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| author | Kawrakow <iwankawrakow@gmail.com> | 2025-01-27 16:50:07 +0200 |
|---|---|---|
| committer | GitHub <noreply@github.com> | 2025-01-27 16:50:07 +0200 |
| commit | d9c4ea48d1e41d8f7215ff1c094d75e7229b65e2 (patch) | |
| tree | ef32b816f715ae7217da01217e506c7ed31b537e /examples/json_schema_to_grammar.py | |
| parent | 814d3e054cc5ac483ddb9933aa13ba385e979b68 (diff) | |
Interleave 8 rows (Q8_0, IQ4_XS) (#178)
* Try interleaving 8 rows for iq4_xs
On Zen4, PP-512 goes up from ~260 t/s to 288 t/s for L3-8B.
TG-128 reaches max. performance at 2 threads and is slightly
higher than 4 interleaved rows (14.48 t/s vs 13.11 t/s @ 2 threads
and 14/28 t/s @ 4 threads).
* Try interleaving 8 iq4_xs rows
It is also faster on AVX2.
This is the NEON implementation. It is tiny bit faster than
4 interleaved rows (~0.5%).
So, this looks like a winner given the Zen4/AVX2 improvement
without associated NEON egression.
* Cleanup
* 8-rows interleaved q8_0 (AVX2)
* 8-rows interleaved q8_0 (Zen4)
* 8-rows interleaved q8_0 (Zen4) - slightly better
PP-512 is now 284 t/s compared to 257 t/s for 4-rows interleaved.
TG-128 reaches peak of 8.16 t/s at just 2 threads compared
to 7.95 t/s @ 4 threads before.
* 8-rows interleaved q8_0 (NEON)
PP-512 is slightly better (138 t/s vs 132.5 t/s), TG-128 is about the
same.
* FA: repack Q8_0 to Q8_0_R8
* Remove special purpose mul_mat_q8_0_r4_q8_1_128 (Zen4)
* FA: repack Q8_0 to Q8_0_R8 (NEON)
Very slightly faster than the general purpose gemm, slightly
slower than the D = 128 special case gemm mul_mat_q8_0_r4_q8_0_128.
Still removing mul_mat_q8_0_r4_q8_0_128 as we simply don't have
enough vector registers to hold 8 interleaved rows, so there is
no point to have the special purpose implementation.
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
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