laic1 - Man Page
laic1: condition estimate, step in gelsy
Synopsis
Functions
subroutine claic1 (job, j, x, sest, w, gamma, sestpr, s, c)
CLAIC1 applies one step of incremental condition estimation.
subroutine dlaic1 (job, j, x, sest, w, gamma, sestpr, s, c)
DLAIC1 applies one step of incremental condition estimation.
subroutine slaic1 (job, j, x, sest, w, gamma, sestpr, s, c)
SLAIC1 applies one step of incremental condition estimation.
subroutine zlaic1 (job, j, x, sest, w, gamma, sestpr, s, c)
ZLAIC1 applies one step of incremental condition estimation.
Detailed Description
Function Documentation
subroutine claic1 (integer job, integer j, complex, dimension( j ) x, real sest, complex, dimension( j ) w, complex gamma, real sestpr, complex s, complex c)
CLAIC1 applies one step of incremental condition estimation.
Purpose:
CLAIC1 applies one step of incremental condition estimation in
its simplest version:
Let x, twonorm(x) = 1, be an approximate singular vector of an j-by-j
lower triangular matrix L, such that
twonorm(L*x) = sest
Then CLAIC1 computes sestpr, s, c such that
the vector
[ s*x ]
xhat = [ c ]
is an approximate singular vector of
[ L 0 ]
Lhat = [ w**H gamma ]
in the sense that
twonorm(Lhat*xhat) = sestpr.
Depending on JOB, an estimate for the largest or smallest singular
value is computed.
Note that [s c]**H and sestpr**2 is an eigenpair of the system
diag(sest*sest, 0) + [alpha gamma] * [ conjg(alpha) ]
[ conjg(gamma) ]
where alpha = x**H*w.- Parameters
JOB
JOB is INTEGER = 1: an estimate for the largest singular value is computed. = 2: an estimate for the smallest singular value is computed.J
J is INTEGER Length of X and WX
X is COMPLEX array, dimension (J) The j-vector x.SEST
SEST is REAL Estimated singular value of j by j matrix LW
W is COMPLEX array, dimension (J) The j-vector w.GAMMA
GAMMA is COMPLEX The diagonal element gamma.SESTPR
SESTPR is REAL Estimated singular value of (j+1) by (j+1) matrix Lhat.S
S is COMPLEX Sine needed in forming xhat.C
C is COMPLEX Cosine needed in forming xhat.- Author
Univ. of Tennessee
Univ. of California Berkeley
Univ. of Colorado Denver
NAG Ltd.
Definition at line 134 of file claic1.f.
subroutine dlaic1 (integer job, integer j, double precision, dimension( j ) x, double precision sest, double precision, dimension( j ) w, double precision gamma, double precision sestpr, double precision s, double precision c)
DLAIC1 applies one step of incremental condition estimation.
Purpose:
DLAIC1 applies one step of incremental condition estimation in
its simplest version:
Let x, twonorm(x) = 1, be an approximate singular vector of an j-by-j
lower triangular matrix L, such that
twonorm(L*x) = sest
Then DLAIC1 computes sestpr, s, c such that
the vector
[ s*x ]
xhat = [ c ]
is an approximate singular vector of
[ L 0 ]
Lhat = [ w**T gamma ]
in the sense that
twonorm(Lhat*xhat) = sestpr.
Depending on JOB, an estimate for the largest or smallest singular
value is computed.
Note that [s c]**T and sestpr**2 is an eigenpair of the system
diag(sest*sest, 0) + [alpha gamma] * [ alpha ]
[ gamma ]
where alpha = x**T*w.- Parameters
JOB
JOB is INTEGER = 1: an estimate for the largest singular value is computed. = 2: an estimate for the smallest singular value is computed.J
J is INTEGER Length of X and WX
X is DOUBLE PRECISION array, dimension (J) The j-vector x.SEST
SEST is DOUBLE PRECISION Estimated singular value of j by j matrix LW
W is DOUBLE PRECISION array, dimension (J) The j-vector w.GAMMA
GAMMA is DOUBLE PRECISION The diagonal element gamma.SESTPR
SESTPR is DOUBLE PRECISION Estimated singular value of (j+1) by (j+1) matrix Lhat.S
S is DOUBLE PRECISION Sine needed in forming xhat.C
C is DOUBLE PRECISION Cosine needed in forming xhat.- Author
Univ. of Tennessee
Univ. of California Berkeley
Univ. of Colorado Denver
NAG Ltd.
