--- TIMING/Makefile.orig Fri Feb 19 21:04:59 1999 +++ TIMING/Makefile Thu Oct 7 15:11:10 1999 @@ -141,242 +141,242 @@ stime.out: stime.in xlintims @echo Timing square REAL LAPACK linear equation routines - xlintims < stime.in > $@ 2>&1 + ./xlintims < stime.in > $@ 2>&1 STIME.out: STIME.in xlintims @echo Timing square REAL LAPACK linear equation routines - xlintims < STIME.in > $@ 2>&1 + ./xlintims < STIME.in > $@ 2>&1 sband.out: sband.in xlintims @echo Timing banded REAL LAPACK linear equation routines - xlintims < sband.in > $@ 2>&1 + ./xlintims < sband.in > $@ 2>&1 SBAND.out: SBAND.in xlintims @echo Timing banded REAL LAPACK linear equation routines - xlintims < SBAND.in > $@ 2>&1 + ./xlintims < SBAND.in > $@ 2>&1 stime2.out: stime2.in xlintims @echo Timing rectangular REAL LAPACK linear equation routines - xlintims < stime2.in > $@ 2>&1 + ./xlintims < stime2.in > $@ 2>&1 STIME2.out: STIME2.in xlintims @echo Timing rectangular REAL LAPACK linear equation routines - xlintims < STIME2.in > $@ 2>&1 + ./xlintims < STIME2.in > $@ 2>&1 # # ======== COMPLEX LIN TIMINGS ========================== ctime.out: ctime.in xlintimc @echo Timing square COMPLEX LAPACK linear equation routines - xlintimc < ctime.in > $@ 2>&1 + ./xlintimc < ctime.in > $@ 2>&1 CTIME.out: CTIME.in xlintimc @echo Timing square COMPLEX LAPACK linear equation routines - xlintimc < CTIME.in > $@ 2>&1 + ./xlintimc < CTIME.in > $@ 2>&1 cband.out: cband.in xlintimc @echo Timing banded COMPLEX LAPACK linear equation routines - xlintimc < cband.in > $@ 2>&1 + ./xlintimc < cband.in > $@ 2>&1 CBAND.out: CBAND.in xlintimc @echo Timing banded COMPLEX LAPACK linear equation routines - xlintimc < CBAND.in > $@ 2>&1 + ./xlintimc < CBAND.in > $@ 2>&1 ctime2.out: ctime2.in xlintimc @echo Timing rectangular COMPLEX LAPACK linear equation routines - xlintimc < ctime2.in > $@ 2>&1 + ./xlintimc < ctime2.in > $@ 2>&1 CTIME2.out: CTIME2.in xlintimc @echo Timing rectangular COMPLEX LAPACK linear equation routines - xlintimc < CTIME2.in > $@ 2>&1 + ./xlintimc < CTIME2.in > $@ 2>&1 # # ======== DOUBLE LIN TIMINGS =========================== dtime.out: dtime.in xlintimd @echo Timing square DOUBLE PRECISION LAPACK linear equation routines - xlintimd < dtime.in > $@ 2>&1 + ./xlintimd < dtime.in > $@ 2>&1 DTIME.out: DTIME.in xlintimd @echo Timing square DOUBLE PRECISION LAPACK linear equation routines - xlintimd < DTIME.in > $@ 2>&1 + ./xlintimd < DTIME.in > $@ 2>&1 dband.out: dband.in xlintimd @echo Timing banded DOUBLE PRECISION LAPACK linear equation routines - xlintimd < dband.in > $@ 2>&1 + ./xlintimd < dband.in > $@ 2>&1 DBAND.out: dband.in xlintimd @echo Timing banded DOUBLE PRECISION LAPACK linear equation routines - xlintimd < DBAND.in > $@ 2>&1 + ./xlintimd < DBAND.in > $@ 2>&1 dtime2.out: dtime2.in xlintimd @echo Timing rectangular DOUBLE PRECISION LAPACK linear equation routines - xlintimd < dtime2.in > $@ 2>&1 + ./xlintimd < dtime2.in > $@ 2>&1 DTIME2.out: DTIME2.in xlintimd @echo Timing rectangular DOUBLE PRECISION LAPACK linear equation routines - xlintimd < DTIME2.in > $@ 2>&1 + ./xlintimd < DTIME2.in > $@ 2>&1 # # ======== COMPLEX16 LIN TIMINGS ======================== ztime.out: ztime.in xlintimz @echo Timing square COMPLEX16 LAPACK linear equation routines - xlintimz < ztime.in > $@ 2>&1 + ./xlintimz < ztime.in > $@ 2>&1 ZTIME.out: ztime.in xlintimz @echo Timing square COMPLEX16 LAPACK linear equation routines - xlintimz < ZTIME.in > $@ 2>&1 + ./xlintimz < ZTIME.in > $@ 2>&1 zband.out: zband.in xlintimz @echo Timing banded COMPLEX16 LAPACK linear equation routines - xlintimz < zband.in > $@ 2>&1 + ./xlintimz < zband.in > $@ 2>&1 ZBAND.out: ZBAND.in xlintimz @echo Timing banded COMPLEX16 LAPACK linear equation routines - xlintimz < ZBAND.in > $@ 2>&1 + ./xlintimz < ZBAND.in > $@ 2>&1 ztime2.out: ztime2.in xlintimz @echo Timing rectangular COMPLEX16 LAPACK linear equation routines - xlintimz < ztime2.in > $@ 2>&1 + ./xlintimz < ztime2.in > $@ 2>&1 ZTIME2.out: ZTIME2.in xlintimz @echo Timing rectangular COMPLEX16 LAPACK linear equation routines - xlintimz < ZTIME2.in > $@ 2>&1 + ./xlintimz < ZTIME2.in > $@ 2>&1 # # # ======== SINGLE EIG TIMINGS =========================== # sgeptim.out: sgeptim.in xeigtims @echo GEP: Timing REAL Generalized Nonsymmetric Eigenvalue Problem routines - xeigtims < sgeptim.in > $@ 2>&1 + ./xeigtims < sgeptim.in > $@ 2>&1 SGEPTIM.out: SGEPTIM.in xeigtims @echo GEP: Timing REAL Generalized Nonsymmetric Eigenvalue Problem routines - xeigtims < sgeptim.in > $@ 2>&1 + ./xeigtims < sgeptim.in > $@ 2>&1 sneptim.out: sneptim.in xeigtims @echo NEP: Timing REAL Nonsymmetric Eigenvalue Problem routines - xeigtims < sneptim.in > $@ 2>&1 + ./xeigtims < sneptim.in > $@ 2>&1 SNEPTIM.out: SNEPTIM.in xeigtims @echo NEP: Timing REAL Nonsymmetric Eigenvalue Problem routines - xeigtims < SNEPTIM.in > $@ 2>&1 + ./xeigtims < SNEPTIM.in > $@ 2>&1 sseptim.out: sseptim.in xeigtims @echo SEP: Timing REAL Symmetric Eigenvalue Problem routines - xeigtims < sseptim.in > $@ 2>&1 + ./xeigtims < sseptim.in > $@ 2>&1 SSEPTIM.out: SSEPTIM.in xeigtims @echo SEP: Timing REAL Symmetric Eigenvalue Problem routines - xeigtims < SSEPTIM.in > $@ 2>&1 + ./xeigtims < SSEPTIM.in > $@ 2>&1 ssvdtim.out: ssvdtim.in xeigtims @echo SVD: Timing REAL Singular Value Decomposition routines - xeigtims < ssvdtim.in > $@ 2>&1 + ./xeigtims < ssvdtim.in > $@ 2>&1 SSVDTIM.out: SSVDTIM.in xeigtims @echo SVD: Timing REAL Singular Value Decomposition routines - xeigtims < SSVDTIM.in > $@ 2>&1 + ./xeigtims < SSVDTIM.in > $@ 2>&1 # # ======== COMPLEX EIG TIMINGS =========================== # cgeptim.out: cgeptim.in xeigtimc @echo GEP: Timing COMPLEX Generalized Nonsymmetric Eigenvalue Problem routines - xeigtimc < cgeptim.in > $@ 2>&1 + ./xeigtimc < cgeptim.in > $@ 2>&1 CGEPTIM.out: CGEPTIM.in xeigtimc @echo GEP: Timing COMPLEX Generalized Nonsymmetric Eigenvalue Problem routines - xeigtimc < cgeptim.in > $@ 2>&1 + ./xeigtimc < cgeptim.in > $@ 2>&1 cneptim.out: cneptim.in xeigtimc @echo NEP: Timing COMPLEX Nonsymmetric Eigenvalue Problem routines - xeigtimc < cneptim.in > $@ 2>&1 + ./xeigtimc < cneptim.in > $@ 2>&1 CNEPTIM.out: CNEPTIM.in xeigtimc @echo NEP: Timing COMPLEX Nonsymmetric Eigenvalue Problem routines - xeigtimc < CNEPTIM.in > $@ 2>&1 + ./xeigtimc < CNEPTIM.in > $@ 2>&1 cseptim.out: cseptim.in xeigtimc @echo SEP: Timing COMPLEX Symmetric Eigenvalue Problem routines - xeigtimc < cseptim.in > $@ 2>&1 + ./xeigtimc < cseptim.in > $@ 2>&1 CSEPTIM.out: CSEPTIM.in xeigtimc @echo SEP: Timing COMPLEX Symmetric Eigenvalue Problem routines - xeigtimc < CSEPTIM.in > $@ 2>&1 + ./xeigtimc < CSEPTIM.in > $@ 2>&1 csvdtim.out: csvdtim.in xeigtimc @echo