c----------------------------------------------------------------------- c\BeginDoc c c\Name: dsconv c c\Description: c Convergence testing for the symmetric Arnoldi eigenvalue routine. c c\Usage: c call dsconv c ( N, RITZ, BOUNDS, TOL, NCONV ) c c\Arguments c N Integer. (INPUT) c Number of Ritz values to check for convergence. c c RITZ Double precision array of length N. (INPUT) c The Ritz values to be checked for convergence. c c BOUNDS Double precision array of length N. (INPUT) c Ritz estimates associated with the Ritz values in RITZ. c c TOL Double precision scalar. (INPUT) c Desired relative accuracy for a Ritz value to be considered c "converged". c c NCONV Integer scalar. (OUTPUT) c Number of "converged" Ritz values. c c\EndDoc c c----------------------------------------------------------------------- c c\BeginLib c c\Routines called: c arsecond ARPACK utility routine for timing. c dlamch LAPACK routine that determines machine constants. 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\SCCS Information: @(#) c FILE: sconv.F SID: 2.4 DATE OF SID: 4/19/96 RELEASE: 2 c c\Remarks c 1. Starting with version 2.4, this routine no longer uses the c Parlett strategy using the gap conditions. c c\EndLib c c----------------------------------------------------------------------- c subroutine dsconv (n, ritz, bounds, tol, nconv) 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 integer n, nconv Double precision & tol c c %-----------------% c | Array Arguments | c %-----------------% c Double precision & ritz(n), bounds(n) c c %---------------% c | Local Scalars | c %---------------% c integer i Double precision & temp, eps23 c c %-------------------% c | External routines | c %-------------------% c Double precision & dlamch external dlamch c %---------------------% c | Intrinsic Functions | c %---------------------% c intrinsic abs c c %-----------------------% c | Executable Statements | c %-----------------------% c call arsecond (t0) c eps23 = dlamch('Epsilon-Machine') eps23 = eps23**(2.0D+0 / 3.0D+0) c nconv = 0 do 10 i = 1, n c c %-----------------------------------------------------% c | The i-th Ritz value is considered "converged" | c | when: bounds(i) .le. TOL*max(eps23, abs(ritz(i))) | c %-----------------------------------------------------% c temp = max( eps23, abs(ritz(i)) ) if ( bounds(i) .le. tol*temp ) then nconv = nconv + 1 end if c 10 continue c call arsecond (t1) tsconv = tsconv + (t1 - t0) c return c c %---------------% c | End of dsconv | c %---------------% c end