SPEC CINT2000 Summary IBM Corporation IBM System p5 575 (1900 Mhz, 1 CPU, SLES) Thu Oct 5 20:54:41 2006 SPEC License #11 Test date: Oct-2006 Hardware availability: Feb-2006 Tester: IBM Austin Software availability: Dec-2006 Base Base Base Peak Peak Peak Benchmarks Ref Time Run Time Ratio Ref Time Run Time Ratio ------------ -------- -------- -------- -------- -------- -------- 164.gzip 1400 155 901 1400 155 901 164.gzip 1400 155 902 1400 155 902 164.gzip 1400 155 902* 1400 155 902* 175.vpr 1400 104 1351 1400 104 1351 175.vpr 1400 104 1350 1400 104 1350 175.vpr 1400 104 1351* 1400 104 1351* 176.gcc 1100 68.2 1612 1100 68.2 1612 176.gcc 1100 68.4 1609* 1100 68.4 1609* 176.gcc 1100 68.6 1604 1100 68.6 1604 181.mcf 1800 54.2 3323* 1800 54.2 3323* 181.mcf 1800 54.4 3311 1800 54.4 3311 181.mcf 1800 53.9 3338 1800 53.9 3338 186.crafty 1000 85.8 1166 1000 69.2 1446* 186.crafty 1000 85.7 1167* 1000 69.2 1444 186.crafty 1000 85.5 1169 1000 69.1 1446 197.parser 1800 171 1054 1800 153 1179 197.parser 1800 170 1056 1800 155 1160 197.parser 1800 170 1056* 1800 153 1177* 252.eon 1300 88.2 1475 1300 86.2 1508 252.eon 1300 87.8 1481 1300 85.6 1519 252.eon 1300 88.1 1476* 1300 85.8 1515* 253.perlbmk 1800 193 935* 1800 172 1045 253.perlbmk 1800 192 937 1800 172 1044* 253.perlbmk 1800 193 934 1800 173 1043 254.gap 1100 84.0 1310 1100 84.0 1310 254.gap 1100 84.0 1309* 1100 84.0 1309* 254.gap 1100 84.1 1307 1100 84.1 1307 255.vortex 1900 77.3 2457* 1900 77.3 2457* 255.vortex 1900 77.2 2460 1900 77.2 2460 255.vortex 1900 77.3 2457 1900 77.3 2457 256.bzip2 1500 110 1369 1500 110 1369 256.bzip2 1500 110 1367 1500 110 1367 256.bzip2 1500 110 1369* 1500 110 1369* 300.twolf 3000 177 1692 3000 177 1692 300.twolf 3000 177 1692* 3000 177 1692* 300.twolf 3000 177 1690 3000 177 1690 ======================================================================== 164.gzip 1400 155 902* 1400 155 902* 175.vpr 1400 104 1351* 1400 104 1351* 176.gcc 1100 68.4 1609* 1100 68.4 1609* 181.mcf 1800 54.2 3323* 1800 54.2 3323* 186.crafty 1000 85.7 1167* 1000 69.2 1446* 197.parser 1800 170 1056* 1800 153 1177* 252.eon 1300 88.1 1476* 1300 85.8 1515* 253.perlbmk 1800 193 935* 1800 172 1044* 254.gap 1100 84.0 1309* 1100 84.0 1309* 255.vortex 1900 77.3 2457* 1900 77.3 2457* 256.bzip2 1500 110 1369* 1500 110 1369* 300.twolf 3000 177 1692* 3000 177 1692* SPECint_base2000 1445 SPECint2000 1501 HARDWARE -------- Hardware Vendor: IBM Corporation Model Name: IBM System p5 575 (1900 Mhz, 1 CPU, SLES) CPU: POWER5+ CPU MHz: 1900 FPU: Integrated CPU(s) enabled: 1 core, 1 chip, 2 cores/chip (SMT off) CPU(s) orderable: 8,16 core Parallel: No Primary Cache: 64 KB I + 32 KB D on chip per core Secondary Cache: 1920 KB I+D on chip per chip L3 Cache: 36 MB unified off chip per chip Other Cache: None Memory: 64 GB (32x2GB) Disk Subsystem: 1x73GB SCSI, 15K RPM Other Hardware: SOFTWARE -------- Operating System: SLES SUSE Linux Enterprise Server 10 (ppc) VERSION = 10 w/2.6.16.21-0.8-ppc64 Linux kernel Compiler: IBM XL C/C++ Advanced Edition V8.0.1 for Linux File System: reiserfs System State: Multi-User NOTES ----- +FDO Feedback directed optimization enabled by: PASS1=-qpdf1 PASS2=-qpdf2 Integer suite C: invoked as cc C++: invoked as xlC Integer Portability Flags: 176.gcc: -DHOST_WORDS_BIG_ENDIAN 186.crafty: -DLINUX_PPC32 252.eon: -DHAS_ERRLIST 253.perlbmk: -DSPEC_CPU2000_LINUX_PPC32 -DSPEC_CPU2000_NEED_BOOL 254.gap: -DSYS_IS_USG -DSYS_HAS_IOCTL_PROTO -DSYS_HAS_CALLOC_PROTO 300.twolf: -DHAVE_SIGNED_CHAR Additional Peak Portability Flags: 252.eon: -DSPEC_CPU2000_LP64 (for 64-bit compilation) 253.perlbmk: -DSPEC_CPU2000_LP64 (for 64-bit compilation) Integer Base Optimization Flags: C: +FDO -O5 C++: +FDO -O5 Integer Peak Optimization Flags 164.gzip basepeak=1 175.vpr basepeak=1 176.gcc basepeak=1 181.mcf basepeak=1 186.crafty +FDO -O4 -qarch=pwr4 -qtune=pwr4 -q64 197.parser +FDO -O5 -qstaticlink 252.eon +FDO -O5 -q64 253.perlbmk: +FDO -O5 -q64 254.gap basepeak=1 255.vortex basepeak=1 256.bzip2 basepeak=1 300.twolf basepeak=1 System Settings: -- ulimit stack size set to unlimited SMT: Acronym for 'Simultaneous Multi-Threading'. A processor technology that allows the simultaneous execution of multiple thread contexts within a single processor core. SMT is enabled by default. Large pages reserved as follows by root user: echo 30 > /proc/sys/vm/nr_hugepages System configured with libhugetlbfs library for application access to large pages Environment variables set as follows: export HUGETLB_MORECORE=yes export LD_PRELOAD=libhugetlbfs.so (export LD_PRELOAD=libhugetlbfs.so not used for --action build.) Linux booted with the options: maxcpus=1 smt-enabled=off Each process was bound to a cpu using submit= with the taskset command submit = taskset -p -c \$SPECUSERNUM \$\$ >/dev/null ; $command ----------------------------------------------------------------------------- For questions about this result, please contact the tester. For other inquiries, please contact webmaster@spec.org. Copyright 1999-2005 Standard Performance Evaluation Corporation Generated on Tue Oct 31 14:17:49 2006 by SPEC CPU2000 ASCII formatter v2.1