Computer OS/Compiler N=100 N=1000 Peak ----------------------------------- --------------------------------------------- ------- ------- ------- nCUBE 2, 1024 proc | | | 258 | 2409 nCUBE 2, 512 proc | | | 204 | 1205 nCUBE 2, 256 proc | | | 165 | 602 nCUBE 2, 128 proc | | | 116 | 301 nCUBE 2, 64 proc | | | 76.9 | 151 nCUBE 2, 32 proc | | | 46.0 | 75 nCUBE 2, 16 proc | | | 26.1 | 38 nCUBE 2, 8 proc | | | 14.2 | 19 nCUBE 2, 4 proc | | | 7.50 | 9.4 nCUBE 2, 2 proc | | | 3.91 | 4.7 nCUBE 2, 1 proc | Fort77/ncc -O3 | .78 | 2.02 | 2.35 microVAX II | f77 Ultrix 1.1 | .082 microVAX II | VMS v4.5 | .13 microVAX I | VMS | .023 microVAX 3200/3500/3600 | VMS v4.6 | .41 microVAX 3200/3500/3600 | ULTRIX 2.2/VFU | .40 micro VAX II | ULTRIX 2.2/VFU | .12 VAXstation 4000-90 | DEC FORTRAN V5.2 | 5.1 | | VAXstation 3100-76 | DEC FORTRAN V5.2 | .85 VAX 11/785 FPA | VMS v4.5 | .20 VAX 11/785 FPA | UNIX 4.2 bsd f77 | .18 VAX 11/780 FPA | VMS v4.5 | .14 VAX 11/780 FPA | UNIX 4.3 BSD f77 -O | .11 VAX 11/750 FPA | VMS v4.1 | .12 VAX 11/750 FPA | UNIX 4.2 bsd f77 | .096 VAX 11/750 | VMS v4.1 | .057 VAX 11/750 | UNIX 4.2 bsd f77 | .029 VAX 11/730 FPA | VMS | .036 VAX 11/725 FPA | VMS v4.1 | .037 Tektronix 4315 w/68882 | UTEK f77 | .17 Tektronix 4315 w/68881 | UTEK f77 | .11 Tandy 5000 MC 20 MHz | LPI Fortran 3.0 | .17 Tadpole SPARCbook (25 MHz) | f77 -O | 2.1 | | Sun-3/160 + FPA | 3.2 f77 -O -ffpa | .40 Sun SPARCsystem 10/41 40MHz |f77 -native -fast -O4 -Bstatic|7.0 | | Sun SPARCsystem 10/30 36MHz |f77 -O4 -cg89 -libmil -native| 9.3 | | Sun 386i/250 25 MHz | SunOS 4.0; Sun 1.1 -O | .19 Sun 3/260, 20 MHz 68881 | 3.2 f77 -O -f68881 | .11 Sun 3/160, 16.7 MHz 68881 | 3.2 f77 -O -f68881 | .10 Sun 2/50 + SKY FFP | f77 -O -fsky 3.0 | .027 Sun 2/50 | f77 -O -fsoft 3.0 | .0055 Stardent 3040 | 3.0 -inline -nmax=300 | 12 | 77 | 128 Stardent 3030 | 3.0 -inline -nmax=300 | 12 | 63 | 96 Stardent 3020 | 3.0 -inline -nmax=300 | 11 | 46 | 64 Stardent 3010 | 3.0 -inline -nmax=300 | 10 | 25 | 32 Stardent 2040 (Stellar GS2000) | f77 -O3 -is R2.1 | 12 | | 40 Stardent 1540 (Ardent Titan-4) | | | 47 | 64 Stardent 1530 (Ardent Titan-3) | | | 37 | 48 Stardent 1520 (Ardent Titan-2) | f77 1.0 -O3 -inline | 10 | 25 | 32 Stardent 1510 (Ardent Titan-1) | f77 1.0 -O2 -inline | 6.9 | 13 | 16 Stardent 1040 (Stellar GS1000) | f77 -O3 -is -re R2.0 | 12 | | 40 Sperry 7000 | 4.2 | .47 Sperry 1100/90 ext w/ISP | UCS level 2 | 11 | | Sperry 1100/90 ext | UFTN | 1.7 | | Sperry 1100/90 | FTN opt=ZEO | 1.8 | | Sperry 1100/80 w/SAM | FTN opt=ZEO | .58 Sperry 1100/80 | FTN opt=ZEO | .38 Sperry 1100/60 | FTN opt=ZEO | .093 Solbourne 6/904 (Viking sparc) | f77 -O3 -cg89 -dalign | 8.9 | | Solbourne 5/602 | f77 (Sun) 1.2 -O3 -dalign| 2.9 | | Solbourne | f77 -O | .98 Siemens VP50-EX (7 ns) | Fortran 77/VP V10L30 | 17 | 238 | 285 Siemens VP400-EX (7 ns) | Fortran 77/VP V10L30 | 21 | 794 | 1714 Siemens VP200-EX (7 ns) | Fortran 77 V10L30 | 20 | 472 | 857 Siemens VP100-EX (7 ns) | Fortran 77/VP V10L30 | 18 | 254 | 428 Siemens H120F | Fortran 77 | 15 | | Siemens 7890G | Fortran 77 V10.3 opt=4 | 5.9 | | Siemens 7890F | Fortran 77 V10.3 | 7.2 | | Siemens 7890D | Fortran 77 V10.3 | 5.0 | | Siemens 7860E | Fortran 77 V10.3 | .92 Siemens 7570-P | For1 1.6A | 1.5 | | Sequent Symmetry (386 w/fpa) | Fortran -fpa -O3 | .37 Sequent Balance 8000 | DYNIX Fortran 2.4.4 | .059 SUN-3/50, 16.7 MHz 68881 | 3.2 f77 -O -f68881 | .087 SUN-3/260 + FPA | 3.2 f77 -O -ffpa | .46 SUN SPARCstation IPX |f77 1.4 -O3 -cg89 -dalign | 4.1 | | SUN SPARCstation 2 |f77 1.4 -O3 -cg89 -dalign | 4.0 | | SUN SPARCstation 1+ |f77 1.4 -O3 -cg89 -dalign | 1.8 | | SUN SPARCstation 1 |f77 1.3.1 -O3 -cg89 -dalign| 1.4 | | SUN 4/600 MP |f77 1.4 -O3 -cg89 -dalign | 4.3 | | SUN 4/50 IPX |f77 1.4 -O3 -cg89 -dalign | 4.1 | | SUN 4/490 | 4.1.1 f77 -O3 | 3.6 | | SUN 4/370 |f77 1.3.1 -O3 -cg89 -dalign| 2.7 | | SUN 4/330 SparcServer | f77 1.2, -O3 -dalign | 2.5 | | SUN 4/330 | f77 1.4 -O3 -dalign | 2.7 | | SUN 4/260 | f77 -O sys4-beta2 | 1.1 | 1.1 | 3.3 SGI Indigo2 Extreme(R4000/100MHz)|-O2 -mips2 -G 8192 | 15 | | SGI Crimson(1 proc 50 MHz R4000)|-O2 -mips2 -G 8192 | 16 | 32 | 50 SGI 4D/480(8 proc) 40MHz | f77 -O2 -mp | 18 | 71 | 128 SGI 4D/440(4 proc) 40MHz | f77 -O2 -mp | 15 | 42 | 64 SGI 4D/420(2 proc) 40MHz | f77 -O2 -mp | 9.3 | 23 | 32 SGI 4D/420(1 proc) 40MHz | f77 -O2 | 6.0 | 12 | 16 SGI 4D/380(8 proc) 33MHz | f77 -O2 -mp | 16 | 60 | 106 SGI 4D/35 | f77 -O3 | 4.3 | | SGI 4D/340(4 proc) 33MHz | f77 -O2 -mp | 13 | 36 | 53 SGI 4D/320(2 proc) 33MHz | f77 -O2 -mp | 8.0 | 20 | 26 SGI 4D/310(1 proc) 33MHz | f77 -O2 | 5.0 | 10 | 13 SGI 4D/240(4 proc) 25MHz | f77 -O2 -mp | 9.8 | 28 | 40 SGI 4D/220(2 proc) 25MHz | f77 -O2 -mp | 5.9 | 15 | 20 SGI 4D/210(1 proc) 25MHz | f77 -O2 | 3.9 | 7.8 | 10 SCS-40 | CFT 1.13 | 8.0 | 17 | 45 Russian PS-2100 | FORTRAN-PS | .57 | 1.6 | Ridge Server/RT EFP | ROS/rf | .18 Ridge 3200 Model 90 | ROS/rf | .39 Ridge 32/130 | OS 3.3/RISC | .17 Ridge 32/110 | ROS 3.3/RISC | .081 Pyramid 98xe | OSx 4.0 | .18 Pyramid 9810 | OSx 4.0 | .50 Pyramid 90X FPA | UNIX 4.2 bsd f77 | .088 Prism" 486-50 (50 MHz) |Salford v2.69 /optimise | 2.1 | | Prime P9955II | f77 rev 20.2.b2 -opt | .72 Prime P9755 | f77 rev 20.2.b2 -opt | .40 Prime P6350 | f77 rev 20.2.b2 -opt | 1.2 | | Prime P2755 | f77 rev 20.2.b2 -opt | .17 Prime P2450 | f77 rev 20.2.b2 -opt | .13 Prime P2350 | f77 rev 20.2.b2 -opt | .077 Prime 9950 | F77 19.4.2 | .34 Prime 850 | Primos | .095 Prime 750 | Primos f77 v19.1 | .11 Prime 2250 | Fortran 77 | .034 PC Craft 2400/25MHz w/80387 | PLI Fortran 2.09 | .17 Opus Series 300pm 30 MHz | UNIX Greenhills | .33 Opus 32.32 | UNIX, f77 4.2 bsd | .043 Number Smasher i860 40MHz | -on -OLM -fdiv -inline | 4.7 | | 40 NeXTCube | 2.0 gcc 1.36 -O | 1.4 | | NORSK DATA ND-570/2 | Fortran-500-E | .38 NORSK DATA ND-560 | Fortran-500 | .22 NORSK DATA ND-500 | Fortran-500-E | .19 NEC SX-3/44R (4 proc. 2.5 ns) | | |15120 |25600 NEC SX-3/44 (4 proc. 2.9 ns) | | |13420 |22000 NEC SX-3/42R (4 proc. 2.5 ns) | | | 8950 |12800 NEC SX-3/42 (4 proc. 2.9 ns) | | | 7752 |11000 NEC SX-3/41R (4 proc. 2.5 ns) | | | 4815 | 6400 NEC SX-3/24R (2 proc. 2.5 ns) | | | 9454 |12800 NEC SX-3/24 (2 proc. 2.9 ns) | | | 8149 |11000 NEC SX-3/22R (2 proc. 2.5 ns) | | | 5116 | 6400 NEC SX-3/22 (2 proc. 2.9 ns) | | | 4404 | 5500 NEC SX-3/21R (2 proc. 2.5 ns) | | | 2627 | 3200 NEC SX-3/1LR (1 proc. 2.5 ns) | f77sx 040 R2.2 -pi*:* | 201 | 767 | 800 NEC SX-3/1L (1 proc. 2.9 ns) | f77sx 020 R1.13 -pi*:* | 171 | 661 | 680 NEC SX-3/14R (1 proc. 2.5 ns) | f77sx 040 R2.2 -pi*:* | 368 | 5199 | 6400 NEC SX-3/14 (1 proc. 2.9 ns) | f77sx 020 R1.13 -pi*:* | 314 | 4511 | 5500 NEC SX-3/12R (1 proc. 2.5 ns) | f77sx 040 R2.2 -pi*:* | 368 | 2757 | 3200 NEC SX-3/12 (1 proc. 2.9 ns) | f77sx 020 R1.13 -pi*:* | 313 | 2283 | 2750 NEC SX-3/11R (1 proc. 2.5 ns) | f77sx 040 R2.2 -pi*:* | 202 | 1418 | 1600 NEC SX-3/11 (1 proc. 2.9 ns) | f77sx 020 R1.13 -pi*:* | 173 | 1223 | 1370 NEC SX-2 (6 ns) | FORTRAN 77/SX | 43 | 885 | 1300 NEC SX-1E | FORTRAN 77/SX | 32 | 221 | 325 NEC SX-1 | FORTRAN 77/SX | 36 | 422 | 650 NCUBE (1 proc. 8 MHz) | Fortran | .10 NAS AS/EX 90 VPF (3 proc) | | | 251 | 363 NAS AS/EX 80 VPF (2 proc) | | | 173 | 242 NAS AS/EX 60 VPF | VAST-2/VS 2.3.0 opt=3 | 25 | 94 | 121 NAS AS/EX 60 | Fortran | 15 | | 40 NAS AS/EX 50 VPF | VAST-2/VS 2.3.0 | 18 | 82 | 121 NAS AS/EX 50 | Fortran | 9.3 | | 28 NAS AS/EX 30 | VS 1.4.1 opt=3 | 4.3 | | NAS AS/EX 25 | VS 1.4.1 opt=3 | 2.9 | | NAS AS/EX 20 | VS 1.4.1 opt=3 | 2.2 | | NAS AS/EX 100 VPF (4 proc) | | | 320 | 484 NAS AS/9160 | VAST/VS 1.4.1 opt=3 | 8.3 | | NAS 8093 w/HSA | VS 1.4.0 opt=3 | 3.5 | | NAS 8093 | VS 1.4.0 opt=3 | 1.5 | | Multiflow TRACE 7/300 | Fortran 2.2.1 | 11 | 22 | 31 Multiflow TRACE 7/200 | Fortran 1.4 | 6.0 | | 15 Multiflow TRACE 28/300 | Fortran 2.2.1 | 22 | 69 | 123 Multiflow TRACE 14/300 | Fortran 2.2.1 | 17 | 42 | 63 Multiflow TRACE 14/200 | Fortran 1.7 | 10 | | 31 Mentor Graphics Computer | fortran | .60 Meiko Comp. Surface (8 proc) | | | 147 | 320 Meiko Comp. Surface (4 proc) | | | 98 | 160 Meiko Comp. Surface (32 proc) | | | 210 | 1280 Meiko Comp. Surface (2 proc) | -O4 -Mvect=smallvect | | 58 | 80 Meiko Comp. Surface (16 proc) | | | 187 | 640 Meiko Comp. Surface (1 proc) |-Minline=daxpy | 11 | 31 | 40 Masscomp MCS-541 w/FPB | Fortran 3.1 | .037 Masscomp MC5600 w/fpa | f77 v1.2 -O3 rtv v3.1 | .33 Masscomp MC5600 68881 | f77 v1.2 -O3 rtv v3.1 | .099 Masscomp MC500 w/FPP | 3.1 Fortran | .061 Masscomp MC500 | 3.1 Fortran | .0070 MIPS RS3230 (25.0MHz) | f77 2.20 -O | 3.7 | 7.8 | 10 MIPS RS2030 (16.7MHz) | f77 2.20 -O | 1.7 | 4.7 | 6.7 MIPS RC6280 (60.0MHz) | f77 2.20 -O | 10 | 16 | 24 MIPS RC6260 (60.0MHz) | f77 2.20 -O | 10 | 16 | 24 MIPS RC3360 (33.3MHz) | f77 2.20 -O | 4.5 | 11 | 13 MIPS RC3260 (25.0MHz) | f77 2.20 -O | 3.9 | 7.9 | 10 MIPS RC3240 (25.0MHz) | f77 2.20 -O | 3.1 | 7.1 | 10 MIPS M800 w/R2010 FP | f77 1.10 | .87 MIPS M120-5 | UMIPS v.3 3.0 f771.31 -O | 2.1 | 3.6 | 8.3 MIPS M/800 (12.5MHz) | f77 1.31 -O | 1.2 | | 5 MIPS M/500 ( 8.3HHz) | f77 1.21 -O | .60 | | 3.3 MIPS M/2000 (25.0MHz) | f77 2.20 -O | 3.9 | 7.9 | 10 MIPS M/120 (16.7MHz) | f77 2.20 -O | 2.1 | 4.8 | 6.7 MIPS M/1000 (15.0MHz) | f77 2.20 -O | 1.5 | 3.7 | 6 Kendall Square (8 proc) | | | 146 | 320 Kendall Square (4 proc) | | | 47 | 160 Kendall Square (32 proc) | | | 513 | 1280 Kendall Square (16 proc) | | | 307 | 640 Kendall Square (1 proc) |ksrf77 -O2 -r8 -inline _auto| 15 | 31 | 40 KONTRON KSM/386 | UNIX SVS F77 2.8 | .19 Itel AS/5 mod 3 | H | .19 Intel iPSC/Delta (8 proc) | | | 163 | 320 Intel iPSC/Delta (64 proc) | | | 352 | 2560 Intel iPSC/Delta (512 proc) | | | 446 |20480 Intel iPSC/Delta (4 proc) | | | 100 | 160 Intel iPSC/Delta (32 proc) | | | 304 | 1280 Intel iPSC/Delta (256 proc) | | | 418 |10240 Intel iPSC/Delta (2 proc) | if77 -O3 -Mvect=smallvect| | 58 | 80 Intel iPSC/Delta (16 proc) | | | 231 | 640 Intel iPSC/Delta (128 proc) | | | 393 | 5120 Intel iPSC/Delta (1 proc) | -Minline=daxpy -Knoieee | 9.7 | 34 | 40 Intel iPSC/860 d7 (128 proc) | | | 219 | 5120 Intel iPSC/860 d6 (64 proc) | | | 208 | 2560 Intel iPSC/860 d5 (32 proc) | | | 167 | 1280 Intel iPSC/860 d4 (16 proc) | | | 131 | 640 Intel iPSC/860 d3 (8 proc) | | | 103 | 320 Intel iPSC/860 d2 (4 proc) | | | 75 | 160 Intel iPSC/860 d1 (2 proc) | if77 -O3 -Mvect=smallvect| | 52 | 80 Intel iPSC/860 d0 (1 proc) | -Minline=daxpy -Knoieee | 9.7 | 34 | 40 Intel iPSC/2 d5/VX (32 proc) | | | 52 | Intel iPSC/2 d4/VX (16 proc) | | | 39 | Inmos T800 (20 MHz) | Fortran 3L -:o1 | .26 Inmos T800 (20 MHz) | Fortran 3L -:o0 | .37 IRIS 2400 Turbo/FPA | f77 | .24 ICL 3980 w/FPU | FORTRAN77 PLUS V10.02 | .93 ICL 2988 | f77 OPT=2 | .14 IBM-486 33MHz | Microsoft 5.1 | .94 IBM RT w/68881 | f77 | .12 IBM RT PC Model 20 | f77 | .036 IBM RT PC 6150/115 fpa2 | f77 | .36 IBM RT 135 | AIX-2.2 | .42 IBM RS/6000 Cluster(8 proc 62.5 MHz)| | | 269 | 1000 IBM RS/6000 Cluster(8 proc 50 MHz)| | | 194 | 800 IBM RS/6000 Cluster(6 proc 50 MHz)| | | 174 | 600 IBM RS/6000 Cluster(4 proc 62.5 MHz)| | | 206 | 500 IBM RS/6000 Cluster(4 proc 50 MHz)| | | 152 | 400 IBM RS/6000 Cluster(2 proc 62.5 MHz)| | | 144 | 250 IBM RS/6000 Cluster(2 proc 50 MHz)| | | 111 | 200 IBM RISC Sys/6000-M2A (33 MHz) |v2.3.0 xlf -O -P -Wp,-ea478|6.6 | 14 | 66 IBM RISC Sys/6000-M20 (33 MHz) |v2.3.0 xlf -O -P -Wp,-ea478|6.6 | 14 | 66 IBM RISC Sys/6000-980 (62.5MHz)|v2.3 xlf -O -P -Wp,-ea478 | 38 | 104 | 125 IBM RISC Sys/6000-970 (50 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 31 | 84 | 100 IBM RISC Sys/6000-950 (42 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 26 | 70 | 84 IBM RISC Sys/6000-930 (25 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 15 | 42 | 50 IBM RISC Sys/6000-580 (62.5MHz)|v2.3 xlf -O -P -Wp,-ea478 | 38 | 104 | 125 IBM RISC Sys/6000-570 (50 MHz) |v2.3.0 xlf -O -P -Wp,-ea478| 22 | 73 | 100 IBM RISC Sys/6000-560 (50 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 31 | 84 | 100 IBM RISC Sys/6000-550L(42 MHz)|v2.3.0 xlf -O -P -Wp,-ea478| 19 | 61 | 82 IBM RISC Sys/6000-550 (42 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 26 | 70 | 84 IBM RISC Sys/6000-540 (30 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 19 | 50 | 60 IBM RISC Sys/6000-530H(33 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 20 | 55 | 66 IBM RISC Sys/6000-530 (25 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 15 | 42 | 50 IBM RISC Sys/6000-520H(25 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 12 | 37 | 50 IBM RISC Sys/6000-520 (20 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 9 | 29 | 40 IBM RISC Sys/6000-375(62.5 MHz)|v2.3.0 xlf -O -P -Wp,-ea478| 26 | 90 | 125 IBM RISC Sys/6000-370(62.5 MHz)|v2.3.0 xlf -O -P -Wp,-ea478| 26 | 90 | 125 IBM RISC Sys/6000-365 (50 MHz) |v2.3.0 xlf -O -P -Wp,-ea478| 22 | 73 | 100 IBM RISC Sys/6000-360 (50 MHz) |v2.3.0 xlf -O -P -Wp,-ea478| 22 | 73 | 100 IBM RISC Sys/6000-355 (42 MHz)|v2.3.0 xlf -O -P -Wp,-ea478| 19 | 61 | 84 IBM RISC Sys/6000-350 (42 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 19 | 61 | 84 IBM RISC Sys/6000-340 (33 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 15 | 49 | 66 IBM RISC Sys/6000-320H(25 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 12 | 37 | 50 IBM RISC Sys/6000-320 (20 MHz)|v2.2.1 xlf -O -P -Wp,-ea478| 9 | 29 | 40 IBM RISC Sys/6000-230 (45 MHz)|v2.3.0 xlf -O -P -Wp,-ea478| 8.8 | 19 | 90 IBM RISC Sys/6000-220 (33 MHz) |v2.2.1 xlf -O -P -Wp,ea478| 6.5 | 14 | 66 IBM Power Vis. Sys. (32 proc.) | | | 310 | 1280 IBM Power Vis. Sys. (1 proc.) |-O4 -Mvect=smallvect:201 -Minline=daxpy| 9.3 | | IBM PS/2-70 (20 MHz) | AIX 1.2 | .15 IBM PS/2-70 (16 MHz) | AIX 1.2 | .12 IBM PC/AT w/80287 | Microsoft 3.2 | .0091 IBM PC-XT/370 | H opt=3 | .031 IBM PC-AT/370 | VS Fortran opt=3 | .033 IBM PC w/8087 | PROFORT 1.0 | .012 IBM PC w/8087 | Microsoft 3.2 | .0069 IBM ES/9000-982 VF(8 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 2278 | 4507 IBM ES/9000-972 VF(7 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 2072 | 3944 IBM ES/9000-962 VF(6 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 1923 | 3380 IBM ES/9000-952 VF(5 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 1681 | 2817 IBM ES/9000-942 VF(4 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 1377 | 2254 IBM ES/9000-900 VF(6 proc. 9 ns)|VAST-2/VS Fortran V2R4 | | 1457 | 2664 IBM ES/9000-860 VF(5 proc. 9 ns)|VAST-2/VS Fortran V2R4 | | 1210 | 2220 IBM ES/9000-831 VF(3 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 1082 | 1690 IBM ES/9000-821 VF(2 proc 7.1ns)|VAST-2/VS Fortran V2R5 | | 767 | 1127 IBM ES/9000-820 VF(4 proc. 9 ns)|VAST-2/VS Fortran V2R4 | | 1003 | 1776 IBM ES/9000-820 (1 proc. 9 ns) | VAST-2/VS Fortran V2R4 | 38 | | IBM ES/9000-742 VF(4 proc 11ns)|VAST-2/VS Fortran V2R5 | | 441 | 752 IBM ES/9000-740 VF(3 proc. 9 ns)|VAST-2/VS Fortran V2R4 | | 775 | 1332 IBM ES/9000-732 VF(3 proc 11ns)|VAST-2/VS Fortran V2R5 | | 352 | 545 IBM ES/9000-711 VF(1 proc 7.1ns)|VAST-2/VS Fortran V2R5 | 86 | 422 | 563 IBM ES/9000-711 (1 proc 7.1ns) |VAST-2/VS Fortran V2R5 | 48 | | IBM ES/9000-660 VF(2 proc. 9 ns)|VAST-2/VS Fortran V2R4 | | 535 | 888 IBM ES/9000-640 VF(2 proc. 9 ns)|VAST-2/VS Fortran V2R4 | | 539 | 888 IBM ES/9000-622 VF(2 proc 11ns)|VAST-2/VS Fortran V2R5 | | 244 | 364 IBM ES/9000-621 VF(2 proc 11ns)|VAST-2/VS Fortran V2R5 | | 244 | 364 IBM ES/9000-610 VF (4 proc 15 ns)| VAST-2/VS Fortran V2R4 | | 335 | 532 IBM ES/9000-570 VF (3 proc 15 ns)| VAST-2/VS Fortran V2R4 | | 252 | 399 IBM ES/9000-521 VF(2 proc 11ns)|VAST-2/VS Fortran V2R5 | | 185 | 364 IBM ES/9000-520 VF(1 proc. 9 ns)|VAST-2/VS Fortran V2R4 | 60 | 338 | 444 IBM ES/9000-520 (1 proc. 9 ns) | VAST-2/VS Fortran V2R4 | 38 | | IBM ES/9000-511 VF(1 proc 11ns)|VAST-2/VS Fortran V2R5 | 30 | 130 | 182 IBM ES/9000-511 (1 proc 11ns) |VAST-2/VS Fortran V2R5 | 15 | | IBM ES/9000-490 VF (2 proc 15 ns)| VAST-2/VS Fortran V2R4 | | 171 | 266 IBM ES/9000-411 VF(1 proc 11ns)| VAST-2/VS Fortran V2R5 | 23 | 99 | 182 IBM ES/9000-411 (1 proc 11ns) | VAST-2/VS Fortran V2R5 | 11 | | IBM ES/9000-340 VF (14.5 ns) | VAST-2/VS Fortran V2R4 | 23 | | 138 IBM ES/9000-320 VF (1 proc 15 ns)| VAST-2/VS Fortran V2R4 | 22 | 91 | 133 IBM ES/9000-311 VF(1 proc 11ns)| VAST-2/VS Fortran V2R5 | 19 | 82 | 182 IBM ES/9000-311 (1 proc 11ns) | VAST-2/VS Fortran V2R5 | 8.6 | | IBM ES/9000-180 VF(15 ns) | VAST-2/VS Fortran V2R4 | 8.9 | 48 | 133 IBM ES/9000 Model 480 VF | VAST-2/VS Fortran V2R4 | | 180 | 266 IBM ES/9000 Model 340 | VAST-2/VS Fortran V2R4 | 11 | | IBM ES/9000 Model 320 | VS/FORTRAN V2R4 | 7.6 | | IBM ES/9000 Model 320 | VAST-2/VS Fortran V2R4 | 8.5 | | IBM ES/9000 Model 260 VF (15 ns)| VAST-2/VS Fortran V2R4 | 19 | 78 | 133 IBM ES/9000 Model 260 | VAST-2/VS Fortran V2R4 | 8.0 | | IBM ES/9000 Model 210 VF (15 ns)| VAST-2/VS Fortran V2R4 | 17 | 72 | 133 IBM ES/9000 Model 210 | VAST-2/VS Fortran V2R4 | 7.7 | | IBM ES/9000 Model 190 VF(15 ns)| VAST-2/VS Fortran V2R4 | 14 | 60 | 133 IBM ES/9000 Model 190 | VAST-2/VS Fortran V2R4 | 6.6 | | 133 IBM ES/9000 Model 180 (15 ns) | VAST-2/VS Fortran V2R4 | 4.9 | | IBM ES/9000 Model 150 | VS Fortran V2R4 | 2.9 | | IBM ES/9000 Model 130 | VS Fortran V2R4 | 2.1 | | IBM ES/9000 Model 120 | VS Fortran V2R4 | 1.2 | | IBM AT w/80287 | PROFORT 1.0 | .012 IBM 9377-80 | VS Fortran 2.1.1 opt=3 | .58 IBM 9373-30 | VS Fortran 2.1.1 opt=3 | .36 IBM 9370-90 | VS Fortran 1.3.0 opt=3 | .78 IBM 9370-60 | VS Fortran 1.4.0 opt=3 | .40 IBM 9370-40 | VS Fortran 1.4.0 opt=3 | .18 IBM 9370-20 | VS Fortran 1.4.0 opt=3 | .14 IBM 4381-23 | VS Fortran 2.1.1 opt=3 | 1.3 | | IBM 4381-22 | VS Fortran 2.1.1 opt=3 | .97 IBM 4381-21 | VS Fortran 2.1.1 opt=3 | .47 IBM 4381-13 | VS 1.4.0 opt=3 | 1.2 | | IBM 4381-12 | VS Fortran 1.4.0 opt=3 | .95 IBM 4381-11 | VS Fortran 1.4.0 opt=3 | .39 IBM 4381 MG2 | VS Fortran opt=3 | .96 IBM 4381 MG1 | VS Fortran opt=3 | .46 IBM 4381 90E | VS Fortran 2.1.1 opt=3 | 1.2 | | IBM 4361 MG5 | VS Fortran opt=3 | .30 IBM 4341 MG10 | VS Fortran opt=3 | .19 IBM 4331 MG2 | H opt=3 | .038 IBM 370/195 | H enhanced opt=3 | 2.5 | | IBM 370/168 Fast Mult | H Ext | 1.2 | | IBM 370/165 Fast Mult | H Ext | .77 IBM 370/158 | VS Fortran opt=3 | .22 IBM 370/158 | H opt=3 | .23 IBM 3090/600J VF (6 proc, 14.5 ns)| | | 540 | 828 IBM 3090/500J VF (5 proc, 14.5 ns)| | | 458 | 690 IBM 3090/400J VF (4 proc, 14.5 ns)| | | 370 | 552 IBM 3090/380J VF (3 proc, 14.5 