Re: add AVX2 support to simd.h
Nathan Bossart <nathandbossart@gmail.com>
From: Nathan Bossart <nathandbossart@gmail.com>
To: John Naylor <johncnaylorls@gmail.com>
Cc: Ants Aasma <ants@cybertec.at>, pgsql-hackers@postgresql.org
Date: 2024-03-21T17:09:44Z
Lists: pgsql-hackers
Commits
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API reference →
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Improve style of pg_lfind32().
- 7188a7806d20 17.0 landed
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Fix compiler warning for pg_lfind32().
- 1f42337be535 17.0 landed
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Micro-optimize pg_lfind32().
- 7644a7340c8a 17.0 landed
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Introduce helper SIMD functions for small byte arrays
- 9f225e992bed 17.0 cited
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Optimize xid/subxid searches in XidInMVCCSnapshot().
- 37a6e5df3713 16.0 cited
Attachments
On Thu, Mar 21, 2024 at 11:30:30AM +0700, John Naylor wrote: > I'm much happier about v5-0001. With a small tweak it would match what > I had in mind: > > + if (nelem < nelem_per_iteration) > + goto one_by_one; > > If this were "<=" then the for long arrays we could assume there is > always more than one block, and wouldn't need to check if any elements > remain -- first block, then a single loop and it's done. > > The loop could also then be a "do while" since it doesn't have to > check the exit condition up front. Good idea. That causes us to re-check all of the tail elements when the number of elements is evenly divisible by nelem_per_iteration, but that might be worth the trade-off. > Yes, that spike is weird, because it seems super-linear. However, the > more interesting question for me is: AVX2 isn't really buying much for > the numbers covered in this test. Between 32 and 48 elements, and > between 64 and 80, it's indistinguishable from SSE2. The jumps to the > next shelf are postponed, but the jumps are just as high. From earlier > system benchmarks, I recall it eventually wins out with hundreds of > elements, right? Is that still true? It does still eventually win, although not nearly to the same extent as before. I extended the benchmark a bit to show this. I wouldn't be devastated if we only got 0001 committed for v17, given these results. > Further, now that the algorithm is more SIMD-appropriate, I wonder > what doing 4 registers at a time is actually buying us for either SSE2 > or AVX2. It might just be a matter of scale, but that would be good to > understand. I'll follow up with these numbers shortly. -- Nathan Bossart Amazon Web Services: https://aws.amazon.com