SVD: Timing COMPLEX Singular Value Decomposition routines - xeigtimc < csvdtim.in > $@ 2>&1 + ./xeigtimc < csvdtim.in > $@ 2>&1 CSVDTIM.out: CSVDTIM.in xeigtimc @echo SVD: Timing COMPLEX Singular Value Decomposition routines - xeigtimc < CSVDTIM.in > $@ 2>&1 + ./xeigtimc < CSVDTIM.in > $@ 2>&1 # # ======== DOUBLE EIG TIMINGS =========================== # dgeptim.out: dgeptim.in xeigtimd @echo GEP: Timing DOUBLE PRECISION Generalized Nonsymmetric Eigenvalue Problem routines - xeigtimd < dgeptim.in > $@ 2>&1 + ./xeigtimd < dgeptim.in > $@ 2>&1 DGEPTIM.out: DGEPTIM.in xeigtimd @echo GEP: Timing DOUBLE PRECISION Generalized Nonsymmetric Eigenvalue Problem routines - xeigtimd < dgeptim.in > $@ 2>&1 + ./xeigtimd < dgeptim.in > $@ 2>&1 dneptim.out: dneptim.in xeigtimd @echo NEP: Timing DOUBLE PRECISION Nonsymmetric Eigenvalue Problem routines - xeigtimd < dneptim.in > $@ 2>&1 + ./xeigtimd < dneptim.in > $@ 2>&1 DNEPTIM.out: DNEPTIM.in xeigtimd @echo NEP: Timing DOUBLE PRECISION Nonsymmetric Eigenvalue Problem routines - xeigtimd < DNEPTIM.in > $@ 2>&1 + ./xeigtimd < DNEPTIM.in > $@ 2>&1 dseptim.out: dseptim.in xeigtimd @echo SEP: Timing DOUBLE PRECISION Symmetric Eigenvalue Problem routines - xeigtimd < dseptim.in > $@ 2>&1 + ./xeigtimd < dseptim.in > $@ 2>&1 DSEPTIM.out: DSEPTIM.in xeigtimd @echo SEP: Timing DOUBLE PRECISION Symmetric Eigenvalue Problem routines - xeigtimd < DSEPTIM.in > $@ 2>&1 + ./xeigtimd < DSEPTIM.in > $@ 2>&1 dsvdtim.out: dsvdtim.in xeigtimd @echo SVD: Timing DOUBLE PRECISION Singular Value Decomposition routines - xeigtimd < dsvdtim.in > $@ 2>&1 + ./xeigtimd < dsvdtim.in > $@ 2>&1 DSVDTIM.out: DSVDTIM.in xeigtimd @echo SVD: Timing DOUBLE PRECISION Singular Value Decomposition routines - xeigtimd < DSVDTIM.in > $@ 2>&1 + ./xeigtimd < DSVDTIM.in > $@ 2>&1 # # ======== COMPLEX16 EIG TIMINGS =========================== # zgeptim.out: zgeptim.in xeigtimz @echo GEP: Timing COMPLEX16 Generalized Nonsymmetric Eigenvalue Problem routines - xeigtimz < zgeptim.in > $@ 2>&1 + ./xeigtimz < zgeptim.in > $@ 2>&1 ZGEPTIM.out: ZGEPTIM.in xeigtimz @echo GEP: Timing COMPLEX16 Generalized Nonsymmetric Eigenvalue Problem routines - xeigtimz < zgeptim.in > $@ 2>&1 + ./xeigtimz < zgeptim.in > $@ 2>&1 zneptim.out: zneptim.in xeigtimz @echo NEP: Timing COMPLEX16 Nonsymmetric Eigenvalue Problem routines - xeigtimz < zneptim.in > $@ 2>&1 + ./xeigtimz < zneptim.in > $@ 2>&1 ZNEPTIM.out: ZNEPTIM.in xeigtimz @echo NEP: Timing COMPLEX16 Nonsymmetric Eigenvalue Problem routines - xeigtimz < ZNEPTIM.in > $@ 2>&1 + ./xeigtimz < ZNEPTIM.in > $@ 2>&1 zseptim.out: zseptim.in xeigtimz @echo SEP: Timing COMPLEX16 Symmetric Eigenvalue Problem routines - xeigtimz < zseptim.in > $@ 2>&1 + ./xeigtimz < zseptim.in > $@ 2>&1 ZSEPTIM.out: ZSEPTIM.in xeigtimz @echo SEP: Timing COMPLEX16 Symmetric Eigenvalue Problem routines - xeigtimz < ZSEPTIM.in > $@ 2>&1 + ./xeigtimz < ZSEPTIM.in > $@ 2>&1 zsvdtim.out: zsvdtim.in xeigtimz @echo SVD: Timing COMPLEX16 Singular Value Decomposition routines - xeigtimz < zsvdtim.in > $@ 2>&1 + ./xeigtimz < zsvdtim.in > $@ 2>&1 ZSVDTIM.out: ZSVDTIM.in xeigtimz @echo SVD: Timing COMPLEX16 Singular Value Decomposition routines - xeigtimz < ZSVDTIM.in > $@ 2>&1 + ./xeigtimz < ZSVDTIM.in > $@ 2>&1 # ============================================================================== xlintims: