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liboctave
cruft
daspk
dhels.f
Go to the documentation of this file.
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C Work performed under the auspices of the U.S. Department of Energy
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C by Lawrence Livermore National Laboratory under contract number
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C W-7405-Eng-48.
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C
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SUBROUTINE
dhels
(A, LDA, N, Q, B)
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C
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C***BEGIN PROLOGUE DHELS
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C***DATE WRITTEN 890101 (YYMMDD)
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C***REVISION DATE 900926 (YYMMDD)
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C
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C
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C-----------------------------------------------------------------------
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C***DESCRIPTION
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C
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C This is similar to the LINPACK routine DGESL except that
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C A is an upper Hessenberg matrix.
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C
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C DHELS solves the least squares problem
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C
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C MIN (B-A*X,B-A*X)
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C
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C using the factors computed by DHEQR.
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C
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C On entry
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C
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C A DOUBLE PRECISION (LDA, N)
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C The output from DHEQR which contains the upper
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C triangular factor R in the QR decomposition of A.
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C
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C LDA INTEGER
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C The leading dimension of the array A .
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C
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C N INTEGER
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C A is originally an (N+1) by N matrix.
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C
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C Q DOUBLE PRECISION(2*N)
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C The coefficients of the N givens rotations
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C used in the QR factorization of A.
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C
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C B DOUBLE PRECISION(N+1)
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C The right hand side vector.
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C
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C
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C On return
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C
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C B The solution vector X.
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C
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C
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C Modification of LINPACK.
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C Peter Brown, Lawrence Livermore Natl. Lab.
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C
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C-----------------------------------------------------------------------
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C***ROUTINES CALLED
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C DAXPY
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C
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C***END PROLOGUE DHELS
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C
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INTEGER
LDA, N
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DOUBLE PRECISION
A(lda,*), B(*), Q(*)
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INTEGER
IQ, K, KB, KP1
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DOUBLE PRECISION
C, S, T, T1, T2
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C
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C Minimize (B-A*X,B-A*X).
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C First form Q*B.
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C
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DO
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kp1 = k + 1
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iq = 2*(k-1) + 1
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c = q(iq)
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s = q(iq+1)
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t1 = b(k)
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t2 = b(kp1)
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b(k) = c*t1 - s*t2
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b(kp1) = s*t1 + c*t2
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CONTINUE
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C
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C Now solve R*X = Q*B.
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C
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DO
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k = n + 1 - kb
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b(k) = b(k)/a(k,k)
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t = -b(k)
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CALL daxpy(k-1, t, a(1,k), 1, b(1), 1)
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CONTINUE
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RETURN
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C
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C------END OF SUBROUTINE DHELS------------------------------------------
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END
dhels
subroutine dhels(A, LDA, N, Q, B)
Definition:
dhels.f:5
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