Fortran Benchmark Tests machine = nucl, Celeron 2.535GHz, linux 2.6.0 (TurboLinux10) compile with [ g77 -O3 ] date = Fri Jun 24 14:02:00 UTC 2005 ------------------------------------------------------------------------------ (1) program = intgl4.f #PTS= 200**4 A= 0.1000 S= 3.244281965 29.414u 0.002s 0:30.38 96.8% 0+0k 0+0io 135pf+0w ------------------------------------------------------------------------------ (2) program = intosc.f I( 1000000000)= -2267 I( 1000000001)= -1233 7.993u 0.000s 0:08.02 99.6% 0+0k 0+0io 120pf+0w ------------------------------------------------------------------------------ (3) program = intpi3.f PI= 50893811591411064*120/(8*N**5+15*N**3), N= 3000 10.630u 0.002s 0:10.63 100.0% 0+0k 0+0io 120pf+0w ------------------------------------------------------------------------------ (4) program = jacobi11.f DIMENSION= 11 #JACOBI ROT CYC= 5* 200000 EMIN= -0.663815 EMAX= 10.309197 24.092u 0.001s 0:24.19 99.5% 0+0k 0+0io 137pf+0w ------------------------------------------------------------------------------ (5) program = jacobi1h.f DIMENSION=101 #JACOBI ROT CYC= 5* 200 EMIN= -3.859769 EMAX= 104.276991 11.305u 0.004s 0:11.36 99.4% 0+0k 0+0io 137pf+0w ------------------------------------------------------------------------------ (6) program = leqs1k.f DIM= 1001 #INV= 5 RESULTS: 0.9983222082 0.9999235137 1.0001292085 128.652u 0.016s 2:09.26 99.5% 0+0k 0+0io 135pf+0w ------------------------------------------------------------------------------ (7) program = leqs4h.f DIM= 401 #INV= 78 RESULTS: 0.9989295956 0.9989933805 0.9982736386 28.862u 0.003s 0:28.99 99.5% 0+0k 0+0io 135pf+0w ------------------------------------------------------------------------------ (8) program = mathfnc1.f INTEGRAL[ 0.1 0.9: 100000000 STEPS](SIN(X)+SQRT(COS(X)))DX= 1.111225554 15.817u 0.001s 0:15.89 99.4% 0+0k 0+0io 137pf+0w ------------------------------------------------------------------------------ (9) program = mathfnc2.f INTEGRAL[ 0.1 0.9: 100000000 STEPS]ATAN2(EXP(X),LOG(X+1))DX= 1.081785145 42.423u 0.004s 0:42.59 99.6% 0+0k 0+0io 142pf+0w ------------------------------------------------------------------------------ (10) program = matvec.f MULTIPLY 1023*1023 REAL MATRIX TO VECTOR 3* 2000 TIMES. LARGEST EIGENVALUES= 1023.93053 1022.12165 1021.00563 19.195u 0.010s 0:19.28 99.5% 0+0k 0+0io 136pf+0w ------------------------------------------------------------------------------ (11) program = matvecz.f MULTIPLY 723* 723 COMPLEX MATRIX TO VECTOR 3* 1000 TIMES LARGEST EIGENVALUES= 723.98791 722.12717 720.97077 16.414u 0.010s 0:16.50 99.5% 0+0k 0+0io 136pf+0w ------------------------------------------------------------------------------ (12) program = permute1.f INT*4 ARRAY_SIZE= 1024 #PERMUTATIONS/ARRAY_SIZE= 262144 A= 149 293 506 728 569 228 413 551 883 676 2.752u 0.001s 0:02.73 100.7% 0+0k 0+0io 120pf+0w ------------------------------------------------------------------------------ (13) program = permute2.f INT*4 ARRAY_SIZE= 32768 #PERMUTATIONS/ARRAY_SIZE= 8192 A= 149 293 16365 22125 2429 5407 28746 12182 14590 11825 3.316u 0.000s 0:03.32 99.6% 0+0k 0+0io 120pf+0w ------------------------------------------------------------------------------ (14) program = permute3.f INT*4 ARRAY_SIZE= 1048576 #PERMUTATIONS/ARRAY_SIZE= 256 A= 149 293 524435 178798 836951 263828 662616 351174 26552 147396 62.400u 0.012s 1:02.70 99.5% 0+0k 0+0io 120pf+0w ------------------------------------------------------------------------------ (15) program = runge.f 4TH-ORDER RUNGE-KUTTA FOR POTENTIAL=LOG(R). INITIAL R= 1.0 0.0 V= 0.0 1.5 TIME= 200000000* 0.00050 R= 1.95711 -1.69674 V= 0.29953 0.50675 26.696u 0.001s 0:26.79 99.6% 0+0k 0+0io 139pf+0w ------------------------------------------------------------------------------ completed at Fri Jun 24 14:09:15 UTC 2005