pointing to the beginning of the first vector (y_1).
incy – [in] [rocblas_int] specifies the increment for the elements of y.
stride_y – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The hpmv_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xher + batched, strided_batched#
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rocblas_status rocblas_cher(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_float_complex *A, rocblas_int lda)#
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rocblas_status rocblas_zher(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_double_complex *A, rocblas_int lda)#
BLAS Level 2 API
her performs the matrix-vector operations:
A := A + alpha*x*x**H where alpha is a real scalar, x is a vector, and A is an n by n Hermitian matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of A is supplied in A.
rocblas_fill_lower: The lower triangular part of A is supplied in A.
n – [in] [rocblas_int] the number of rows and columns of matrix A. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
A – [inout] device pointer storing the specified triangular portion of the Hermitian matrix A. Of size (lda * n).
if uplo == rocblas_fill_upper: The upper triangular portion of the Hermitian matrix A is supplied. The lower triangluar portion will not be touched. if uplo == rocblas_fill_lower: The lower triangular portion of the Hermitian matrix A is supplied. The upper triangular portion will not be touched. Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
lda – [in] [rocblas_int] specifies the leading dimension of A. Must be at least max(1, n).
The her functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_cher_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const rocblas_float_complex *const x[], rocblas_int incx, rocblas_float_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_zher_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const rocblas_double_complex *const x[], rocblas_int incx, rocblas_double_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
BLAS Level 2 API
her_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*x_i**H where alpha is a real scalar, x_i is a vector, and A_i is an n by n symmetric matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in A.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in A.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
A – [inout] device array of device pointers storing the specified triangular portion of each Hermitian matrix A_i of at least size ((n * (n + 1)) / 2). Array is of at least size batch_count.
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The lower triangular portion of each A_i will not be touched. if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The upper triangular portion of each A_i will not be touched. Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. Must be at least max(1, n).
batch_count – [in] [rocblas_int] number of instances in the batch.
The her_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_cher_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_zher_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_int batch_count)#
BLAS Level 2 API
her_strided_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*x_i**H where alpha is a real scalar, x_i is a vector, and A_i is an n by n Hermitian matrix, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in A.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in A.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer pointing to the first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
A – [inout] device array of device pointers storing the specified triangular portion of each Hermitian matrix A_i. Points to the first matrix (A_1).
Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The lower triangular portion of each A_i will not be touched. if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The upper triangular portion of each A_i will not be touched.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i.
stride_A – [in] [rocblas_stride] stride from the start of one (A_i) and the next (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The her_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xher2 + batched, strided_batched#
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rocblas_status rocblas_cher2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *y, rocblas_int incy, rocblas_float_complex *A, rocblas_int lda)#
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rocblas_status rocblas_zher2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *y, rocblas_int incy, rocblas_double_complex *A, rocblas_int lda)#
BLAS Level 2 API
her2 performs the matrix-vector operations:
A := A + alpha*x*y**H + conj(alpha)*y*x**H where alpha is a complex scalar, x and y are vectors, and A is an n by n Hermitian matrix.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of A is supplied.
rocblas_fill_lower: The lower triangular part of A is supplied.
n – [in] [rocblas_int] the number of rows and columns of matrix A. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
y – [in] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
A – [inout] device pointer storing the specified triangular portion of the Hermitian matrix A. Of size (lda, n).
Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.if uplo == rocblas_fill_upper: The upper triangular portion of the Hermitian matrix A is supplied. The lower triangular portion of A will not be touched. if uplo == rocblas_fill_lower: The lower triangular portion of the Hermitian matrix A is supplied. The upper triangular portion of A will not be touched.
lda – [in] [rocblas_int] specifies the leading dimension of A. Must be at least max(lda, 1).
The her2 functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_cher2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *const y[], rocblas_int incy, rocblas_float_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
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rocblas_status rocblas_zher2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *const y[], rocblas_int incy, rocblas_double_complex *const A[], rocblas_int lda, rocblas_int batch_count)#
BLAS Level 2 API
her2_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*y_i**H + conj(alpha)*y_i*x_i**H where alpha is a complex scalar, x_i and y_i are vectors, and A_i is an n by n Hermitian matrix for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied.
rocblas_fill_lower: The lower triangular part of each A_i is supplied.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
y – [in] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
A – [inout] device array of device pointers storing the specified triangular portion of each Hermitian matrix A_i of size (lda, n).
Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The lower triangular portion of each A_i will not be touched. if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The upper triangular portion of each A_i will not be touched.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. Must be at least max(lda, 1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The her2_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_cher2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_float_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_float_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_zher2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_double_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_double_complex *A, rocblas_int lda, rocblas_stride stride_A, rocblas_int batch_count)#
BLAS Level 2 API
her2_strided_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*y_i**H + conj(alpha)*y_i*x_i**H where alpha is a complex scalar, x_i and y_i are vectors, and A_i is an n by n Hermitian matrix for each batch in i = [1, batch_count].
