GNU/Linux man pages
Livre :
Expressions régulières,
Syntaxe et mise en oeuvre :
GNU/Linux |
CentOS 4.8 |
i386 |
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zlags2(l) |
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ZLAGS2 - compute 2-by-2 unitary matrices U, V and Q, such that if ( UPPER ) then U’*A*Q = U’*( A1 A2 )*Q = ( x 0 ) ( 0 A3 ) ( x x ) and V’*B*Q = V’*( B1 B2 )*Q = ( x 0 ) ( 0 B3 ) ( x x ) or if ( .NOT.UPPER ) then U’*A*Q = U’*( A1 0 )*Q = ( x x ) ( A2 A3 ) ( 0 x ) and V’*B*Q = V’*( B1 0 )*Q = ( x x ) ( B2 B3 ) ( 0 x ) where U = ( CSU SNU ), V = ( CSV SNV ),
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SUBROUTINE ZLAGS2( |
UPPER, A1, A2, A3, B1, B2, B3, CSU, SNU, CSV, SNV, CSQ, SNQ ) | ||
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LOGICAL |
UPPER | ||
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DOUBLE |
PRECISION A1, A3, B1, B3, CSQ, CSU, CSV | ||
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COMPLEX*16 |
A2, B2, SNQ, SNU, SNV |
ZLAGS2 computes 2-by-2 unitary matrices U, V and Q, such that if ( UPPER ) then U’*A*Q = U’*( A1 A2 )*Q = ( x 0 ) ( 0 A3 ) ( x x ) and V’*B*Q = V’*( B1 B2 )*Q = ( x 0 ) ( 0 B3 ) ( x x ) or if ( .NOT.UPPER ) then U’*A*Q = U’*( A1 0 )*Q = ( x x ) ( A2 A3 ) ( 0 x ) and V’*B*Q = V’*( B1 0 )*Q = ( x x ) ( B2 B3 ) ( 0 x ) where U = ( CSU SNU ), V = ( CSV SNV ), ( -CONJG(SNU) CSU ) ( -CONJG(SNV) CSV )
Q = ( CSQ SNQ )
( -CONJG(SNQ) CSQ )
Z’ denotes the conjugate transpose of Z.
The rows of the transformed A and B are parallel. Moreover, if the input 2-by-2 matrix A is not zero, then the transformed (1,1) entry of A is not zero. If the input matrices A and B are both not zero, then the transformed (2,2) element of B is not zero, except when the first rows of input A and B are parallel and the second rows are zero.
UPPER (input) LOGICAL
= .TRUE.: the input matrices A
and B are upper triangular.
= .FALSE.: the input matrices A and B are lower
triangular.
A1 (input) DOUBLE PRECISION
A2 (input) COMPLEX*16 A3 (input) DOUBLE PRECISION On entry, A1, A2 and A3 are elements of the input 2-by-2 upper (lower) triangular matrix A.
B1 (input) DOUBLE PRECISION
B2 (input) COMPLEX*16 B3 (input) DOUBLE PRECISION On entry, B1, B2 and B3 are elements of the input 2-by-2 upper (lower) triangular matrix B.
CSU (output) DOUBLE PRECISION
SNU (output) COMPLEX*16 The desired unitary matrix U.
CSV (output) DOUBLE PRECISION
SNV (output) COMPLEX*16 The desired unitary matrix V.
CSQ (output) DOUBLE PRECISION
SNQ (output) COMPLEX*16 The desired unitary matrix Q.
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zlags2(l) | |