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RAID, performance tests

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Gmirror Disk Performance

Click for raw data and test equipment information

Gmirror, unfortunately, is not doing very well at this time - at least not on the amd64 platform tested. A 2-drive gmirror performed grossly poorer than even a single baseline drive, with 3-drive and 5-drive gmirrors outperforming the baseline 250GB drive tested but being handily beaten by both the 500GB baseline drive and the Nvidia onboard RAID1 implementation - though it is interesting to note that the Nvidia onboard RAID1 implementation does not accelerate single-process copies, and suffers from a very significant variation in how it handles simultaneous processes - in the 5-process simultaneous copy, a full 38 seconds elapsed between the finish of the first process and the fifth.


Graid3 Disk Performance

Click for raw data and test equipment information

Graid3 is doing noticeably better than Gmirror. The 5-drive Graid3 implementation handily outperformed everything else tested, and while the 3-drive Graid3 implementation performed slightly slower than the Nvidia RAID1 in the 2-process and 3-process tests and significantly slower in the 4-process and 5-process tests, it's worth noting that it nearly doubled the Nvidia RAID1's single-process performance due to Nvidia's interesting failure to accelerate single-process copying at all.


Equipment

FreeBSD 6.2-RELEASE (amd64) Athlon X2 5000+ 2GB DDR2 SDRAM Nvidia nForce onboard RAID controller, Promise TX2300 RAID controller 3x Western Digital 250GB drives (WDC WD2500JS-22NCB1 10.02E02 SATA-300) 2x Western Digital 500GB drives (WDC WD5000AAKS-00YGA0 12.01C02)

Methodology

The read-ahead cache was changed from the default value of 8 to 128 for all tests performed, using sysctl -w vfs.read_max=128. Initial testing showed that dramatic performance increases occurred for all tested configurations, including baseline single-drive, with increases of vfs.read_max. The value of 128 was arrived at by continuing to double vfs.read_max until no further significant performance increase was to be seen (at vfs.read_max=256) and backing down to the last value tried.

For the actual testing, 5 individual 3200MB files were created on each tested device or array using dd if=/dev/random bs=16m count=200 as random1.bin - random5.bin. These files were then copied from the device or array to /dev/null. Elapsed times were generated by echoing a timestamp immediately before beginning all cp processes and immediately at the end of each individual process, and subtracting the beginning timestamp from the last completed timestamp. Speeds shown are simply the amount of data in MB copied to /dev/null (3200, 6400, 9600, 12800, or 16000) divided by the total elapsed time.

Notes

In the 5-drive Graid3 array tested, the (significantly faster) 500GB drives were positioned as the last two elements of the array. This is significant particularly because this means the parity drive was noticeably faster than 3 of the 4 data drives in this configuration; some other testing on equipment not listed here leads me to believe that this had a favorable impact when using the -r argument (use parity drive also on read operations) - though, significantly, not enough of an improvement to make the -r results worth including on the graph.

Write performance was also tested on each of the devices and arrays listed and will be included in graphs at a later date (for now, raw data is available in the discussion page).

Googling "gmirror performance" and "gmirror slow" did not get me much of a return; just one other individual wondering why his gmirror was so abominably slow - so at some point I will endeavor to reformat the test system with 6.2-RELEASE (i386) and see if the gmirror results improve. It strikes me as very odd that graid3 with only 3 drives (therefore only 2 data drives) outperforms even a five-drive gmirror implementation.

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