double-complex precision

Functions

void magmablas_zlarfg_q (magma_int_t n, magmaDoubleComplex_ptr dalpha, magmaDoubleComplex_ptr dx, magma_int_t incx, magmaDoubleComplex_ptr dtau, magma_queue_t queue)
 ZLARFG generates a complex elementary reflector (Householder matrix) H of order n, such that.
void magmablas_zlarfg (magma_int_t n, magmaDoubleComplex_ptr dalpha, magmaDoubleComplex_ptr dx, magma_int_t incx, magmaDoubleComplex_ptr dtau)

Function Documentation

void magmablas_zlarfg ( magma_int_t  n,
magmaDoubleComplex_ptr  dalpha,
magmaDoubleComplex_ptr  dx,
magma_int_t  incx,
magmaDoubleComplex_ptr  dtau 
)
void magmablas_zlarfg_q ( magma_int_t  n,
magmaDoubleComplex_ptr  dalpha,
magmaDoubleComplex_ptr  dx,
magma_int_t  incx,
magmaDoubleComplex_ptr  dtau,
magma_queue_t  queue 
)

ZLARFG generates a complex elementary reflector (Householder matrix) H of order n, such that.

H * ( alpha ) = ( beta ), H**H * H = I. ( x ) ( 0 )

where alpha and beta are scalars, with beta real and beta = ±norm([alpha, x]), and x is an (n-1)-element complex vector. H is represented in the form

H = I - tau * ( 1 ) * ( 1 v**H ), ( v )

where tau is a complex scalar and v is a complex (n-1)-element vector. Note that H is not Hermitian.

If the elements of x are all zero and dalpha is real, then tau = 0 and H is taken to be the unit matrix.

Otherwise 1 <= real(tau) <= 2 and abs(tau-1) <= 1.

Parameters:
[in] n INTEGER The order of the elementary reflector.
[in,out] dalpha COMPLEX_16* on the GPU. On entry, pointer to the value alpha, i.e., the first entry of the vector. On exit, it is overwritten with the value beta.
[in,out] dx COMPLEX_16 array, dimension (1+(N-2)*abs(INCX)), on the GPU On entry, the (n-1)-element vector x. On exit, it is overwritten with the vector v.
[in] incx INTEGER The increment between elements of X. INCX > 0.
[out] dtau COMPLEX_16* on the GPU. Pointer to the value tau.
[in] queue magma_queue_t Queue to execute in.

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