9115c2c52c
The gated-DeltaNet + SSM_CONV ops have upstream Metal/Vulkan/SYCL kernels, so the Qwen3.6 hybrids run there (non-fused) - the earlier 'no Vulkan kernel' note was wrong. The patchset's fusions are gated off off-CUDA, so the backend ships CUDA-only; non-CUDA users use stock llama-cpp. Assisted-by: Claude:opus-4.8 [Claude Code] Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
llama.cpp patch series — paged attention (vLLM-parity engine)
A stacking series: each patch is a small, self-contained, independently-buildable step toward an
in-model paged-attention engine. They apply in numeric order on top of the pinned LLAMA_VERSION
(backend/cpp/llama-cpp/Makefile). The build applies them automatically after checkout (see the
llama.cpp: target). Keeping the work as ordered patches — rather than one big diff — is what lets us
rebase cleanly across llama.cpp bumps and avoid drift: when a patch stops applying, only that small
patch needs fixing, and the failure points at exactly which step the upstream change touched.
Base
LLAMA_VERSIONpin in../Makefile. All patches are generated against that exact commit. Bumping the pin = re-run the regen workflow below and fix only the patches that no longer apply.
The series (phases → patches)
| # | Patch | What | Verifies |
|---|---|---|---|
| 0001 | 0001-vendor-paged-kv-manager.patch |
Add src/paged-kv-manager.{h,cpp} (vLLM-parity block manager, CPU foundation) + CMake; no behavior change |
builds; unit-tested separately |
| 0002 | 0002-paged-kv-storage.patch |
Shared block-pool KV tensor + set_rows-by-slot writes, behind LLAMA_KV_PAGED |
builds; write/gather round-trip |
| 0003 | 0003-paged-gather-read.patch |
build_attn_paged gather-read in llama-graph.cpp |
Gate 0: token-identical greedy gen, single + multi-seq |
| 0004 | 0004-paged-ondemand-alloc.patch |
On-demand block allocation via PagedKVManager | max concurrent seqs before OOM |
| 0005 | 0005-paged-continuous-batching.patch |
Block-granular admit/evict in the server slot path | tok/s vs concurrency, mixed-length |
| 0006 | 0006-paged-prefix-caching.patch |
Block-hash cross-request prefix dedup | TTFT + memory on shared prefixes |
Each row is a separate git commit on the dev branch (below), exported 1:1 as a patch. Default off
(LLAMA_KV_PAGED) until Gate 0 (0003) is green, so partial series never changes stock behavior.
Regen workflow (the anti-drift recipe)
# 1. check out the exact pin into a dev tree
git -C /tmp clone https://github.com/ggml-org/llama.cpp llama-dev && cd /tmp/llama-dev
git checkout <LLAMA_VERSION from ../Makefile>
git checkout -b paged
# 2. apply the current series (each becomes a commit), or develop the next patch
git am /path/to/backend/cpp/llama-cpp-localai-paged/patches/paged/00*.patch # or `git apply` + commit per patch
# 3. iterate a phase as ONE commit, then export the whole series 1:1
git format-patch <LLAMA_VERSION>..paged -o /path/to/backend/cpp/llama-cpp-localai-paged/patches/paged/ --zero-commit -N
# 4. on a pin bump: rebase `paged` onto the new pin; only conflicting patches need edits; re-export.
Build integration
The series is owned by this backend (backend/cpp/llama-cpp-localai-paged), not by the stock
llama-cpp backend, which is pure upstream. ../Makefile (the paged wrapper) clones the pinned
llama.cpp via the copied stock build infra, then applies this series onto the cloned tree with the
same strict git apply the stock build uses for base patches:
for p in $(PAGED_PATCHES_DIR)/0*.patch; do git apply --verbose "$p" || exit 1; done
All variants (avx/avx2/avx512/cuda/…) clone + apply into their own build copy, so the series ships
everywhere without ever touching the stock llama-cpp source tree.
Status
- 0001 vendor manager — DONE. Applies clean to the pin; builds into
libllama. - 0002 block placement — DONE + VERIFIED. Built
llama-simpleat the pin; greedy generation is token-identical stock vsLLAMA_KV_PAGED=1(Qwen3-0.6B), paged branch confirmed firing. - 0003 gather-read — DONE + VERIFIED (Gate 0 green). Implemented in the additive form
(see
paged/README.md): all logic in newsrc/paged-attn.{h,cpp}(allm_graph_input_igather-index subclass + the K/V/mask gather), hooked by one line inbuild_attn+ two thin accessors onllama_kv_cache_context+ 1 CMake line (216 insertions; no edit tollm_graph_input_attn_kvorllama-graph.h). Greedy generation is token-identical stock vsLLAMA_KV_PAGED=1(Qwen3-0.6B, 9/9 across 3 prompts × {32,96,128} tokens), withn_gather=71 < n_kv=256confirming real compaction. Patch:0003-paged-gather-read-env-LLAMA_KV_PAGED.patch.- Key correctness finding:
get_gather_idxsmust emit cells sorted by token position. The CPU flash-attn online softmax reduces cells in physical-array order and is FP-order-sensitive, so 0002's scattered placement alone (full-window read, no gather) diverges from stock once a sequence crosses the first 16-cell block. The position-sorted gather reproduces stock's exact reduction order -> bit- identical, not merely mathematically equivalent. So 0002 is the placement substrate; 0003 is what makes paged placement token-identical under flash-attn.
- Key correctness finding:
- 0004–0006 follow.
Honest parity note (important)
This series delivers the paged-attention engine (capacity + scheduling + prefix sharing). It does not
by itself reach vLLM throughput parity, because the measured prefill bottleneck is the FP4 MoE GEMM kernel
(Lever 3: mul_mat_q<MXFP4> ~22 TFLOP/s, ~27× behind vLLM) — a per-token compute gap that paging does not
touch. Paged attention closes the concurrency/memory gap (more sequences, prefix reuse); the prefill/throughput
gap additionally needs the tcgen05/CUTLASS grouped-GEMM (deferred, upstream-grade, no shortcut — see
paged/README.md). So full vLLM parity = this series AND the
kernel; neither alone suffices.