ns)| | | 282 | 414 IBM 3090/300J VF (3 proc, 14.5 ns)| | | 284 | 414 IBM 3090/280J VF (2 proc, 14.5 ns)| | | 191 | 276 IBM 3090/200J VF (2 proc, 14.5 ns)| | | 192 | 276 IBM 3090/180S VF (1 proc, 15 ns)| VS Fortran 2.3.0 | 16 | 92 | 133 IBM 3090/180S | VS Fortran 2.3.0 | 9.6 | 92 | 133 IBM 3090/180J VF (1 proc, 14.5 ns)| VS Fortran V2R3 | 16 | 97 | 138 IBM 3090/180J | VS Fortran V2R3 | 10 | | IBM 3090/180E VF | VS 2.1.1 opt=3 | 13 | 71 | 116 IBM 3090/180E | VS 2.1.1 opt=3 | 7.4 | 71 | 116 IBM 3090/180 VF | VS Fortran V2 | 12 | 65 | 108 IBM 3090/180 | VS opt=3 | 6.8 | 65 | 108 IBM 3090/150E | VS 2.1.1 opt=3 | 5.9 | 64 | 112 IBM 3090/120E VF | VS 2.1.1 opt=3 | 7.5 | 54 | 108 IBM 3090/120E | VS 2.1.1 opt=3 | 3.1 | 54 | 108 IBM 3081 K (1 proc.) | VS opt=3 | 2.0 | | IBM 3081 K (1 proc.) | H enhanced opt=3 | 2.1 | | IBM 3081 D | VS opt=3 | 1.7 | | IBM 3033 | VS opt=3 | 1.7 | | IBM 3033 | H enhanced opt=3 | 1.7 | | Honeywell DPS90 | ES F77V 1.0 | 5.0 | | Honeywell DPS 8/88 | FR7X | 1.7 | | Honeywell DPS 8/70 | FR7X | .21 Hitachi S-820/80 (4 ns) | FORT77/HAP V23-0C | 107 | | 3000 Hitachi S-810/20 | FORT77/HAP | 17 | | 840 Hitachi S-810/10 | HAP V21.00 | 16 | | 315 Hitachi M680H/vector | Fort 77 E2 V04-0I | 16 | | Hitachi M680H | Fort 77 E2 V04-0I | 15 | | Harris Nighthawk 4802 (88100) | f77 | 3.0 | | Harris HS-20 w/FPP | Fortran 77 3.1 | .061 Harris HCX-9 | hf77 -O3 | .50 Harris HCX-7 w/fpp | f77 1.0 | .48 Harris H1200 | VOS 4.1 opt g | .56 Harris H1000 | VOS 3.3 opt g | .41 Harris 800 | Fortran 77 | .23 HP/Apollo DN4500 (68030) | | .55 HP/Apollo DN4500 (68030 + FPA) | | .60 HP-APOLLO 9000/425t (68040) | f77 -O4 rev 10.3.4 | 2.2 | | HP-APOLLO 9000/425e (68040) | f77 -O4 rev 10.3.5 | 2.3 | | HP-APOLLO 9000/400t (68030) | f77 -O4 rev 10.8(190) | .51 HP Vectra RS/20C 20 MHz | LPI Fortran 3.0 | .14 HP 9000/750 (66 MHz) |+OP3 -Wl,-aarchive -WP,-nv -w| 24 | 47 | 66 HP 9000/735 (99 MHz) |+OP3 -Wl,-aarchive -WP,-nv -w,MLIB| 41 | 107 | 198 HP 9000/730 (66 MHz) |+OP3 -Wl,-aarchive -WP,-nv -w| 24 | 49 | 66 HP 9000/720 (50 MHz) | HP-UX 8.05 f77 +OP4 +O3 | 18 | 36 | 50 HP 9000 Series 850 w/fp | 2.0 fc -O | 1.6 | | HP 9000 Series 850 | 2.0 fc -O | .71 HP 9000 Series 840 | HP-UX 14.3 | .43 HP 9000 Series 840 | 2.0 fc -O | .49 HP 9000 Series 835 | 2.1 fc -O | 1.8 | | HP 9000 Series 825 | 2.0 fc -O | .53 HP 9000 Series 500 | Fortran 1.7 | .043 HP 9000 Series 350 | HP-UX, f77 5.2 | .11 HP 9000 Series 330 | HP-UX, f77 5.2 | .087 HP 9000 Series 320 | HP-UX, f77 5.2 | .073 HP 9000 Series 200 | HP-UX | .0062 HP 425T (68040) | | 1.9 | | Gould PN9080 | UTX/32 | .35 Gould PN9000 | UNIX | .47 Gould PN 9005 | VTX/32 2.0 Fortran 77 | .87 Gould PN 6005 | VTX/32 2.0 Fortran 77 | .23 Gould NP1 | Fortran | 3.1 | | Gould 32/9705 mult acc | fort77+ 4.3 | .39 Gateway 2000 66 MHz 80486-DX2 | F77L-EM32 5.01 /4 /Z1 | 2.4 | | Fujitsu VP2600/10 (3.2 ns) | FORTRAN77 EX/VP V11L10 | 249 | 4009 | 5000 Fujitsu VP2400/10 (4 ns) | FORTRAN77 EX/VP V11L10 | 170 | 1688 | 2000 Fujitsu VP2200/10 (4 ns) | FORTRAN77 EX/VP V11L10 | 127 | 842 | 1000 Fujitsu VP2200/10 (3.2 ns) | FORTRAN77 EX/VP V12L10 | 203 | 1048 | 1250 Fujitsu VP2100/10 (4 ns) | FORTRAN77 EX/VP V11L10 | 112 | 445 | 500 Fujitsu VP-50 | Fortran 77 | 14 | | 133 Fujitsu VP-400 | Fortran 77 V10L30 | 20 | | 1142 Fujitsu VP-200 | Fortran 77 | 18 | 422 | 533 Fujitsu VP-100 | Fortran 77 | 16 | | 267 Fujitsu M-380 | Fortran 77, opt=3 | 6.3 | | Fujitsu AP1000 (64 proc.) | | | 100 | 356 Fujitsu AP1000 (512 proc.) | | | 610 | 2844 Fujitsu AP1000 (256 proc.) | | | 333 | 1422 Fujitsu AP1000 (128 proc.) | | | 193 | 711 Fujitsu AP1000 (1 proc.) | SUN f77 1.3.1 -O3 -dalign| 2.2 | 1.7 | 5.6 FPS-M64/30 | APFTN464 OPT=4 | 2.1 | 10 | FPS-264/20 (M64/50) | F02 APFTN64 OPT=4 | 3.0 | 17 | FPS-264 (M64/60) | F02 APFTN64 OPT=4 | 5.9 | 34 | 38 FPS-164/364 (M64/40) | F02 APFTN64 OPT=4 | 1.7 | 9 | FPS Model 522 | F77 4.2 | 20 | 105 | 133 FPS Model 511 | F77 4.2 | 15 | 56 | 67 FPS M64/35 | APFTN464 | 2.0 | | FPS 510S MCP784 (84 proc. 25 ns)| | | 548 | 3360 FPS 510S MCP756 (56 proc. 25 ns)| | | 513 | 2240 FPS 510S MCP728 (28 proc. 25 ns)| | | 414 | 1120 FPS 510S MCP707 (7 proc. 25 ns)| pgf77 -O4 -Minline | 33 | 184 | 280 FPS 510S MCP101 (1 proc. 25 ns)| pgf77 -O4 | 11 | 30 | 40 Encore Multimax | f77 | .055 ETA 10-Q (1 proc. 19 ns) | ETAV/FTN200 | 34 | 185 | 210 ETA 10-P (1 proc. 24 ns) | ETAV/FTN200 | 27 | 146 | 167 ETA 10-G (1 proc. 7 ns) | ETAV/FTN200 | 93 | 496 | 571 ETA 10-E (1 proc. 10.5 ns) | ETAV/FTN200 | 62 | 334 | 381 ENCORE Multimax NS32332 | f77 | .11 ELXSI 6420 (5 proc.) | | | 6.4 | ELXSI 6420 (3 proc.) | | | 