33dfe7fd41
Regenerate patch 0026 with the hybrid-decode carry fix and record the KL/throughput gate-sweep results. Fix: clear(data=true) zeroes the whole recurrent buffer including the head_slot maps, which were uploaded only once at construction; after the post-warmup reset every head read head_slot==0 (f32-local-0), collapsing the split and producing incoherent decode. Persist head_slot_host and re-upload via upload_head_slots() after every buffer clear. Hybrid decode is now coherent and the cross-op state carry is byte-exact (write==read, both partitions). Gate result: de-risk PASS (test-backend-ops 84/84; T=0 md5 == 0023 baseline, both models). Ship gate FAILS - no T_thresh meets MeanKLD<1e-3 AND same-top-p>=99.5% with a meaningful speedup. The premise that the bf16 error concentrates in long-memory heads is refuted: KL scales with the bf16 head count and saturates ~0.06/~91% (MoE saturates at the minimal split). The carry is byte-exact, so this is genuine bf16 sensitivity, not a bug. The byte-saving lever is real (dense +12.4%, MoE +11.5% decode @npl128 at T=128) but cannot meet the strict KL bar. Shipped default-off (f32, bit-exact opt-out); hybrid is opt-in only and not recommended in the gallery config. Full tables in A_HYBRID_SSM_RESULTS.md. 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 under ../paged/ |
| 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/patches/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/patches/ --zero-commit -N
# 4. on a pin bump: rebase `paged` onto the new pin; only conflicting patches need edits; re-export.
Build integration
../Makefile's llama.cpp: target runs, after git checkout -b build $(LLAMA_VERSION):
for p in $(CURRENT_MAKEFILE_DIR)/patches/0*.patch; do git apply --verbose "$p"; done
All variants (avx/avx2/avx512/cuda/…) copy the patched llama.cpp/ tree, so the series ships everywhere.
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
(
ADDITIVE_DESIGN.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/UPSTREAM_GGML_ISSUE.md and DGX_BLACKWELL_PLAN.md). So full vLLM parity = this series AND the
kernel; neither alone suffices.