These timing results are from running the regression test with the commands
% cd src/test/regress % make all % time make runtest
Timing under Linux 2.0.27 seems to have a roughly 5% variation from run to run, presumably due to the scheduling vagaries of multitasking systems.
As has been the case for previous releases, timing between releases is not directly comparable since new regression tests have been added. In general, 6.5 is faster than previous releases.
Timing with fsync() disabled:
Time System 02:00 Dual Pentium Pro 180, 224MB, UW-SCSI, Linux 2.0.36, gcc 2.7.2.3 -O2 -m486 04:38 Sparc Ultra 1 143MHz, 64MB, Solaris 2.6
Timing with fsync() enabled:
Time System 04:21 Dual Pentium Pro 180, 224MB, UW-SCSI, Linux 2.0.36, gcc 2.7.2.3 -O2 -m486For the linux system above, using UW-SCSI disks rather than (older) IDE disks leads to a 50% improvement in speed on the regression test.
The times for this release are not directly comparable to those for previous releases since some additional regression tests have been included. In general, however, 6.4 should be slightly faster than the previous release (thanks, Bruce!).
Time System 02:26 Dual Pentium Pro 180, 96MB, UW-SCSI, Linux 2.0.30, gcc 2.7.2.1 -O2 -m486
The times for this release are not directly comparable to those for previous releases since some additional regression tests have been included and some obsolete tests involving time travel have been removed. In general, however, 6.3 is substantially faster than previous releases (thanks, Bruce!).
Time System 02:30 Dual Pentium Pro 180, 96MB, UW-SCSI, Linux 2.0.30, gcc 2.7.2.1 -O2 -m486 04:12 Dual Pentium Pro 180, 96MB, EIDE, Linux 2.0.30, gcc 2.7.2.1 -O2 -m486
Time System 06:12 Pentium Pro 180, 32MB, EIDE, Linux 2.0.30, gcc 2.7.2 -O2 -m486 12:06 P-100, 48MB, Linux 2.0.29, gcc 39:58 Sparc IPC 32MB, Solaris 2.5, gcc 2.7.2.1 -O -g