CFP2000 Result Copyright © 1999-2004 Standard Performance Evaluation Corporation |
Hewlett-Packard Company hp AlphaServer GS160 68/1224 |
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SPEC license # 2 | Tested by: HP | Test date: Sep-2002 | Hardware Avail: Aug-2002 | Software Avail: Nov-2002 |
SPEC has determined that this result was not in compliance with the SPEC CPU2000 run and reporting rules. Specifically, the submitter has reported that the 3 month availability requirement in the SPEC CPU2000 run rules will not be met due to a change in availablility date for the operating system. |
Benchmark | Reference Time |
Base Runtime |
Base Ratio |
Runtime | Ratio | |
---|---|---|---|---|---|---|
168.wupwise | 1600 | NC | NC | NC | NC | |
171.swim | 3100 | NC | NC | NC | NC | |
172.mgrid | 1800 | NC | NC | NC | NC | |
173.applu | 2100 | NC | NC | NC | NC | |
177.mesa | 1400 | NC | NC | NC | NC | |
178.galgel | 2900 | NC | NC | NC | NC | |
179.art | 2600 | NC | NC | NC | NC | |
183.equake | 1300 | NC | NC | NC | NC | |
187.facerec | 1900 | NC | NC | NC | NC | |
188.ammp | 2200 | NC | NC | NC | NC | |
189.lucas | 2000 | NC | NC | NC | NC | |
191.fma3d | 2100 | NC | NC | NC | NC | |
200.sixtrack | 1100 | NC | NC | NC | NC | |
301.apsi | 2600 | NC | NC | NC | NC | |
SPECfp_base2000 | NC | |||||
SPECfp2000 | NC |
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Notes / Tuning Information |
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Baseline C: cc -arch ev6 -fast -O4 ONESTEP Fortran: f90 -arch ev6 -fast -O5 ONESTEP Peak: All use -arch ev6 -non_shared ONESTEP (except applu and ammp) Individual benchmark tuning: 168.wupwise: kf77 -call_shared -inline all -tune ev67 -unroll 12 -automatic -align commons -arch ev67 -fkapargs=' -aggressive=c -fuse -fuselevel=1 -so=2 -r=1 -o=1 -interleave -ur=6 -ur2=060 ' +PFB 171.swim: same as base 172.mgrid: kf90 -call_shared -arch generic -O5 -inline manual -nopipeline -unroll 9 -automatic -transform_loops -fkapargs='-aggressive=a -fuse -interleave -ur=2 -ur3=5 -cachesize=128,16000 ' +PFB 173.applu: kf90 -O5 -transform_loops -fkapargs=' -o=0 -nointerleave -ur=14 -ur2=260 -ur3=18' +PFB 177.mesa: kcc -fast -O4 +CFB +IFB 178.galgel: f90 -O5 -fast -unroll 5 -automatic 179.art: kcc -assume whole_program -ldensemalloc -call_shared -assume restricted_pointers -unroll 16 -inline none -ckapargs=' -fuse -fuselevel=1 -ur=3' +PFB 183.equake: cc -call_shared -arch generic -fast -O4 -ldensemalloc -assume restricted_pointers -inline speed -unroll 13 -xtaso_short +PFB 187.facerec: f90 -O4 -nopipeline -inline all -non_shared -speculate all -unroll 7 -automatic -assume accuracy_sensitive -math_library fast +IFB 188.ammp: cc -arch host -O4 -ifo -assume nomath_errno -assume trusted_short_alignment -fp_reorder -readonly_strings -ldensemalloc -xtaso_short -assume restricted_pointers -unroll 9 -inline speed +CFB +IFB +PFB 189.lucas: kf90 -O5 -fkapargs='-ur=1' +PFB 191.fma3d: kf90 -O4 -transform_loops -fkapargs='-cachesize=128,16000' +PFB 200.sixtrack: f90 -fast -O5 -assume accuracy_sensitive -notransform_loops +PFB 301.apsi: kf90 -O5 -inline none -call_shared -speculate all -align commons -fkapargs=' -aggressive=ab -tune=ev5 -fuse -ur=1 -ur2=60 -ur3=20 -cachesize=128,16000' Most benchmarks are built using one or more types of profile-driven feedback. The types used are designated by abbreviations in the notes: +CFB: Code generation is optimized by the compiler, using feedback from a training run. These commands are done before the first compile (in phase "fdo_pre0"): mkdir /tmp/pp rm -f /tmp/pp/${baseexe}* and these flags are added to the first and second compiles: PASS1_CFLAGS = -prof_gen_noopt -prof_dir /tmp/pp PASS2_CFLAGS = -prof_use -prof_dir /tmp/pp (Peak builds use /tmp/pp above; base builds use /tmp/pb.) +IFB: Icache usage is improved by the post-link-time optimizer Spike, using feedback from a training run. These commands are used (in phase "fdo_postN"): mv ${baseexe} oldexe spike oldexe -feedback oldexe -o ${baseexe} +PFB: Prefetches are improved by the post-link-time optimizer Spike, using feedback from a training run. These commands are used (in phase "fdo_post_makeN"): rm -f *Counts* mv ${baseexe} oldexe pixie -stats dstride oldexe 1>pixie.out 2>pixie.err mv oldexe.pixie ${baseexe} A training run is carried out (in phase "fdo_runN"), and then this command (in phase "fdo_postN"): spike oldexe -fb oldexe -stride_prefetch -o ${baseexe} When Spike is used for both Icache and Prefetch improvements, only one spike command is actually issued, with the Icache options followed by the Prefetch options. vm: vm_bigpg_enabled = 1 vm_bigpg_thresh=16 vm_swap_eager = 0 proc: max_per_proc_address_space = 0x40000000000 max_per_proc_data_size = 0x40000000000 max_per_proc_stack_size = 0x40000000000 max_proc_per_user = 2048 max_threads_per_user = 0 maxusers = 16384 per_proc_address_space = 0x40000000000 per_proc_data_size = 0x40000000000 per_proc_stack_size = 0x40000000000 Portability: galgel: -fixed submit = runon cpu System is single QBB (4-cpu) with only 1 cpu enabled at console Submitted_by: "Craig, Steve" |
First published at SPEC.org on 24-Sep-2002
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