73 KiB
PRD: Distributed GGUF Runtime
Specification status: planning artifacts only. No distributed GGUF runtime is implemented. DGR-017 cleanup is complete; no runtime implementation story has completion credit.
prd.jsonis authoritative.
Goal
Deliver benchmark-gated, concurrent, distributed GGUF inference across consumer machines through existing Meshnet control-plane behavior and a standalone native worker around upstream llama.cpp. The accepted target is DeepSeek V4 Flash, not the superseded legacy target.
Locked scope
- Existing Meshnet Tracker routing, load balancing, billing, telemetry, relay, and provider semantics are backend-agnostic and are not redesigned. GGUF contributes exact compatibility, range/capacity, queue/load, seam-cost, health/reliability, and certification inputs only.
- The data plane is a standalone project-owned C++ Shard worker with gRPC/Protobuf and a project-owned
ShardEngineboundary. - llama.cpp is fetched at one exact commit into an ignored workspace from an in-repo manifest, then a numbered minimal patch stack is applied. There is no submodule, vendored tree, or permanent-fork dependency.
- llama.cpp owns DeepSeek V4 graphs, mHC, MoE, attention, hash routing, and kernels. Meshnet adds only range-ownership hooks, typed boundary/local-state adapters, worker integration, and parity/certification.
- Quantization and placement are dynamic recipe inputs. The 2–4 and 10+ stage layouts are certification scenarios, never product constants.
- Per-shard Hot KV and V4 CSA/HCA/SWA/indexer/compressor state remain local and keyed by route session/epoch. The WAN seam carries the typed mHC 4×4096 residual boundary, positions, token-ID sideband where required, and schema/cache expectations—not per-layer caches.
- Route changes use cache miss plus re-prefill/restart. There is no WAN KV or V4 auxiliary-cache migration.
- CPU/CUDA/ROCm/Vulkan/Metal compile lanes are planned; only exact real-hardware-certified backend/model/recipe lanes may be advertised.
- Alpha requires correctness and the pre-locked useful-speed gate. MTP is reserved and off for alpha; its ownership contract, implementation, and benchmark are required before beta.
Target identities
- DeepSeek V4 official target SHA:
60d8d70770c6776ff598c94bb586a859a38244f1. - llama.cpp V4 support lineage began at PR 24162 / merge
8c146a8366304c871efc26057cc90370ccf58dad; DGR-027 later pins one exact validated current commit. - V4 scope: 43 main layers plus MTP; mHC 4×4096 boundary; 256 routed + 1 shared experts with six routed active; token IDs required for the first three hash-routed layers.
- Exact split-GGUF artifacts are provisioned to mounted-drive storage with a complete hashed manifest and resumable verification; no model artifact may be placed under
/home.
Quality gates
The canonical gate groups live in prd.json. Every story explicitly requires its applicable shared gates: deterministic targeted tests, Python compile checks where applicable, native CMake/CTest and exact patch verification where applicable, real artifact/hardware provenance for opt-in lanes, git diff --check, and a durable evidence handoff.
Milestones
- M0 — Truth and contracts (DGR-017..DGR-020): Reconciled legacy truth, canonical metadata, immutable gates, and a controlled whole-model baseline.
- M1 — Protocol and native substrate (DGR-021..DGR-033): Versioned gRPC protocol, exact identities/artifacts, pinned upstream, reproducible builds, ShardEngine, and fake worker.
- M2 — Dense vertical proof (DGR-034..DGR-043): Dense ranged execution, parity, local state, worker integration, and GGUF inputs to existing routing.
- M3 — DeepSeek V4 Flash alpha (DGR-044..DGR-054): Pinned V4 adapter around upstream llama.cpp, real route certification, and pre-locked alpha decision with MTP off.
- M4 — Performance and beta hardening (DGR-055..DGR-067): Batching, backpressure, recovery, scale certification, optimization, MTP, and hardware matrix.
- M5 — Release and maintenance (DGR-068..DGR-071): Reproducible packages, upstream collaboration, beta decision, and sustainable recertification.