Definition at line 133 of file dlaic1.f.
subroutine slaic1 (integer job, integer j, real, dimension( j ) x, real sest, real, dimension( j ) w, real gamma, real sestpr, real s, real c)
SLAIC1 applies one step of incremental condition estimation.
Purpose:
SLAIC1 applies one step of incremental condition estimation in
its simplest version:
Let x, twonorm(x) = 1, be an approximate singular vector of an j-by-j
lower triangular matrix L, such that
twonorm(L*x) = sest
Then SLAIC1 computes sestpr, s, c such that
the vector
[ s*x ]
xhat = [ c ]
is an approximate singular vector of
[ L 0 ]
Lhat = [ w**T gamma ]
in the sense that
twonorm(Lhat*xhat) = sestpr.
Depending on JOB, an estimate for the largest or smallest singular
value is computed.
Note that [s c]**T and sestpr**2 is an eigenpair of the system
diag(sest*sest, 0) + [alpha gamma] * [ alpha ]
[ gamma ]
where alpha = x**T*w.- Parameters
JOB
JOB is INTEGER = 1: an estimate for the largest singular value is computed. = 2: an estimate for the smallest singular value is computed.J
J is INTEGER Length of X and WX
X is REAL array, dimension (J) The j-vector x.SEST
SEST is REAL Estimated singular value of j by j matrix LW
W is REAL array, dimension (J) The j-vector w.GAMMA
GAMMA is REAL The diagonal element gamma.SESTPR
SESTPR is REAL Estimated singular value of (j+1) by (j+1) matrix Lhat.S
S is REAL Sine needed in forming xhat.C
C is REAL Cosine needed in forming xhat.- Author
Univ. of Tennessee
Univ. of California Berkeley
Univ. of Colorado Denver
NAG Ltd.
Definition at line 133 of file slaic1.f.
subroutine zlaic1 (integer job, integer j, complex*16, dimension( j ) x, double precision sest, complex*16, dimension( j ) w, complex*16 gamma, double precision sestpr, complex*16 s, complex*16 c)
ZLAIC1 applies one step of incremental condition estimation.
Purpose:
ZLAIC1 applies one step of incremental condition estimation in
its simplest version:
Let x, twonorm(x) = 1, be an approximate singular vector of an j-by-j
lower triangular matrix L, such that
twonorm(L*x) = sest
Then ZLAIC1 computes sestpr, s, c such that
the vector
[ s*x ]
xhat = [ c ]
is an approximate singular vector of
[ L 0 ]
Lhat = [ w**H gamma ]
in the sense that
twonorm(Lhat*xhat) = sestpr.
Depending on JOB, an estimate for the largest or smallest singular
value is computed.
Note that [s c]**H and sestpr**2 is an eigenpair of the system
diag(sest*sest, 0) + [alpha gamma] * [ conjg(alpha) ]
[ conjg(gamma) ]
where alpha = x**H * w.- Parameters
JOB
JOB is INTEGER = 1: an estimate for the largest singular value is computed. = 2: an estimate for the smallest singular value is computed.J
J is INTEGER Length of X and WX
X is COMPLEX*16 array, dimension (J) The j-vector x.SEST
SEST is DOUBLE PRECISION Estimated singular value of j by j matrix LW
W is COMPLEX*16 array, dimension (J) The j-vector w.GAMMA
GAMMA is COMPLEX*16 The diagonal element gamma.SESTPR
SESTPR is DOUBLE PRECISION Estimated singular value of (j+1) by (j+1) matrix Lhat.S
S is COMPLEX*16 Sine needed in forming xhat.C
C is COMPLEX*16 Cosine needed in forming xhat.- Author
Univ. of Tennessee
Univ. of California Berkeley
Univ. of Colorado Denver
NAG Ltd.
Definition at line 134 of file zlaic1.f.
Author
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