CXML

DLAED8 (3lapack)


SYNOPSIS

  SUBROUTINE DLAED8( ICOMPQ, K, N, QSIZ, D, Q, LDQ, INDXQ, RHO, CUTPNT, Z,
                     DLAMDA, Q2, LDQ2, W, PERM, GIVPTR, GIVCOL, GIVNUM,
                     INDXP, INDX, INFO )

      INTEGER        CUTPNT, GIVPTR, ICOMPQ, INFO, K, LDQ, LDQ2, N, QSIZ

      DOUBLE         PRECISION RHO

      INTEGER        GIVCOL( 2, * ), INDX( * ), INDXP( * ), INDXQ( * ), PERM(
                     * )

      DOUBLE         PRECISION D( * ), DLAMDA( * ), GIVNUM( 2, * ), Q( LDQ, *
                     ), Q2( LDQ2, * ), W( * ), Z( * )

PURPOSE

  DLAED8 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

  ICOMPQ  (input) INTEGER
          = 0:  Compute eigenvalues only.
          = 1:  Compute eigenvectors of original dense symmetric matrix also.
          On entry, Q contains the orthogonal matrix used to reduce the
          original matrix to tridiagonal form.

  K      (output) INTEGER
         The number of non-deflated eigenvalues, and 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 orthogonal matrix used to reduce the full
         matrix to tridiagonal form.  QSIZ >= N if ICOMPQ = 1.

  D      (input/output) DOUBLE PRECISION array, dimension (N)
         On entry, the eigenvalues of the two submatrices to be combined.  On
         exit, the trailing (N-K) updated eigenvalues (those which were
         deflated) sorted into increasing order.

  Q      (input/output) DOUBLE PRECISION array, dimension (LDQ,N)
         If ICOMPQ = 0, Q is not referenced.  Otherwise, on entry, Q contains
         the eigenvectors of the partially 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).

  INDXQ  (input) INTEGER array, dimension (N)
         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.

  RHO    (input/output) DOUBLE PRECISION
         On entry, the off-diagonal element associated with the rank-1 cut
         which originally split the two submatrices which are now being
         recombined.  On exit, RHO has been modified to the value required by
         DLAED3.

         CUTPNT (input) INTEGER The location of the last eigenvalue in the
         leading sub-matrix.  min(1,N) <= CUTPNT <= N.

  Z      (input) DOUBLE PRECISION array, dimension (N)
         On entry, Z contains the updating vector (the last row of the first
         sub-eigenvector matrix and the first row of the second sub-
         eigenvector matrix).  On exit, the contents of Z are destroyed by
         the updating process.

         DLAMDA (output) DOUBLE PRECISION array, dimension (N) A copy of the
         first K eigenvalues which will be used by DLAED3 to form the secular
         equation.

  Q2     (output) DOUBLE PRECISION array, dimension (LDQ2,N)
         If ICOMPQ = 0, Q2 is not referenced.  Otherwise, a copy of the first
         K eigenvectors which will be used by DLAED7 in a matrix multiply
         (DGEMM) to update the new eigenvectors.

  LDQ2   (input) INTEGER
         The leading dimension of the array Q2.  LDQ2 >= max(1,N).

  W      (output) DOUBLE PRECISION array, dimension (N)
         The first k values of the final deflation-altered z-vector and will
         be passed to DLAED3.

  PERM   (output) INTEGER array, dimension (N)
         The permutations (from deflation and sorting) to be applied to each
         eigenblock.

         GIVPTR (output) INTEGER The number of Givens rotations which took
         place in this subproblem.

         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) DOUBLE PRECISION array, dimension (2, N) Each number
         indicates the S value to be used in the corresponding Givens
         rotation.

  INDXP  (workspace) INTEGER array, dimension (N)
         The permutation used to place deflated values of D at the end of the
         array.  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)
         The permutation used to sort the contents of D into ascending order.

  INFO   (output) INTEGER
         = 0:  successful exit.
         < 0:  if INFO = -i, the i-th argument had an illegal value.

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