* Refactor iqk: WIP
* Refactor iqk: Factor out float GEMM (AVX2/AVX512)
* Refactor iqk: Factor out GEMM for legacy quants (AVX2/AVX512)
* Refactor iqk: Factor out GEMM for k-quants (AVX2/AVX512)
* Refactor iqk: fix AVX2
* Refactor iqk: Factor out GEMM for i-quants (AVX2/AVX512)
* Refactor iqk: fix AVX2
* Refactor iqk: Factor out GEMM for iqk-quants (AVX2/AVX512)
* Refactor iqk: fix AVX2
* Refactor iqk: Factor out GEMM for 1-bit quants (ABX2/AVX512)
* Refactor iqk: fix AVX2
* Refactor iqk: Factor out GEMM for iq1_bn, iq2_bn, iq2_bn_r4
* Refactor iqk: Factor out GEMM for repacked legacy quants
* Refactor iqk: Factor out GEMM for q8_K_R8, q8_KV
* Refactor iqk: Factor out GEMM for repacked i-quants
* Refactor iqk: GEMM kernels are refactored on AVX2/AVX512
* Refactor iqk: factor out 1-bit quants (NEON)
* Refactor iqk: factor out k-quants (NEON)
* Refactor iqk: factor out floats (NEON)
* Also iq4_xs belongs to k-quants
* Refactor iqk: factor out iqk quants (NEON)
* Refactor iqk: factor out legacy quants (NEON)
* Refactor iqk: factor out repacked legacy quants (NEON)
* Refactor iqk: factor out repacked k-quants (NEON)
* Refactor iqk: factor out repacked iqk quants (NEON)
* Refactor iqk: GEMM kernels are refactored on NEON
* Refactor iqk: FA compiles
If it works is a different story.
Current compile time: 107.3 sesonds on the Ryzen-7950X
* Refactor iqk: FA refactored (Zen4)
Compile time for the FA files is now ~21 seconds on my
Ryzen-7950X, so still slightly too long for my taste
but much better than the 142 seconds we had before.
* Adding forgotten file
* Most helpers don't need to be templates
Also hide Q4_0 and Q8_KV behind IQK_FA_ALL_QUANTS.
Compilation time drops to 14 second on the Ryzen-5975WX
* Fix bf16
* Refactor iqk: FA refactored (NEON)
* Forgotten MMQ ref and typo (#431)
* Adding forgotten iq5_k_r4
* Fix iq4_k_r4 on NEON
* Fix iq4_ks on NEON
It was broken before the refactoring (the shifts were not correctly
applied).
* Fix q8_0 on NEON
* Fix q6_0 K cache
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
Co-authored-by: Nexes the Elder <124105151+Nexesenex@users.noreply.github.com>
* iq5_ks: basics
* iq5_ks: quantize
* iq5_ks: CUDA dequantize works
* iq5_ks: dot product works on CUDA
* iq5_ks: MMQ works
* iq5_ks: Zen4
* iq5_ks: AVX2
But is is not quite right, just like iq4_k, iq5_k, iq6_k, iq4_ks.
All these need fixing on AVX2.
* iq5_ks: NEON
* iq5_ks: Metal dequantize
* iq5_ks: Metal dot product
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* MMQ for iq4_k: WIP (not working)
* MMQ for iq4_k: working now
* MMQ for iq5_k
* Cleanup
* MMQ for iq5_k: slightly faster
* MMQ for iq6_k
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* New DeepSeek FlashMLA
Does not work because the RoPE portion is stored at the end
in our case, while in mainline it is stored at the beginning,
and the FA kernel assumes that.
* Rearrange MLA K cache so it first new CUDA FA implementation
* constexpr and minor changes
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* cuda: Remove unnecessary device to host copy of row ids
We get 3-4% TG speed improvement for DeepSeek-Lite just from that.
* CPU: fix get_rows when SER is used
With smart experts reduction (SER), one potentially uses fewer
experts than specified by the model. This is accomplished by setting
the ID of the not seected tensors to -1. Most of the necessary
stuff was implemented when I added the SER option, but I forgot
to update get_rows() for not quantized tensors. As a result, we
get random garbage for the weights of the not-selected epxerts,
which leads to garbage output. This commit fixes it on the CPU.
I'm not quite sure yet why the GPU is not working.
* CUDA: fix TG with SER
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* CUDA WIP: support for FlashMLA-3
* Much better
The issue was that I did not change the number of warps
used for 3D matrix multiplications (wk_b * kv_cache, MoE),
so we ended up using 4 warps for TG. By going to 1 warp
in these cases, we get a significant boost in TG performance
(tested with DeepSeek-Lite)
* Sadly, the previous commit was wrong
* Finalizing
* Also add these
* Minor
* Minor tweak
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* WIP
* WIP: still getting illegal memory access
* CUDA: MMQ for iq4_ks now works
~25% faster than dequantize+cuBLAS, ~10% slower than Q4_0 MMQ.
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* FA: provide work buffer for K repacking
* Add header to avoid comp0iler warnings
* WIP
* WIP
* WIP
* WIP
* Slightly better
* WIP (Zen4)
* WIP
* Try to improve for unusual number of heads/number of threads
* Use mul_mat_qX_0_q8_2_Tx for q6_0 in FA
* Use mul_mat_qX_0_q8_2_Tx for q4_0 in FA
* Use Sum4q4 for q4_0
* WIP
* WIP
* Much better FA TG with q8_0 KV cache
Just repack it even for TG. But do the repacking for k_step rows,
not the whole K tensor.
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* Slightly better CPU TG performance for GQA
* Better CPU FA implementation for TG when GQA
* Minor
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
* Metal: WIP to update Metal FA implementation
Dk=192, Dv=128 works, but not Dk = 576, Dv = 512
* Metal FA: go to float
* WIP
* Metal FA: MLA options now all work
---------
Co-authored-by: Iwan Kawrakow <iwan.kawrakow@gmail.com>
