ungqr

cungqr

Functions

void cungqr(
    const INT           m,
    const INT           n,
    const INT           k,
          c64* restrict A,
    const INT           lda,
    const c64* restrict tau,
          c64* restrict work,
    const INT           lwork,
          INT*          info
);

void cungqr(const INT m, const INT n, const INT k, c64 *restrict A, const INT lda, const c64 *restrict tau, c64 *restrict work, const INT lwork, INT *info)

CUNGQR generates an M-by-N complex matrix Q with orthonormal columns, which is defined as the first N columns of a product of K elementary reflectors of order M.

Q = H(0) H(1) … H(k-1)

as returned by CGEQRF.

Parameters

in

m

The number of rows of Q. m >= 0.

in

n

The number of columns of Q. m >= n >= 0.

in

k

The number of elementary reflectors whose product defines Q. n >= k >= 0.

inout

A

On entry, the i-th column must contain the vector which defines the elementary reflector H(i), for i = 0,1,…,k-1, as returned by CGEQRF. On exit, the m-by-n matrix Q.

in

lda

The leading dimension of A. lda >= max(1, m).

in

tau

Array of dimension (k). TAU(i) is the scalar factor of H(i), as returned by CGEQRF.

out

work

Workspace, dimension (max(1, lwork)). On exit, work[0] contains the optimal lwork.

in

lwork

Dimension of work. lwork >= max(1, n). For optimal performance, lwork >= n*nb. If lwork == -1, workspace query only.

out

info

• = 0: successful exit

• < 0: if info = -i, the i-th argument had an illegal value.

zungqr

Functions

void zungqr(
    const INT            m,
    const INT            n,
    const INT            k,
          c128* restrict A,
    const INT            lda,
    const c128* restrict tau,
          c128* restrict work,
    const INT            lwork,
          INT*           info
);

void zungqr(const INT m, const INT n, const INT k, c128 *restrict A, const INT lda, const c128 *restrict tau, c128 *restrict work, const INT lwork, INT *info)

ZUNGQR generates an M-by-N complex matrix Q with orthonormal columns, which is defined as the first N columns of a product of K elementary reflectors of order M.

Q = H(0) H(1) … H(k-1)

as returned by ZGEQRF.

Parameters

in

m

The number of rows of Q. m >= 0.

in

n

The number of columns of Q. m >= n >= 0.

in

k

The number of elementary reflectors whose product defines Q. n >= k >= 0.

inout

A

On entry, the i-th column must contain the vector which defines the elementary reflector H(i), for i = 0,1,…,k-1, as returned by ZGEQRF. On exit, the m-by-n matrix Q.

in

lda

The leading dimension of A. lda >= max(1, m).

in

tau

Array of dimension (k). TAU(i) is the scalar factor of H(i), as returned by ZGEQRF.

out

work

Workspace, dimension (max(1, lwork)). On exit, work[0] contains the optimal lwork.

in

lwork

Dimension of work. lwork >= max(1, n). For optimal performance, lwork >= n*nb. If lwork == -1, workspace query only.

out

info

• = 0: successful exit

• < 0: if info = -i, the i-th argument had an illegal value.