I have done a similar test on a Linux 64bit machine using
strace -C -tt to have an idea of where SQLite3 is taking time.
% time seconds usecs/call calls errors syscall
------ ----------- ----------- --------- --------- ----------------
99.03 0.004000 32 124 fsync
0.64 0.000026 0 222 mprotect
0.32 0.000013 0 216 munmap
The obvious delay is in the
fsync function, which is:
- depends on general disk I/O (check out
- heavily depends on IOSS (therefore, the file system and disk allocation - you might get one value on ext3, a different one on xfs, and a third one on btrfs)
- depends of course, indirectly, on underlying hardware and its quirks or tunings.
By turning syncing off, my SQLite3 performance increases by a factor of around three thousand:
$db = new PDO('sqlite:test.db');
$db->exec("pragma synchronous = off;");
I too have two different values on two very similar machines (one has ext4, the other XFS, but I'm not positive this is the main reason - their load profiles are also different).
By the way, using prepared statements just about doubles the execution speed at the fastest level (from 45k to 110k INSERTs, in batches of 3000 since at that speed 30 INSERTs are bound to give spurious timings), and raises the lowest speed from about 6 to about 150.
So this (using prepared statements) might be a good solution to improve repeated operations without touching file synchronization, i.e., while still being demonstrably sure that data risk level remains the same. After that I'd try transactions or fsync (maybe even memory journaling) depending on the risk and worth of a data outage.
When designing a system from the ground up, some tests on different FS's are surely advisable.
Tests on different file systems (same machine)
ext4 (acl,user_xattr,data=order) 5.5 queries/s
using transactions 170 queries/s
disabling fsync 16000 queries/s
using transactions and disabling fsync 47200 queries/s
On a temporary file system,
fsync is cheap, so turning it off yields little benefit. Most of the time is spent guarding, so transactions are key.
tmpfs 13700 queries/s
disabling fsync 15350 queries/s
enabling transactions 47900 queries/s
using transactions and disabling fsync 48200 queries/s
Of course, proper data organization and indexing has to be taken into account and, for large data sets, might well turn out to be more important.