User stories
DGR-017: Reconcile and clean the superseded DGR backlog
Milestone: M0 · Mode: AFK · State: complete · Depends on: none
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/017-reconcile-and-clean-the-superseded-dgr-backlog.md, and evidence READMEs for dependencies (none) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Audit implementation reality, void inherited completion credit, and clean misleading backlog/stub baggage while preserving attributable evidence and accepted research.
- Compare the branch, old DGR-001..016 issue/pass states, evidence, and actual runtime sources; classify each output as reusable, reference-only, blocked, obsolete, or absent.
- Record an authoritative old-to-new disposition and provenance; explicitly give no completion credit to any new story and note absent implementation/evidence.
- Remove or archive only artifacts the audit proves obsolete while preserving accepted ADRs, useful research, raw benchmark evidence, and attributable reusable work.
- Protect ignored build workspaces, generated protobuf outputs, Ralph logs, and model artifacts from accidental commits, and document every retained legacy artifact.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-018: Define canonical Ralph and Gitea metadata schema
Milestone: M0 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-017
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/018-define-canonical-ralph-and-gitea-metadata-schema.md, and evidence READMEs for dependencies (DGR-017) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Make prd.json the validated source from which Markdown and Gitea issues can later be generated losslessly.
- Define fields for stable ID/title, labels, milestone, type,
dependsOn, derivedblocks, triage, evidence class, and hardware/model/upstream flags. - Validate that all stories start
passes: false, use known dependencies, and have unique stable IDs. - Reject cycles, missing dependencies, mismatched generated
blocks, duplicate titles/IDs, and generated artifacts claiming authority overprd.json. - Add deterministic model-free tests for parse, validation, and generation round trips.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-019: Lock alpha and beta performance contracts
Milestone: M0 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-017
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/019-lock-alpha-and-beta-performance-contracts.md, and evidence READMEs for dependencies (DGR-017) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Freeze useful speed, correctness, memory-fit, and stop/go thresholds before implementation results are visible.
- Define controlled safetensors, whole-model GGUF, dense distributed GGUF, and V4 Flash distributed lanes with fixed prompts, context/output lengths, sampling, concurrency, hardware, and metrics.
- Alpha requires correctness plus a human-approved useful-speed threshold; beta adds concurrency, long-context, failure, and sustained-throughput thresholds.
- Separate quantization/model-fit gains from runtime, transport, batching, and kernel gains.
- Treat quants and 2–4/10+ stage counts only as named certification scenarios; no product logic may hardcode them.
- Lock thresholds and stop conditions in versioned machine-readable data before benchmark result ingestion.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-020: Run the controlled whole-model GGUF baseline
Milestone: M0 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-019
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/020-run-the-controlled-whole-model-gguf-baseline.md, and evidence READMEs for dependencies (DGR-019) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Execute the locked safetensors and whole-model llama.cpp lanes before distributed implementation results can influence the decision.
- Run the exact DGR-019 safetensors and whole-model llama.cpp benchmark lanes with locked prompts, lengths, sampling, concurrency, hardware, and artifact/runtime identities.
- Record raw machine-readable correctness, TTFT, prefill/decode, throughput, latency, memory, artifact-size, failure, and quality-drift metrics without ingesting distributed implementation results.
- Separate quantization/model-fit effects from runtime/kernel effects and preserve failed or unavailable lanes honestly.
- Publish a threshold-based
go,optimize baseline, orstopdecision without changing the locked contract. - Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-021: Define the versioned named-tensor stream envelope
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-018
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/021-define-the-versioned-named-tensor-stream-envelope.md, and evidence READMEs for dependencies (DGR-018) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Establish the backend-neutral protobuf envelope used by direct and relayed Shard activation traffic.
- Define schema version, request/work ID, route session/epoch, shard range/effective start, phase, position, and idempotency step.
- Define named tensors with shape, dtype, byte order, bounded fragments, compression identity, and checksum.
- Reserve extensible fields for token-ID sidebands, architecture state, recurrent state, and MTP without claiming implementations.
- Add deterministic serialization, fragmentation, checksum, unknown-field, and size-limit tests.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-022: Define Shard lifecycle and structured status RPCs
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-021
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/022-define-shard-lifecycle-and-structured-status-rpcs.md, and evidence READMEs for dependencies (DGR-021) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Complete the gRPC contract for worker capability, health, sessions, cancellation, release, and metrics.