4.0 | ELXSI 6420 (2 proc.) | | | 2.7 | ELXSI 6420 (1 proc.) |EMBOS 6.3 +opt+inline+vector| 1.7 | 1.4 | ELXSI 6420 | Fortran 5.14 opt=10 | 1.2 | 1.4 | Denelcor HEP | f77 UPX | .21 Definicon DSI-780 | SVS Fortran (MSDOS) | .11 Definicon DSI-32/10 | Greenhills f77 (MSDOS) | .057 Data General MV/8000 | f77 opt level 2 | .078 Data General MV/20000 | f77 | .59 Data General MV/10000 | f77 opt level 2 | .30 DECstation 3100 | V3.0/V1.31 -O | 1.6 | | DEC station 5000/200 (25 Mhz) | MIPS f77 2.0 | 3.7 | | DEC VAXvector 6000/520 (2 proc)| Fortran HPO V1.2 | 8.8 | 51 | 90 DEC VAXvector 6000/510 (1 proc)| Fortran HPO V1.2 | 7.0 | 28 | 45 DEC VAXvector 6000/420 (2 proc)| Fortran HPO V1.0 | | 43 | 90 DEC VAXvector 6000/410 (1 proc)| Fortran HPO V1.0 | 3.6 | 24 | 45 DEC VAXstation 4000-90 | V 5.2 | 8.7 | | DEC VAXstation 4000-60 | V 5.2 | 1.5 | | DEC VAX 9000 420VP(2 proc 16 ns)|HPO V1.3-163V, DXML | | 155 | 250 DEC VAX 9000 410VP(1 proc 16 ns)|HPO V1.3-163V, DXML | 22 | 89 | 125 DEC VAX 8800 (4 proc) | | | 4.9 | DEC VAX 8800 (3 proc) | | | 3.7 | DEC VAX 8800 (2 proc) | | | 2.5 | DEC VAX 8650 | VMS v4.5 | .70 DEC VAX 8600 | VMS v4.5 | .48 DEC VAX 8550/8700/8800 | VMS v4.5 | .99 | 1.3 | DEC VAX 8530 | VMS v4.6 | .73 DEC VAX 8500 | VMS v4.5 | .65 DEC VAX 8250/8350 (UP) | VMS v4.6 | .18 DEC VAX 8200/8300 | VMS v4.5 | .15 DEC VAX 6620 | V5.5 | 6.2 | | DEC VAX 6540 | VMS 5.4-2 | 3.0 | | DEC VAX 6210 (1 proc.) | VMS v5.0 | .46 DEC VAX 6000/610 (1 proc) | VMS V5.2 | 5.0 | | DEC VAX 6000/460 (6 proc) | | | 8.4 | 15 DEC VAX 6000/450 (5 proc) | | | 7.1 | 13 DEC VAX 6000/440 (4 proc) | | | 5.8 | 10 DEC VAX 6000/430 (3 proc) | | | 4.4 | 7.6 DEC VAX 6000/420 (2 proc) | | | 3.0 | 5.1 DEC VAX 6000/410 (1 proc) | VMS V5.2 | 1.2 | 1.5 | 2.6 DEC 7000-660 Alpha AXP (6 proc)| | | 683 | 1092 DEC 7000-650 Alpha AXP (5 proc)| | | 586 | 910 DEC 7000-640 Alpha AXP (4 proc)| | | 484 | 728 DEC 7000-630 Alpha AXP (3 proc)| | | 369 | 546 DEC 7000-620 Alpha AXP (2 proc)| | | 250 | 364 DEC 7000-610 Alpha AXP(182 MHz)|3.2 inl=daxpy,ur=4,ur2=240| 39 | 141 | 182 DEC 5900 RISC | Ultrix 4.1 | 5.3 | | DEC 5400 | f77 -O3 | 1.6 | | DEC 5000/240 | Ultrix | 5.3 | | DEC 4000-620 Alpha AXP (2 proc)| | | 187 | 320 DEC 4000-610 Alpha AXP(160 MHz)|3.2 inl=daxpy,ur=4,ur2=240| 36 | 114 | 160 DEC 3000-500 Alpha AXP(150 MHz)|3.2 inl=daxpy,ur=4,ur2=240| 30 | 107 | 150 DEC 3000-400 Alpha AXP(133 MHz)|3.2 inl=daxpy,ur=4,ur2=240| 26 | 90 | 133 DEC 10000-660 Alpha AXP(6 proc)| | | 751 | 1200 DEC 10000-650 Alpha AXP(5 proc)| | | 639 | 1000 DEC 10000-640 Alpha AXP(4 proc)| | | 523 | 800 DEC 10000-630 Alpha AXP(3 proc)| | | 403 | 600 DEC 10000-620 Alpha AXP(2 proc)| | | 273 | 400 DEC 10000-610 Alpha AXP 200 MHz|3.2 inl=daxpy,ur=4,ur2=240| 43 | 155 | 200 DATEK 80386-33 /w 64KB Cache |MS Fortran 5.0 -Ox -AH -G2| .27 Cydrome CYDRA 5 | Fortran 77 Rel 2.4.1 | 14 | | 25 CyberPlus | CPFTN 1.1-07 | 2.6 | | Culler PSC | CSD Fortran 3.21 | 2.0 | | 5 Cray Y-MP M98 (8 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 204 | 1733 | 2666 Cray Y-MP M98 (4 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 177 | 1114 | 1333 Cray Y-MP M98 (2 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 154 | 596 | 666 Cray Y-MP M98 (1 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 150 | 307 | 333 Cray XMS (55 ns) | cf77 5.0 -Zp -Wd-e68 | 17 | 34 | 36 Concurrent 3280XP | Fortran VII,Z 8.1 | .87 Concurrent 3252 | OS 6.2.4 fortran z | .17 Concurrent 3242 | OS 32 v7.2 f77 | .16 Concurrent 3230 | OS 6.2.2 fortran 5.2 | .11 Comparex 8/92 (Fujitsu M382) | VS/FORTRAN 2.4.0 | 8.7 | | Compaq Deskpro 486/33l-120 w/487|Watcom WFC386P /OL /OT | 1.3 | | Compaq Deskpro 486/33l-120 w/487|Salford FTN77/ optimized | 1.3 | | Compaq Deskpro 486/33l-120 w/487|Microway NDPF487 -O -OL -on|1.4| | Compaq Deskpro 486/33l-120 w/487|Lahey F77L3 /Z1 | 1.1 | | Compaq 386/20 w/387 | RM/Forrtan 2.43 | .13 Compaq 386/20 w/387 | Microsoft Forrtan 4.1 | .16 Chas. River Data 6835+SKY | SVS Fortran 77 | .018 Chas. River Data 6835 | SVS Fortran 77 | .0088 Celerity C1230 | UNIX 4.2 bsd f77 | .36 Celerity C1200 | UNIX 4.2 bsd f77 | .21 Canaan | VS | .021 Cadtrak DS1/8087 | Intel Fortran 77 | .011 CSPI MAP-6430 | Fortran 1.5.35 | 1.2 | | CSA w/T800C-20 | Fortran 3L | .37 CRAY-2/4-256 (4 proc. 4.1 ns) | cf77 3.0 | 62 | 1406 | 1951 CRAY-2/4-256 (2 proc. 4.1 ns) | cf77 3.0 | 48 | 709 | 976 CRAY-2/4-256 (1 proc. 4.1 ns) | cf77 3.0 | 38 | 360 | 488 CRAY-1S (12.5 ns, 1983 run) | CFT 1.12 | 12 | 110 | 160 CRAY-1S (12.5 ns) | cf77 2.1 | 27 | 110 | 160 CRAY Y-MP/832 (8 proc. 6 ns) | CF77 4.0 -Zp -Wd-e68 | 275 | 2144 | 2667 CRAY