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claed8 (3)
  • >> claed8 (3) ( Solaris man: Библиотечные вызовы )
  • 
    NAME
         claed8 - merge the two sets of eigenvalues together  into  a
         single sorted set
    
    SYNOPSIS
         SUBROUTINE CLAED8( K, N, QSIZ, Q, LDQ, D,  RHO,  CUTPNT,  Z,
                   DLAMDA,  Q2,  LDQ2,  W,  INDXP, INDX, INDXQ, PERM,
                   GIVPTR, GIVCOL, GIVNUM, INFO )
    
         INTEGER CUTPNT, GIVPTR, INFO, K, LDQ, LDQ2, N, QSIZ
    
         REAL RHO
    
         INTEGER GIVCOL( 2, * ), INDX( * ), INDXP( * ), INDXQ(  *  ),
                   PERM( * )
    
         REAL D( * ), DLAMDA( * ), GIVNUM( 2, * ), W( * ), Z( * )
    
         COMPLEX Q( LDQ, * ), Q2( LDQ2, * )
    
    
    
         #include <sunperf.h>
    
         void claed8(int *k, int n, int qsiz, complex  *q,  int  ldq,
                   float  *d,  float  *srho,  int  cutpnt, float *sz,
                   float * dlamda, complex *q2, int ldq2,  float  *w,
                   int  *indxp, int *indx, int *indxq, int *perm, int
                   *givptr, int *givcol, float *givnum, int *info);
    
    PURPOSE
         CLAED8 merges the two sets of eigenvalues  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 eigenvalues are close together or if there
         is a tiny element in the Z vector.  For each such occurrence
         the order of the related secular equation problem is reduced
         by one.
    
    
    ARGUMENTS
         K         (output) INTEGER
                   Contains the number of  non-deflated  eigenvalues.
                   This is the order of the related secular equation.
    
         N         (input) INTEGER
                   The dimension of the symmetric tridiagonal matrix.
                   N >= 0.
    
         QSIZ      (input) INTEGER
                   The dimension of the unitary matrix used to reduce
                   the  dense  or  band  matrix  to tridiagonal form.
                   QSIZ >= N if ICOMPQ = 1.
    
         Q         (input/output) COMPLEX array, dimension (LDQ,N)
                   On entry, Q contains the eigenvectors of the  par-
                   tially  solved  system  which  has been previously
                   updated in matrix multiplies with other  partially
                   solved  eigensystems.   On  exit,  Q  contains the
                   trailing (N-K) updated eigenvectors  (those  which
                   were deflated) in its last N-K columns.
    
         LDQ       (input) INTEGER
                   The leading dimension of the array Q.  LDQ >= max(
                   1, N ).
    
         D         (input/output) REAL array, dimension (N)
                   On entry, D contains the eigenvalues  of  the  two
                   submatrices  to  be combined.  On exit, D contains
                   the  trailing  (N-K)  updated  eigenvalues  (those
                   which were deflated) sorted into increasing order.
    
         RHO       (input/output) REAL
                   Contains the off diagonal element associated  with
                   the rank-1 cut which originally split the two sub-
                   matrices which are now being  recombined.  RHO  is
                   modified  during  the  computation  to  the  value
                   required by SLAED3.
    
                   CUTPNT (input) INTEGER Contains  the  location  of
                   the  last  eigenvalue  in  the leading sub-matrix.
                   MIN(1,N) <= CUTPNT <= N.
    
         Z         (input) REAL array, dimension (N)
                   On input this vector contains the updating  vector
                   (the  last row of the first sub-eigenvector matrix
                   and the first row of  the  second  sub-eigenvector
                   matrix).   The  contents of Z are destroyed during
                   the updating process.
    
                   DLAMDA (output) REAL array, dimension (N) Contains
                   a  copy  of  the first K eigenvalues which will be
                   used by SLAED3 to form the secular equation.
    
         Q2        (output) COMPLEX array, dimension (LDQ2,N)
                   If ICOMPQ = 0, Q2 is not  referenced.   Otherwise,
                   Contains  a copy of the first K eigenvectors which
                   will be  used  by  SLAED7  in  a  matrix  multiply
                   (SGEMM) to update the new eigenvectors.
    
         LDQ2      (input) INTEGER
                   The leading dimension of the array  Q2.   LDQ2  >=
                   max( 1, N ).
    
         W         (output) REAL array, dimension (N)
                   This will hold the first k  values  of  the  final
                   deflation-altered  z-vector  and will be passed to
                   SLAED3.
    
         INDXP     (workspace) INTEGER array, dimension (N)
                   This will contain the permutation  used  to  place
                   deflated  values  of D at the end of the array. On
                   output INDXP(1:K)
                   points   to   the   nondeflated    D-values    and
                   INDXP(K+1:N) points to the deflated eigenvalues.
    
         INDX      (workspace) INTEGER array, dimension (N)
                   This will contain the permutation used to sort the
                   contents of D into ascending order.
    
         INDXQ     (input) INTEGER array, dimension (N)
                   This contains  the  permutation  which  separately
                   sorts  the  two  sub-problems  in D into ascending
                   order.  Note that elements in the second  half  of
                   this  permutation  must first have CUTPNT added to
                   their values in order to be accurate.
    
         PERM      (output) INTEGER array, dimension (N)
                   Contains  the  permutations  (from  deflation  and
                   sorting) to be applied to each eigenblock.
    
                   GIVPTR (output) INTEGER  Contains  the  number  of
                   Givens rotations which took place in this subprob-
                   lem.
    
                   GIVCOL (output) INTEGER array,  dimension  (2,  N)
                   Each  pair  of numbers indicates a pair of columns
                   to take place in a Givens rotation.
    
                   GIVNUM (output) REAL array, dimension (2, N)  Each
                   number  indicates  the  S  value to be used in the
                   corresponding Givens rotation.
    
         INFO      (output) INTEGER
                   = 0:  successful exit.
                   < 0:  if INFO = -i, the i-th argument had an ille-
                   gal value.
    
    
    
    


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