Provided by: liblapack-doc-man_3.5.0-2ubuntu1_all 
NAME
dlasd7.f -
SYNOPSIS
Functions/Subroutines
subroutine dlasd7 (ICOMPQ, NL, NR, SQRE, K, D, Z, ZW, VF, VFW, VL, VLW, ALPHA, BETA,
DSIGMA, IDX, IDXP, IDXQ, PERM, GIVPTR, GIVCOL, LDGCOL, GIVNUM, LDGNUM, C, S, INFO)
DLASD7 merges the two sets of singular values together into a single sorted set. Then
it tries to deflate the size of the problem. Used by sbdsdc.
Function/Subroutine Documentation
subroutine dlasd7 (integerICOMPQ, integerNL, integerNR, integerSQRE, integerK, double
precision, dimension( * )D, double precision, dimension( * )Z, double precision,
dimension( * )ZW, double precision, dimension( * )VF, double precision, dimension( * )VFW,
double precision, dimension( * )VL, double precision, dimension( * )VLW, double
precisionALPHA, double precisionBETA, double precision, dimension( * )DSIGMA, integer,
dimension( * )IDX, integer, dimension( * )IDXP, integer, dimension( * )IDXQ, integer,
dimension( * )PERM, integerGIVPTR, integer, dimension( ldgcol, * )GIVCOL, integerLDGCOL,
double precision, dimension( ldgnum, * )GIVNUM, integerLDGNUM, double precisionC, double
precisionS, integerINFO)
DLASD7 merges the two sets of singular values together into a single sorted set. Then it
tries to deflate the size of the problem. Used by sbdsdc.
Purpose:
DLASD7 merges the two sets of singular values together into a single
sorted set. Then it tries to deflate the size of the problem. There
are two ways in which deflation can occur: when two or more singular
values are close together or if there is a tiny entry in the Z
vector. For each such occurrence the order of the related
secular equation problem is reduced by one.
DLASD7 is called from DLASD6.
Parameters:
ICOMPQ
ICOMPQ is INTEGER
Specifies whether singular vectors are to be computed
in compact form, as follows:
= 0: Compute singular values only.
= 1: Compute singular vectors of upper
bidiagonal matrix in compact form.
NL
NL is INTEGER
The row dimension of the upper block. NL >= 1.
NR
NR is INTEGER
The row dimension of the lower block. NR >= 1.
SQRE
SQRE is INTEGER
= 0: the lower block is an NR-by-NR square matrix.
= 1: the lower block is an NR-by-(NR+1) rectangular matrix.
The bidiagonal matrix has
N = NL + NR + 1 rows and
M = N + SQRE >= N columns.
K
K is INTEGER
Contains the dimension of the non-deflated matrix, this is
the order of the related secular equation. 1 <= K <=N.
D
D is DOUBLE PRECISION array, dimension ( N )
On entry D contains the singular values of the two submatrices
to be combined. On exit D contains the trailing (N-K) updated
singular values (those which were deflated) sorted into
increasing order.
Z
Z is DOUBLE PRECISION array, dimension ( M )
On exit Z contains the updating row vector in the secular
equation.
ZW
ZW is DOUBLE PRECISION array, dimension ( M )
Workspace for Z.
VF
VF is DOUBLE PRECISION array, dimension ( M )
On entry, VF(1:NL+1) contains the first components of all
right singular vectors of the upper block; and VF(NL+2:M)
contains the first components of all right singular vectors
of the lower block. On exit, VF contains the first components
of all right singular vectors of the bidiagonal matrix.
VFW
VFW is DOUBLE PRECISION array, dimension ( M )
Workspace for VF.
VL
VL is DOUBLE PRECISION array, dimension ( M )
On entry, VL(1:NL+1) contains the last components of all
right singular vectors of the upper block; and VL(NL+2:M)
contains the last components of all right singular vectors
of the lower block. On exit, VL contains the last components
of all right singular vectors of the bidiagonal matrix.
VLW
VLW is DOUBLE PRECISION array, dimension ( M )
Workspace for VL.
ALPHA
ALPHA is DOUBLE PRECISION
Contains the diagonal element associated with the added row.
BETA
BETA is DOUBLE PRECISION
Contains the off-diagonal element associated with the added
row.
DSIGMA
DSIGMA is DOUBLE PRECISION array, dimension ( N )
Contains a copy of the diagonal elements (K-1 singular values
and one zero) in the secular equation.
IDX
IDX is INTEGER array, dimension ( N )
This will contain the permutation used to sort the contents of
D into ascending order.
IDXP
IDXP is INTEGER array, dimension ( N )
This will contain the permutation used to place deflated
values of D at the end of the array. On output IDXP(2:K)
points to the nondeflated D-values and IDXP(K+1:N)
points to the deflated singular values.
IDXQ
IDXQ is INTEGER array, dimension ( N )
This contains the permutation which separately sorts the two
sub-problems in D into ascending order. Note that entries in
the first half of this permutation must first be moved one
position backward; and entries in the second half
must first have NL+1 added to their values.
PERM
PERM is INTEGER array, dimension ( N )
The permutations (from deflation and sorting) to be applied
to each singular block. Not referenced if ICOMPQ = 0.
GIVPTR
GIVPTR is INTEGER
The number of Givens rotations which took place in this
subproblem. Not referenced if ICOMPQ = 0.
GIVCOL
GIVCOL is INTEGER array, dimension ( LDGCOL, 2 )
Each pair of numbers indicates a pair of columns to take place
in a Givens rotation. Not referenced if ICOMPQ = 0.
LDGCOL
LDGCOL is INTEGER
The leading dimension of GIVCOL, must be at least N.
GIVNUM
GIVNUM is DOUBLE PRECISION array, dimension ( LDGNUM, 2 )
Each number indicates the C or S value to be used in the
corresponding Givens rotation. Not referenced if ICOMPQ = 0.
LDGNUM
LDGNUM is INTEGER
The leading dimension of GIVNUM, must be at least N.
C
C is DOUBLE PRECISION
C contains garbage if SQRE =0 and the C-value of a Givens
rotation related to the right null space if SQRE = 1.
S
S is DOUBLE PRECISION
S contains garbage if SQRE =0 and the S-value of a Givens
rotation related to the right null space if SQRE = 1.
INFO
INFO is INTEGER
= 0: successful exit.
< 0: if INFO = -i, the i-th argument had an illegal value.
Author:
Univ. of Tennessee
Univ. of California Berkeley
Univ. of Colorado Denver
NAG Ltd.
Date:
September 2012
Contributors:
Ming Gu and Huan Ren, Computer Science Division, University of California at Berkeley,
USA
Definition at line 278 of file dlasd7.f.
Author
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