Y-MP/832 (4 proc. 6 ns) | CF77 4.0 -Zp -Wd-e68 | 226 | 1159 | 1333 CRAY Y-MP/832 (2 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 181 | 604 | 667 CRAY Y-MP/832 (1 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 161 | 324 | 333 CRAY Y-MP M92 (2 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 145 | 550 | 666 CRAY Y-MP M92 (1 proc. 6 ns) | CF77 5.0 -Zp -Wd-e68 | 145 | 332 | 333 CRAY Y-MP EL98 (8 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 40 | 567 | 1068 CRAY Y-MP EL98 (4 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 40 | 357 | 534 CRAY Y-MP EL98 (2 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 35 | 192 | 267 CRAY Y-MP EL98 (1 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 34 | 107 | 133 CRAY Y-MP EL (4 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 39 | 345 | 532 CRAY Y-MP EL (2 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 33 | 191 | 266 CRAY Y-MP EL (1 proc. 30 ns) | CF77 5.0 -Zp -Wd-e68 | 32 | 107 | 133 CRAY Y-MP C90 (8 proc. 4.2 ns) | CF77 5.0 -Zp -Wd-e68 | 468 | 5994 | 7619 CRAY Y-MP C90 (4 proc. 4.2 ns) | CF77 5.0 -Zp -Wd-e68 | 388 | 3272 | 3810 CRAY Y-MP C90 (2 proc. 4.2 ns) | CF77 5.0 -Zp -Wd-e68 | 387 | 1709 | 1905 CRAY Y-MP C90 (16 proc. 4.2 ns)| CF77 5.0 -Zp -Wd-e68 | 479 | 9715 |15238 CRAY Y-MP C90 (1 proc. 4.2 ns) | CF77 5.0 -Zp -Wd-e68 | 387 | 874 | 952 CRAY X-MP/416 (4 proc. 8.5 ns) | CF77 4.0 -Zp -Wd-e68 | 178 | 822 | 940 CRAY X-MP/416 (2 proc. 8.5 ns) | CF77 5.0 -Zp -Wd-e68 | 143 | 426 | 470 CRAY X-MP/416 (1 proc. 8.5 ns) | CF77 5.0 -Zp -Wd-e68 | 121 | 218 | 235 CRAY X-MP/14se (10 ns) | cf77 3.0 | 53 | 184 | 210 CRAY S-MP/MCP784(84 proc. 25 ns)| | | 742 | 3360 CRAY S-MP/MCP756(56 proc. 25 ns)| | | 678 | 2240 CRAY S-MP/MCP728(28 proc. 25 ns)| | | 508 | 1120 CRAY S-MP/MCP707 (7 proc. 25 ns)| MCP Release 2.2 | 33 | 194 | 280 CRAY S-MP/MCP101 (1 proc. 25 ns)| MCP Release 2.2 | 11 | 31 | 40 CRAY S-MP/11v2 (1 proc. 30 ns)|uf77 5.1.2 vec=collapse pi+| 39 | 206 | 267 CRAY S-MP/11 (1 proc. 30 ns) |uf77 5.1.2 -Oc a2 | 18 | 60 | 67 CRAY 2S/8-128 (8 proc. 4.1 ns) | CF77 4.0 -Zp -Wd-e68 | 102 | 2171 | 3902 CRAY 2S/4-128 (4 proc. 4.1 ns) | CF77 5.0 -Zp -Wd-e68 | 129 | 1406 | 1951 CRAY 2S/4-128 (2 proc. 4.1 ns) | CF77 5.0 -Zp -Wd-e68 | 113 | 741 | 976 CRAY 2S/4-128 (1 proc. 4.1 ns) | CF77 5.0 -Zp -Wd-e68 | 107 | 384 | 488 CONVEX C-3880 (8 proc.) (16.7 n|fc7.0 -tm c38 -O3 -ep 8 | 86 | 795 | 960 CONVEX C-3840 (4 proc.) (16.7 ns) |fc7.0 -tm c38 -O3 -ep 4 -ds -is .| 75 | 425 | 480 CONVEX C-3830 (3 proc.) (16.7 ns) |fc7.0 -tm c38 -O3 -ep 3 -ds -is .| 71 | 327 | 360 CONVEX C-3820 (2 proc.) (16.7 ns) |fc7.0 -tm c38 -O3 -ep 2 -ds -is .| 62 | 222 | 240 CONVEX C-3810 (1 proc.) (16.7 ns)| fc7.0 -tm c38 -O2 -is .| 44 | 113 | 120 CONVEX C-3440 (4 proc.) |fc7.0 fc -O3 -ep 4 -ds -is .| 34 | 172 | 200 CONVEX C-3430 (3 proc.) |fc7.0 fc -O3 -ep 3 -ds -is .| 32 | 132 | 150 CONVEX C-3420 (2 proc.) |fc7.0 fc -O3 -ep 2 -ds -is .| 27 | 90 | 100 CONVEX C-3410 (1 proc.) |fc7.0 fc -O2 -is . | 19 | 47 | 50 CONVEX C-3240 (4 proc.) |fc -O3 -ep 2 -uo -pp=fcpp1 -is .| 26 | 171 | 200 CONVEX C-3230 (3 proc.) |fc -O3 -ep 2 -uo -pp=fcpp1 -is .| 26 | 132 | 150 CONVEX C-3220 (2 proc.) |fc -O3 -ep 2 -uo -pp=fcpp1 -is .| 22 | 89 | 100 CONVEX C-3210 (1 proc.) |fc -O2 -uo -pp=fcpp1 -is .| 17 | 44 | 50 CONVEX C-240 (4 proc.) | 6.1 -O3 -ep2 -uo -pp=fcpp1 -is .| 26 | 166 | 200 CONVEX C-230 (3 proc.) | 6.1 -O3 -ep2 -uo -pp=fcpp1 -is .| 26 | 128 | 150 CONVEX C-220 (2 proc.) | 6.1 -O3 -ep2 -uo -pp=fcpp1 -is .| 22 | 87 | 100 CONVEX C-210 (1 proc.) |6.1 -O2 -uo -pp=fcpp1 -is .| 17 | 44 | 50 CONVEX C-130 | Fortran 4.0 | 7.2 | 31 | 36 CONVEX C-120 | fc 5.1 | 6.5 | 17 | 20 CONVEX C-1/XP | Fortran 2.0 | 3.0 | | 20 CONVEX C-1/XL | Fortran 1.6 | 2.9 | | 20 CONCEPT 32/8750 | UTX/32 | .36 CONCEPT 32/6750 | UTX/32 | .12 CDC Cyber 2000V | Fortran V2 | 32 | | CDC CYBER 990E | FTN V2 VL=HIGH | 12 | | CDC CYBER 960-31 | NOS/VE 1.3.1 FTN 1.6 | 3.1 | | CDC CYBER 930-31 | NOS/VE 1.2.2 | .58 CDC CYBER 930-11 | NOS/VE OPT=High | .37 CDC CYBER 875 | FTN 5 opt=3 | 4.8 | | CDC CYBER 760 | FTN 5, opt=3 | 2.6 | | CDC CYBER 4680 | f77 2.11.2 o2 | 9.4 | | CDC CYBER 4360 | f77 2.11.2 o2 | 4.0 | | CDC CYBER 4340 | f77 2.11.2 o2 | 3.0 | | CDC CYBER 205 (4-pipe) | FTN | 17 | 195 | 400 CDC CYBER 205 (2-pipe) | FTN | 17 | 113 | 200 CDC CYBER 180-860 | NOS/VE OPT=HIGH | 2.1 | | CDC CYBER 180-850 | NOS/VE OPT=HIGH | 1.6 | | CDC CYBER 180-840 | NOS/VE OPT=HIGH | .99 | | CDC CYBER 180-830 | NOS/VE OPT=HIGH | .24 CDC CYBER 180-810 | NOS/VE OPT=HIGH | .17 CDC CYBER 176 | FTN 5.1 opt=2 | 4.6 | | CDC CYBER 175 | FTN 5 opt=2 | 2.1 | | CDC CYBER 175 | FTN 5 opt=1 | 1.8 | | CDC CYBER 170-835 | FTN 5 opt=2 | .47 CDC CYBER 170-835 | FTN 5 opt=1 | .44 CDC CYBER 170-825 | FTN 5, opt=2 | .19 CDC CYBER 170-825 | FTN 5, opt=1 | .18 CDC CYBER 170-750 | FTN 5.1, opt=3 | 1.6 | | CDC CYBER 170-720 | FTN 5, opt=2 | .20 CDC CYBER 170-720 | FTN 5, opt=1 | .17 CDC 7600 | Local | 2.0 | | CDC 7600 | FTN | 3.3 | | CDC 7600 | CHAT, No opt | 1.2 | | CDC 6600 | RUN | .36 CDC 6600 | FTN 4.6 opt=2 | .48 CDC 6500 | FUN | .12 CDC 4680InfoServer (60 MHz)|f77 2.20 -O3 -mips2 -Wb,-r6000| 11 | | CDC 4330-300 (33 MHz) | f77 2.20 -O3 | 5.1 | | CDC 4330 | f77 2.20 opt=02 | 3.5 | | CDC 4320 | f77 2.20 opt=02 | 3.7 | | CCI Power 6/32 w/fpa | UNIX 4.2 bsd f77 | .47 Burroughs B6800 | Fortran 77 ver 34 | .037 Atari ST | ABSOFT AC/Fortran v2.2 | .0051 Apple Macintosh SE 30 | Absoft -w -v -O -f -s | .14 Apple Macintosh QUADRA 950 |Absoft -w -v -O -f -s -N40| 2.0 | | Apple Macintosh PowerBook 170 | Absoft -w -v -O -f -s | .23 Apple Macintosh IIx | Absoft -w -v -O -f -s | .15 Apple Macintosh IIx | A/UX 2.0 f77 | .16 Apple Macintosh IIsi | Fortran | .12 Apple Macintosh IIsi | Absoft -w -v -O -f -s | .19 Apple Macintosh IIfx | A/UX 2.0 f77 | .41 Apple Macintosh IIcx | Absoft -w -v -O -f -s | .15 Apple Macintosh II | Absoft -w -v -O -f -s | .083 Apple Macintosh | ABSOFT 2.0b | .0038 Apple Mac/Levco Prodigy 4 | ABSOFT MacFort 020 | .076 Apple Mac SE/30 | ABSOFT 2.4 | .10 Apple Mac SE + 20 MHz 68881 | ABSOFT 2.4 | .082 Apple Mac Quadra 700 |Absoft -w -v -O -f -s -N40| 1.4 | | Apple Mac IIfx | Absoft -w -v -O -f -s | .37 Apple Mac II/16 Mhz/25 Mhz 68882|Absoft 2.4 -w -v -O -f -s| .12 Apple Mac II/16 Mhz/25 Mhz 68882| Absoft 2.4 | .087 Apple Mac II w/68020 | FORTRAN | .074 Apple Mac II | ABSOFT 2.4 | .0064 Apple Mac Classic II/16 MHz68030|Absoft 2.4 | .011 Apple MAC II w/882 | | .078 Apollo DN5xxT FPX | DOMAIN/IX SR9.7 opt 4 | .40 Apollo DN590 | DOMAIN/IX SR9.7 opt 4 | .099 Apollo DN550 FPA | AEGIS 8.0 FTN | .025 Apollo DN460/660 | AEGIS 8.0 FTN | .069 Apollo DN4000 | DOMAIN/IX SR9.7 opt 4 | .14 Apollo DN3500 | FTN -CPU 3000 -opt 4 | .25 Apollo DN320 | AEGIS 8.0 FTN | .028 Apollo DN3000 | DOMAIN/IX SR9.7 opt 4 | .071 Apollo DN300 | AEGIS 8.0 FTN | .0071 Apollo DN2500 | | .18 Apollo DN10000 | f77,10.7 | 5.8 | | Apollo DN 420 PEB | AEGIS 7+ FTN | .017 Ametek S14/32 (1 node) | RM Fortran 2.11 | .026 Amdahl 5860 HSFPF | VS opt=3 | 3.8 | | Amdahl 5860 HSFPF | H enhanced opt=3 | 3.9 | | Amdahl 500 | 77/VP V10L20 | 16 | 133 | 142 Amdahl 470 V/8 | VS opt=3 | 1.5 | | Amdahl 470 V/8 | H enhanced opt=3 | 1.6 | | Amdahl 470 V/6 | H opt=2 | 1.1 | | Amdahl 1400 | 77/VP V10L20 | 19 | 521 | 1142 Amdahl 1200 | 77/VP V10L20 | 19 | 424 | 571 Amdahl 1100 | 77/VP V10L20 | 17 | 248 | 285 Alliant FX/80 (8 proc.) | -O -DAS -inline | 10 | 69 | 188 Alliant FX/80 (7 proc.) | -O -DAS -inline | 9.5 | 63 | 165 Alliant FX/80 (5 proc.) | -O -DAS -inline | 8.1 | 49 | 118 Alliant FX/80 (4 proc.) | -O -DAS -inline | 7.2 | 33 | 94 Alliant FX/80 (3 proc.) | -O -DAS -inline | 5.9 | 32 | 71 Alliant FX/80 (2 proc.) | -O -DAS -inline | 4.4 | 22 | 47 Alliant FX/80 (1 proc.) | -O -DAS -inline | 2.4 | 12 | 24 Alliant FX/40 (4 proc.) | -O -DAS -inline | 6.7 | 33 | 94 Alliant FX/40 (3 proc.) | -O -DAS -inline | 5.6 | 27 | 71 Alliant FX/40 (2 proc.) | -O -DAS -inline | 4.3 | 19 | 47 Alliant FX/40 (1 proc.) | -O -DAS -inline | 2.4 | 10 | 24 Alliant FX/4 (4 proc.) | -O -DAS -inline | 6.4 | 21 | 47 Alliant FX/4 (3 proc.) | -O -DAS -inline | 5.1 | 17 | 35 Alliant FX/4 (2 proc.) | -O -DAS -inline | 3.8 | 12 | 24 Alliant FX/4 (1 proc.) | -O -DAS -inline | 2.1 | 6.3 | 12 Alliant FX/2800-200 (8 proc) |fortran 1.1.27 -O -inline | 25 | 207 | 320 Alliant FX/2800-200 (6 proc) |fortran 1.1.27 -O -inline | 21 | 148 | 240 Alliant FX/2800-200 (4 proc) |fortran 1.1.27 -O -inline | 17 | 94 | 160 Alliant FX/2800-200 (2 proc) |fortran 1.1.27 -O -inline | 10 | 53 | 80 Alliant FX/2800-200 (14 proc) |fortran 1.1.27 -O -inline | 31 | 325 | 560 Alliant FX/2800-200 (12 proc) |fortran 1.1.27 -O -inline | 29 | 290 | 480 Alliant FX/2800-200 (10 proc) |fortran 1.1.27 -O -inline | 27 | 250 | 400 Alliant FX/2800-200 (1 proc) |fortran 1.1.27 -O -inline | 6.4 | 28 | 40 Alliant FX/2800 210 (1 proc) |fortran 1.3.02 -Ovg -inline| 25 | 34 | 50 Acorn Cambridge | fortran | .039 ATT 3B20 FP | UNIX V 2.0/4 | .040 AMSTRAC 1512 8086/8087 9.54 MHz| MS-Fortran 4.0 -Ox -AH | .022 AIR 486/33 m-board, 256K cache | Lahey F77L3, v5.0 /nZ1 | 1.2 | | AIR 486/33 m-board, 256K cache | Lahey F77L3, v5.0 /Z1 | 1.4 | | % fsplit first then -il -pp=fcpp1 .