SPEC Seal of Reviewal CFP2000 Result
Copyright © 1999-2004 Standard Performance Evaluation Corporation
Hewlett-Packard Company
AlphaServer ES80 7/1000
SPECfp2000 = 1288     
SPECfp_base2000 = 975    
SPEC license # 2 Tested by: HP Test date: Dec-2002 Hardware Avail: Jan-2003 Software Avail: Jan-2003
Benchmark Reference
Time
Base
Runtime
Base
Ratio
Runtime Ratio Graph Scale
168.wupwise 1600 210    760     86.7  1846      168.wupwise base result bar (760)
168.wupwise peak result bar (1846)
171.swim 3100 99.1  3130      99.1  3130      171.swim base result bar (3130)
171.swim peak result bar (3130)
172.mgrid 1800 293    614     192    938     172.mgrid base result bar (614)
172.mgrid peak result bar (938)
173.applu 2100 159    1318      156    1345      173.applu base result bar (1318)
173.applu peak result bar (1345)
177.mesa 1400 173    808     145    965     177.mesa base result bar (808)
177.mesa peak result bar (965)
178.galgel 2900 158    1830      157    1851      178.galgel base result bar (1830)
178.galgel peak result bar (1851)
179.art 2600 149    1741      92.4  2814      179.art base result bar (1741)
179.art peak result bar (2814)
183.equake 1300 290    449     94.2  1381      183.equake base result bar (449)
183.equake peak result bar (1381)
187.facerec 1900 198    961     178    1069      187.facerec base result bar (961)
187.facerec peak result bar (1069)
188.ammp 2200 345    638     299    735     188.ammp base result bar (638)
188.ammp peak result bar (735)
189.lucas 2000 150    1331      138    1453      189.lucas base result bar (1331)
189.lucas peak result bar (1453)
191.fma3d 2100 238    883     177    1186      191.fma3d base result bar (883)
191.fma3d peak result bar (1186)
200.sixtrack 1100 272    404     252    437     200.sixtrack base result bar (404)
200.sixtrack peak result bar (437)
301.apsi 2600 241    1078      225    1158      301.apsi base result bar (1078)
301.apsi peak result bar (1158)
SPECfp_base2000 975      
  SPECfp2000 1288       

Hardware
Hardware Vendor: Hewlett-Packard Company
Model Name: AlphaServer ES80 7/1000
CPU: Alpha 21364
CPU MHz: 1000
FPU: Integrated
CPU(s) enabled: 1 core, 1 chip, 1 core/chip
CPU(s) orderable: 2 to 8
Parallel: No
Primary Cache: 64KB(I)+64KB(D) on chip
Secondary Cache: 1.75MB on chip per CPU
L3 Cache: None
Other Cache: None
Memory: 4GB
Disk Subsystem: 36GB SCSI
Other Hardware: None
Software
Operating System: Tru64 UNIX V5.1B (Rev. 2650)
+IPK
Compiler: Compaq C V6.5-011-48C5K
Spike V5.2 (506A)
Compaq Fortran V5.5-2602-48C8L
Compaq Fortran 77 V5.5-2602-48C8L
KAP Fortran V4.3 k3105171 000607
KAP Fortran 77 V4.1 k310440 980926
KAP C V4.1 k010726 000607
File System: ufs
System State: Multi-user
Notes / Tuning Information
 Baseline   C: cc  -arch ev7 -fast -O4 ONESTEP 
      Fortran: f90 -arch ev7 -fast -O5 ONESTEP 

 
 Peak:
   All use -arch ev7 -non_shared ONESTEP 
   except these (which use only the tunings shown below):
        173.applu 188.ammp 191.fma3d

   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 -transform_loops -unroll 9 -automatic
                 -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 -arch ev6 -non_shared -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

 Information on UNIX V5.1B Patches can be found at
 http://ftp1.service.digital.com/public/unix/v5.1b/

 In the ES80, there are two cpus per shelf.  Each cpu has
 its own 4GB of memory.  Neither of the cpus can be 
 physically removed.  For 1 cpu results measured on a 2 cpu
 system, one cpu was turned off at boot time using the
 /etc/sysconfigtab setting "cpu_enabled_mask=0".  The cpu's
 4GB of memory was also physically removed.


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Copyright © 1999-2004 Standard Performance Evaluation Corporation
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