c----------------------------------------------------------------------- c\BeginDoc c c\Name: dngets c c\Description: c Given the eigenvalues of the upper Hessenberg matrix H, c computes the NP shifts AMU that are zeros of the polynomial of c degree NP which filters out components of the unwanted eigenvectors c corresponding to the AMU's based on some given criteria. c c NOTE: call this even in the case of user specified shifts in order c to sort the eigenvalues, and error bounds of H for later use. c c\Usage: c call dngets c ( ISHIFT, WHICH, KEV, NP, RITZR, RITZI, BOUNDS, SHIFTR, SHIFTI ) c c\Arguments c ISHIFT Integer. (INPUT) c Method for selecting the implicit shifts at each iteration. c ISHIFT = 0: user specified shifts c ISHIFT = 1: exact shift with respect to the matrix H. c c WHICH Character*2. (INPUT) c Shift selection criteria. c 'LM' -> want the KEV eigenvalues of largest magnitude. c 'SM' -> want the KEV eigenvalues of smallest magnitude. c 'LR' -> want the KEV eigenvalues of largest real part. c 'SR' -> want the KEV eigenvalues of smallest real part. c 'LI' -> want the KEV eigenvalues of largest imaginary part. c 'SI' -> want the KEV eigenvalues of smallest imaginary part. c c KEV Integer. (INPUT/OUTPUT) c INPUT: KEV+NP is the size of the matrix H. c OUTPUT: Possibly increases KEV by one to keep complex conjugate c pairs together. c c NP Integer. (INPUT/OUTPUT) c Number of implicit shifts to be computed. c OUTPUT: Possibly decreases NP by one to keep complex conjugate c pairs together. c c RITZR, Double precision array of length KEV+NP. (INPUT/OUTPUT) c RITZI On INPUT, RITZR and RITZI contain the real and imaginary c parts of the eigenvalues of H. c On OUTPUT, RITZR and RITZI are sorted so that the unwanted c eigenvalues are in the first NP locations and the wanted c portion is in the last KEV locations. When exact shifts are c selected, the unwanted part corresponds to the shifts to c be applied. Also, if ISHIFT .eq. 1, the unwanted eigenvalues c are further sorted so that the ones with largest Ritz values c are first. c c BOUNDS Double precision array of length KEV+NP. (INPUT/OUTPUT) c Error bounds corresponding to the ordering in RITZ. c c SHIFTR, SHIFTI *** USE deprecated as of version 2.1. *** c c c\EndDoc c c----------------------------------------------------------------------- c c\BeginLib c c\Local variables: c xxxxxx real c c\Routines called: c dsortc ARPACK sorting routine. c dcopy Level 1 BLAS that copies one vector to another . c c\Author c Danny Sorensen Phuong Vu c Richard Lehoucq CRPC / Rice University c Dept. of Computational & Houston, Texas c Applied Mathematics c Rice University c Houston, Texas c c\Revision history: c xx/xx/92: Version ' 2.1' c c\SCCS Information: @(#) c FILE: ngets.F SID: 2.3 DATE OF SID: 4/20/96 RELEASE: 2 c c\Remarks c 1. xxxx c c\EndLib c c----------------------------------------------------------------------- c subroutine dngets ( ishift, which, kev, np, ritzr, ritzi, bounds, & shiftr, shifti ) c c %----------------------------------------------------% c | Include files for debugging and timing information | c %----------------------------------------------------% c include 'debug.h' include 'stat.h' c c %------------------% c | Scalar Arguments | c %------------------% c character*2 which integer ishift, kev, np c c %-----------------% c | Array Arguments | c %-----------------% c Double precision & bounds(kev+np), ritzr(kev+np), ritzi(kev+np), & shiftr(1), shifti(1) c c %------------% c | Parameters | c %------------% c Double precision & one, zero parameter (one = 1.0, zero = 0.0) c c %---------------% c | Local Scalars | c %---------------% c integer msglvl c c %----------------------% c | External Subroutines | c %----------------------% c external dcopy, dsortc, arscnd c c %----------------------% c | Intrinsics Functions | c %----------------------% c intrinsic abs c c %-----------------------% c | Executable Statements | c %-----------------------% c c %-------------------------------% c | Initialize timing statistics | c | & message level for debugging | c %-------------------------------% c call arscnd (t0) msglvl = mngets c c %----------------------------------------------------% c | LM, SM, LR, SR, LI, SI case. | c | Sort the eigenvalues of H into the desired order | c | and apply the resulting order to BOUNDS. | c | The eigenvalues are sorted so that the wanted part | c | are always in the last KEV locations. | c | We first do a pre-processing sort in order to keep | c | complex conjugate pairs together | c %----------------------------------------------------% c if (which .eq. 'LM') then call dsortc ('LR', .true., kev+np, ritzr, ritzi, bounds) else if (which .eq. 'SM') then call dsortc ('SR', .true., kev+np, ritzr, ritzi, bounds) else if (which .eq. 'LR') then call dsortc ('LM', .true., kev+np, ritzr, ritzi, bounds) else if (which .eq. 'SR') then call dsortc ('SM', .true., kev+np, ritzr, ritzi, bounds) else if (which .eq. 'LI') then call dsortc ('LM', .true., kev+np, ritzr, ritzi, bounds) else if (which .eq. 'SI') then call dsortc ('SM', .true., kev+np, ritzr, ritzi, bounds) end if c call dsortc (which, .true., kev+np, ritzr, ritzi, bounds) c c %-------------------------------------------------------% c | Increase KEV by one if the ( ritzr(np),ritzi(np) ) | c | = ( ritzr(np+1),-ritzi(np+1) ) and ritz(np) .ne. zero | c | Accordingly decrease NP by one. In other words keep | c | complex conjugate pairs together. | c %-------------------------------------------------------% c if ( ( ritzr(np+1) - ritzr(np) ) .eq. zero & .and. ( ritzi(np+1) + ritzi(np) ) .eq. zero ) then np = np - 1 kev = kev + 1 end if c if ( ishift .eq. 1 ) then c c %-------------------------------------------------------% c | Sort the unwanted Ritz values used as shifts so that | c | the ones with largest Ritz estimates are first | c | This will tend to minimize the effects of the | c | forward instability of the iteration when they shifts | c | are applied in subroutine dnapps. | c | Be careful and use 'SR' since we want to sort BOUNDS! | c %-------------------------------------------------------% c call dsortc ( 'SR', .true., np, bounds, ritzr, ritzi ) end if c call arscnd (t1) tngets = tngets + (t1 - t0) c if (msglvl .gt. 0) then call ivout (logfil, 1, [kev], ndigit, '_ngets: KEV is') call ivout (logfil, 1, [np], ndigit, '_ngets: NP is') call dvout (logfil, kev+np, ritzr, ndigit, & '_ngets: Eigenvalues of current H matrix -- real part') call dvout (logfil, kev+np, ritzi, ndigit, & '_ngets: Eigenvalues of current H matrix -- imag part') call dvout (logfil, kev+np, bounds, ndigit, & '_ngets: Ritz estimates of the current KEV+NP Ritz values') end if c return c c %---------------% c | End of dngets | c %---------------% c end