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied.
rocblas_fill_lower: The lower triangular part of each A_i is supplied.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer pointing to the first vector x_1.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] specifies the stride between the beginning of one vector (x_i) and the next (x_i+1).
y – [in] device pointer pointing to the first vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
stride_y – [in] [rocblas_stride] specifies the stride between the beginning of one vector (y_i) and the next (y_i+1).
A – [inout] device pointer pointing to the first matrix (A_1). Stores the specified triangular portion of each Hermitian matrix A_i.
Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The lower triangular portion of each A_i will not be touched. if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The upper triangular portion of each A_i will not be touched.
lda – [in] [rocblas_int] specifies the leading dimension of each A_i. Must be at least max(lda, 1).
stride_A – [in] [rocblas_stride] specifies the stride between the beginning of one matrix (A_i) and the next (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The her2_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xhpr + batched, strided_batched#
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rocblas_status rocblas_chpr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_float_complex *AP)#
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rocblas_status rocblas_zhpr(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_double_complex *AP)#
BLAS Level 2 API
hpr performs the matrix-vector operations:
A := A + alpha*x*x**H where alpha is a real scalar, x is a vector, and A is an n by n Hermitian matrix, supplied in packed form.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of A is supplied in AP.
rocblas_fill_lower: The lower triangular part of A is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of matrix A. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
AP – [inout] device pointer storing the packed version of the specified triangular portion of the Hermitian matrix A. Of at least size ((n * (n + 1)) / 2).
if uplo == rocblas_fill_upper: The upper triangular portion of the Hermitian matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,1),(3,0),(4,9),(5,3),(6,0)] (4,-9) (5,-3) (6,0) if uplo == rocblas_fill_lower: The lower triangular portion of the Hermitian matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,-1),(4,-9),(3,0),(5,-3),(6,0)] (4,-9) (5,-3) (6,0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
The hpr functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_chpr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const rocblas_float_complex *const x[], rocblas_int incx, rocblas_float_complex *const AP[], rocblas_int batch_count)#
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rocblas_status rocblas_zhpr_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const rocblas_double_complex *const x[], rocblas_int incx, rocblas_double_complex *const AP[], rocblas_int batch_count)#
BLAS Level 2 API
hpr_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*x_i**H where alpha is a real scalar, x_i is a vector, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
AP – [inout] device array of device pointers storing the packed version of the specified triangular portion of each Hermitian matrix A_i of at least size ((n * (n + 1)) / 2). Array is of at least size batch_count.
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,1),(3,0),(4,9),(5,3),(6,0)] (4,-9) (5,-3) (6,0) if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,-1),(4,-9),(3,0),(5,-3),(6,0)] (4,-9) (5,-3) (6,0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
batch_count – [in] [rocblas_int] number of instances in the batch.
The hpr_batched functions support the _64 interface. Refer to section ILP64 Interface.
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rocblas_status rocblas_chpr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const float *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_float_complex *AP, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_zhpr_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const double *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, rocblas_double_complex *AP, rocblas_stride stride_A, rocblas_int batch_count)#
BLAS Level 2 API
hpr_strided_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*x_i**H where alpha is a real scalar, x_i is a vector, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer pointing to the first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
AP – [inout] device array of device pointers storing the packed version of the specified triangular portion of each Hermitian matrix A_i. Points to the first matrix (A_1).
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,1),(3,0),(4,9),(5,3),(6,0)] (4,-9) (5,-3) (6,0) if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,-1),(4,-9),(3,0),(5,-3),(6,0)] (4,-9) (5,-3) (6,0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
stride_A – [in] [rocblas_stride] stride from the start of one (A_i) and the next (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.
The hpr_strided_batched functions support the _64 interface. Refer to section ILP64 Interface.
rocblas_Xhpr2 + batched, strided_batched#
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rocblas_status rocblas_chpr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, const rocblas_float_complex *y, rocblas_int incy, rocblas_float_complex *AP)#
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rocblas_status rocblas_zhpr2(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, const rocblas_double_complex *y, rocblas_int incy, rocblas_double_complex *AP)#
BLAS Level 2 API
hpr2 performs the matrix-vector operations:
A := A + alpha*x*y**H + conj(alpha)*y*x**H where alpha is a complex scalar, x and y are vectors, and A is an n by n Hermitian matrix, supplied in packed form.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of A is supplied in AP.
rocblas_fill_lower: The lower triangular part of A is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of matrix A. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer storing vector x.
incx – [in] [rocblas_int] specifies the increment for the elements of x.
y – [in] device pointer storing vector y.
incy – [in] [rocblas_int] specifies the increment for the elements of y.
