NAG FL Interface
f06scf (zhemv)

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1 Purpose

f06scf computes the matrix-vector product for a complex Hermitian matrix.

2 Specification

Fortran Interface
Subroutine f06scf ( uplo, n, alpha, a, lda, x, incx, beta, y, incy)
Integer, Intent (In) :: n, lda, incx, incy
Complex (Kind=nag_wp), Intent (In) :: alpha, a(lda,*), x(*), beta
Complex (Kind=nag_wp), Intent (Inout) :: y(*)
Character (1), Intent (In) :: uplo
C Header Interface
#include <nag.h>
void  f06scf_ (const char *uplo, const Integer *n, const Complex *alpha, const Complex a[], const Integer *lda, const Complex x[], const Integer *incx, const Complex *beta, Complex y[], const Integer *incy, const Charlen length_uplo)
The routine may be called by the names f06scf, nagf_blas_zhemv or its BLAS name zhemv.

3 Description

f06scf performs the matrix-vector operation
yαAx+βy ,  
where A is an n×n complex Hermitian matrix, x and y are n-element complex vectors, and α and β are complex scalars.

4 References

None.

5 Arguments

1: uplo Character(1) Input
On entry: specifies whether the upper or lower triangular part of A is stored.
uplo='U'
The upper triangular part of A is stored.
uplo='L'
The lower triangular part of A is stored.
Constraint: uplo='U' or 'L'.
2: n Integer Input
On entry: n, the order of the matrix A.
Constraint: n0.
3: alpha Complex (Kind=nag_wp) Input
On entry: the scalar α.
4: a(lda,*) Complex (Kind=nag_wp) array Input
Note: the second dimension of the array a must be at least max(1,n).
On entry: the n×n Hermitian matrix A.
  • If uplo='U', the upper triangular part of A must be stored and the elements of the array below the diagonal are not referenced.
  • If uplo='L', the lower triangular part of A must be stored and the elements of the array above the diagonal are not referenced.
5: lda Integer Input
On entry: the first dimension of the array a as declared in the (sub)program from which f06scf is called.
Constraint: lda max(1,n) .
6: x(*) Complex (Kind=nag_wp) array Input
Note: the dimension of the array x must be at least max(1, 1+(n-1) ×|incx| ) .
On entry: the n-element vector x.
If incx>0, xi must be stored in x(1+(i-1)×incx), for i=1,2,,n.
If incx<0, xi must be stored in x(1-(n-i)×incx), for i=1,2,,n.
Intermediate elements of x are not referenced.
7: incx Integer Input
On entry: the increment in the subscripts of x between successive elements of x.
Constraint: incx0.
8: beta Complex (Kind=nag_wp) Input
On entry: the scalar β.
9: y(*) Complex (Kind=nag_wp) array Input/Output
Note: the dimension of the array y must be at least max(1, 1+(n-1) ×|incy| ) .
On entry: the n-element vector y, if beta=0.0, y need not be set.
If incy>0, yi must be stored in y(1+(i1)×incy) , for i=1,2,,n.
If incy<0, yi must be stored in y(1(ni)×incy) , for i=1,2,,n.
On exit: the updated vector y stored in the array elements used to supply the original vector y.
10: incy Integer Input
On entry: the increment in the subscripts of y between successive elements of y.
Constraint: incy0.

6 Error Indicators and Warnings

None.

7 Accuracy

Not applicable.

8 Parallelism and Performance

f06scf is not threaded in any implementation.

9 Further Comments

None.

10 Example

None.