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Diff for /rpl/lapack/lapack/zgebd2.f between versions 1.16 and 1.20

version 1.16, 2017/06/17 10:54:08	version 1.20, 2023/08/07 08:39:16
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*>	*>
*> \param[out] TAUQ	*> \param[out] TAUQ
*> \verbatim	*> \verbatim
> TAUQ is COMPLEX16 array dimension (min(M,N))	> TAUQ is COMPLEX16 array, dimension (min(M,N))
*> The scalar factors of the elementary reflectors which	*> The scalar factors of the elementary reflectors which
*> represent the unitary matrix Q. See Further Details.	*> represent the unitary matrix Q. See Further Details.
*> \endverbatim	*> \endverbatim
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*> \author Univ. of Colorado Denver	*> \author Univ. of Colorado Denver
*> \author NAG Ltd.	*> \author NAG Ltd.
*	*
*> \date December 2016
*
*> \ingroup complex16GEcomputational	*> \ingroup complex16GEcomputational
*	*
*> \par Further Details:	*> \par Further Details:
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* =====================================================================	* =====================================================================
SUBROUTINE ZGEBD2( M, N, A, LDA, D, E, TAUQ, TAUP, WORK, INFO )	SUBROUTINE ZGEBD2( M, N, A, LDA, D, E, TAUQ, TAUP, WORK, INFO )
*	*
* -- LAPACK computational routine (version 3.7.0) --	* -- LAPACK computational routine --
* -- LAPACK is a software package provided by Univ. of Tennessee, --	* -- LAPACK is a software package provided by Univ. of Tennessee, --
* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--	* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
* December 2016
*	*
* .. Scalar Arguments ..	* .. Scalar Arguments ..
INTEGER INFO, LDA, M, N	INTEGER INFO, LDA, M, N
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ALPHA = A( I, I )	ALPHA = A( I, I )
CALL ZLARFG( M-I+1, ALPHA, A( MIN( I+1, M ), I ), 1,	CALL ZLARFG( M-I+1, ALPHA, A( MIN( I+1, M ), I ), 1,
$ TAUQ( I ) )	$ TAUQ( I ) )
D( I ) = ALPHA	D( I ) = DBLE( ALPHA )
A( I, I ) = ONE	A( I, I ) = ONE
*	*
* Apply H(i)**H to A(i:m,i+1:n) from the left	* Apply H(i)**H to A(i:m,i+1:n) from the left
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ALPHA = A( I, I+1 )	ALPHA = A( I, I+1 )
CALL ZLARFG( N-I, ALPHA, A( I, MIN( I+2, N ) ), LDA,	CALL ZLARFG( N-I, ALPHA, A( I, MIN( I+2, N ) ), LDA,
$ TAUP( I ) )	$ TAUP( I ) )
E( I ) = ALPHA	E( I ) = DBLE( ALPHA )
A( I, I+1 ) = ONE	A( I, I+1 ) = ONE
*	*
* Apply G(i) to A(i+1:m,i+1:n) from the right	* Apply G(i) to A(i+1:m,i+1:n) from the right
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ALPHA = A( I, I )	ALPHA = A( I, I )
CALL ZLARFG( N-I+1, ALPHA, A( I, MIN( I+1, N ) ), LDA,	CALL ZLARFG( N-I+1, ALPHA, A( I, MIN( I+1, N ) ), LDA,
$ TAUP( I ) )	$ TAUP( I ) )
D( I ) = ALPHA	D( I ) = DBLE( ALPHA )
A( I, I ) = ONE	A( I, I ) = ONE
*	*
* Apply G(i) to A(i+1:m,i:n) from the right	* Apply G(i) to A(i+1:m,i:n) from the right
Line 310	Line 307
ALPHA = A( I+1, I )	ALPHA = A( I+1, I )
CALL ZLARFG( M-I, ALPHA, A( MIN( I+2, M ), I ), 1,	CALL ZLARFG( M-I, ALPHA, A( MIN( I+2, M ), I ), 1,
$ TAUQ( I ) )	$ TAUQ( I ) )
E( I ) = ALPHA	E( I ) = DBLE( ALPHA )
A( I+1, I ) = ONE	A( I+1, I ) = ONE
*	*
* Apply H(i)**H to A(i+1:m,i+1:n) from the left	* Apply H(i)**H to A(i+1:m,i+1:n) from the left

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