AP – [inout] device pointer storing the packed version of the specified triangular portion of the Hermitian matrix A. Of at least size ((n * (n + 1)) / 2).
if uplo == rocblas_fill_upper: The upper triangular portion of the Hermitian matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,1),(3,0),(4,9),(5,3),(6,0)] (4,-9) (5,-3) (6,0) if uplo == rocblas_fill_lower: The lower triangular portion of the Hermitian matrix A is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,-1),(4,-9),(3,0),(5,-3),(6,0)] (4,-9) (5,-3) (6,0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
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rocblas_status rocblas_chpr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *const x[], rocblas_int incx, const rocblas_float_complex *const y[], rocblas_int incy, rocblas_float_complex *const AP[], rocblas_int batch_count)#
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rocblas_status rocblas_zhpr2_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *const x[], rocblas_int incx, const rocblas_double_complex *const y[], rocblas_int incy, rocblas_double_complex *const AP[], rocblas_int batch_count)#
BLAS Level 2 API
hpr2_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*y_i**H + conj(alpha)*y_i*x_i**H where alpha is a complex scalar, x_i and y_i are vectors, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device array of device pointers storing each vector x_i.
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
y – [in] device array of device pointers storing each vector y_i.
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
AP – [inout] device array of device pointers storing the packed version of the specified triangular portion of each Hermitian matrix A_i of at least size ((n * (n + 1)) / 2). Array is of at least size batch_count.
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,1),(3,0),(4,9),(5,3),(6,0)] (4,-9) (5,-3) (6,0) if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) --> [(1,0),(2,-1),(4,-9),(3,0),(5,-3),(6,0)] (4,-9) (5,-3) (6,0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
batch_count – [in] [rocblas_int] number of instances in the batch.
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rocblas_status rocblas_chpr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_float_complex *alpha, const rocblas_float_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_float_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_float_complex *AP, rocblas_stride stride_A, rocblas_int batch_count)#
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rocblas_status rocblas_zhpr2_strided_batched(rocblas_handle handle, rocblas_fill uplo, rocblas_int n, const rocblas_double_complex *alpha, const rocblas_double_complex *x, rocblas_int incx, rocblas_stride stride_x, const rocblas_double_complex *y, rocblas_int incy, rocblas_stride stride_y, rocblas_double_complex *AP, rocblas_stride stride_A, rocblas_int batch_count)#
BLAS Level 2 API
hpr2_strided_batched performs the matrix-vector operations:
A_i := A_i + alpha*x_i*y_i**H + conj(alpha)*y_i*x_i**H where alpha is a complex scalar, x_i and y_i are vectors, and A_i is an n by n symmetric matrix, supplied in packed form, for i = 1, ..., batch_count.
- Parameters:
handle – [in] [rocblas_handle] handle to the rocblas library context queue.
uplo – [in] [rocblas_fill] specifies whether the upper ‘rocblas_fill_upper’ or lower ‘rocblas_fill_lower’
rocblas_fill_upper: The upper triangular part of each A_i is supplied in AP.
rocblas_fill_lower: The lower triangular part of each A_i is supplied in AP.
n – [in] [rocblas_int] the number of rows and columns of each matrix A_i. Must be at least 0.
alpha – [in] device pointer or host pointer to scalar alpha.
x – [in] device pointer pointing to the first vector (x_1).
incx – [in] [rocblas_int] specifies the increment for the elements of each x_i.
stride_x – [in] [rocblas_stride] stride from the start of one vector (x_i) and the next one (x_i+1).
y – [in] device pointer pointing to the first vector (y_1).
incy – [in] [rocblas_int] specifies the increment for the elements of each y_i.
stride_y – [in] [rocblas_stride] stride from the start of one vector (y_i) and the next one (y_i+1).
AP – [inout] device array of device pointers storing the packed version of the specified triangular portion of each Hermitian matrix A_i. Points to the first matrix (A_1).
if uplo == rocblas_fill_upper: The upper triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(0,1) AP(2) = A(1,1), etc. Ex: (rocblas_fill_upper; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,1),(3,0),(4,9),(5,3),(6,0)] (4,-9) (5,-3) (6,0) if uplo == rocblas_fill_lower: The lower triangular portion of each Hermitian matrix A_i is supplied. The matrix is compacted so that AP contains the triangular portion column-by-column so that: AP(0) = A(0,0) AP(1) = A(1,0) AP(2) = A(2,1), etc. Ex: (rocblas_fill_lower; n = 3) (1, 0) (2, 1) (4,9) (2,-1) (3, 0) (5,3) ---> [(1,0),(2,-1),(4,-9),(3,0),(5,-3),(6,0)] (4,-9) (5,-3) (6,0) Note that the imaginary part of the diagonal elements are not accessed and are assumed to be 0.
stride_A – [in] [rocblas_stride] stride from the start of one (A_i) and the next (A_i+1).
batch_count – [in] [rocblas_int] number of instances in the batch.