Man page or keyword search:   man All Sections 1 - General Commands 2 - System Calls 3 - Subroutines, Functions 4 - Special Files 5 - File Formats 6 - Games and Screensavers 7 - Macros and Conventions 8 - Maintenence Commands 9 - Kernel Interface New Commands Server 4.4BSD AIX Alpinelinux Archlinux Aros BSDOS BSDi Bifrost CentOS Cygwin Darwin Debian DigitalUNIX DragonFly ElementaryOS Fedora FreeBSD Gentoo GhostBSD HP-UX Haiku Hurd IRIX Inferno JazzOS Kali Knoppix LinuxMint MacOSX Mageia Mandriva Manjaro Minix MirBSD NeXTSTEP NetBSD OPENSTEP OSF1 OpenBSD OpenDarwin OpenIndiana OpenMandriva OpenServer OpenSuSE OpenVMS Oracle PC-BSD Peanut Pidora Plan9 QNX Raspbian RedHat Scientific Slackware SmartOS Solaris SuSE SunOS Syllable Tru64 UNIXv7 Ubuntu Ultrix UnixWare Xenix YellowDog aLinux   31559 pages apropos Keyword Search (all sections) Output format html ascii pdf view pdf save postscript

DLAQTR(3F)							    DLAQTR(3F)

NAME
     DLAQTR - solve the real quasi-triangular system   op(T)*p = scale*c, if
     LREAL = .TRUE

SYNOPSIS
     SUBROUTINE DLAQTR( LTRAN, LREAL, N, T, LDT, B, W, SCALE, X, WORK, INFO )

	 LOGICAL	LREAL, LTRAN

	 INTEGER	INFO, LDT, N

	 DOUBLE		PRECISION SCALE, W

	 DOUBLE		PRECISION B( * ), T( LDT, * ), WORK( * ), X( * )

PURPOSE
     DLAQTR solves the real quasi-triangular system

     or the complex quasi-triangular systems

		op(T + iB)*(p+iq) = scale*(c+id),  if LREAL = .FALSE.

     in real arithmetic, where T is upper quasi-triangular.
     If LREAL = .FALSE., then the first diagonal block of T must be 1 by 1, B
     is the specially structured matrix

		    B = [ b(1) b(2) ... b(n) ]
			[	w	     ]
			[	    w	     ]
			[	       .     ]
			[		  w  ]

     op(A) = A or A', A' denotes the conjugate transpose of
     matrix A.

     On input, X = [ c ].  On output, X = [ p ].
		   [ d ]		  [ q ]

     This subroutine is designed for the condition number estimation in
     routine DTRSNA.

ARGUMENTS
     LTRAN   (input) LOGICAL
	     On entry, LTRAN specifies the option of conjugate transpose:  =
	     .FALSE.,	 op(T+i*B) = T+i*B, = .TRUE.,	  op(T+i*B) =
	     (T+i*B)'.

     LREAL   (input) LOGICAL
	     On entry, LREAL specifies the input matrix structure:  = .FALSE.,
	     the input is complex = .TRUE.,	the input is real

									Page 1

DLAQTR(3F)							    DLAQTR(3F)

     N	     (input) INTEGER
	     On entry, N specifies the order of T+i*B. N >= 0.

     T	     (input) DOUBLE PRECISION array, dimension (LDT,N)
	     On entry, T contains a matrix in Schur canonical form.  If LREAL
	     = .FALSE., then the first diagonal block of T mu be 1 by 1.

     LDT     (input) INTEGER
	     The leading dimension of the matrix T. LDT >= max(1,N).

     B	     (input) DOUBLE PRECISION array, dimension (N)
	     On entry, B contains the elements to form the matrix B as
	     described above.  If LREAL = .TRUE., B is not referenced.

     W	     (input) DOUBLE PRECISION
	     On entry, W is the diagonal element of the matrix B.  If LREAL =
	     .TRUE., W is not referenced.

     SCALE   (output) DOUBLE PRECISION
	     On exit, SCALE is the scale factor.

     X	     (input/output) DOUBLE PRECISION array, dimension (2*N)
	     On entry, X contains the right hand side of the system.  On exit,
	     X is overwritten by the solution.

     WORK    (workspace) DOUBLE PRECISION array, dimension (N)

     INFO    (output) INTEGER
	     On exit, INFO is set to 0: successful exit.
	     1: the some diagonal 1 by 1 block has been perturbed by a small
	     number SMIN to keep nonsingularity.  2: the some diagonal 2 by 2
	     block has been perturbed by a small number in DLALN2 to keep
	     nonsingularity.  NOTE: In the interests of speed, this routine
	     does not check the inputs for errors.

									Page 2

Vote for polarhome