- Define capability, health, bidirectional session stream, cancellation, release, and metrics RPCs.
- Specify deadlines, cancellation propagation, bounded flow control, cache expectations/results, and structured error taxonomy.
- Specify TLS/auth hooks without moving Meshnet authentication or billing into the worker.
- Add compatibility tests for supported versions and fail-closed tests for unsupported versions and malformed lifecycle transitions.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-023: Make Python and C++ protobuf generation reproducible
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-021
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/023-make-python-and-c-protobuf-generation-reproducible.md, and evidence READMEs for dependencies (DGR-021) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Generate identical Python/C++ protocol bindings without manual copying or checked-in build debris.
- Pin protoc, gRPC, and plugin versions or declare a verified compatible range.
- Generate Python and C++ bindings into out-of-tree build/package locations through documented commands.
- Add Python↔C++ round-trip and descriptor compatibility tests.
- A clean checkout regenerates bindings deterministically or fails with an actionable toolchain error.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-024: Implement in-memory fake gRPC seam transport
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-022, DGR-023
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/024-implement-in-memory-fake-grpc-seam-transport.md, and evidence READMEs for dependencies (DGR-022, DGR-023) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Exercise the complete streaming protocol deterministically before a real model or worker exists.
- Provide a fake bidirectional stream supporting prefill fragments, decode fast-path frames, release, cancel, and structured errors.
- Test flow-control blocking, deadlines, malformed fragments, checksum failure, duplicates, and stale epochs.
- Verify direct and opaque-relay framing preserve identical protobuf bytes.
- Tests require no sockets outside localhost, model downloads, or native accelerator.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-025: Define exact artifact and runtime recipe identity
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-018, DGR-021
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/025-define-exact-artifact-and-runtime-recipe-identity.md, and evidence READMEs for dependencies (DGR-018, DGR-021) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Ensure the tracker and worker only combine numerically and operationally compatible shards.
- Fingerprint source artifact SHA, tokenizer revision, architecture adapter/version, boundary schema, runtime pin/patch stack, backend, quant, activation/compute dtype, and KV/state layout.
- Bind each shard to an exact half-open range without hardcoding a topology or quant.
- Fail closed on any artifact, adapter, boundary, cache, backend, or runtime mismatch.
- Unsupported recipes remain registered-but-dark until real-hardware evidence certifies them.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-026: Provision exact split-GGUF artifacts outside /home
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-025
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/026-provision-exact-split-gguf-artifacts-outside-home.md, and evidence READMEs for dependencies (DGR-025) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Make exact split-GGUF inputs reproducibly available from mounted-drive storage without embedding a quantization or topology assumption in product code.
- Create an exact manifest that binds the source artifact, tokenizer/revision, every split file name, size, range/role, and cryptographic hash.
- Provide resumable, hash-verifying download/provision tooling targeting configured mounted-drive storage; refuse paths under
/homeand incomplete or mismatched splits. - Keep quantization and split topology as manifest/recipe inputs with no hardcoded quant, node count, or range layout.
- Add deterministic model-download-free tests using tiny local split fixtures, including interrupted resume, missing split, hash mismatch, and
/homerejection. - Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-027: Add exact llama.cpp provenance manifest and fetch workspace
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-017
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/027-add-exact-llama-cpp-provenance-manifest-and-fetch-workspace.md, and evidence READMEs for dependencies (DGR-017) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Pin llama.cpp exactly through an in-repo manifest while fetching source only into an ignored build workspace.
- Manifest records upstream URL, exact commit, expected source archive/tree hash, license, and retrieval method.
- Fetch tooling verifies identity before use and refuses an unpinned branch/tag.
- Source is fetched into an ignored build workspace; no submodule, vendored source tree, or permanent fork is introduced.
- Offline reuse is supported only after the cached tree’s exact identity is verified.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-028: Implement numbered patch-stack apply and verification
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-027
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/028-implement-numbered-patch-stack-apply-and-verification.md, and evidence READMEs for dependencies (DGR-027) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Maintain a minimal auditable llama.cpp delta with one numbered patch per concern.
- Add deterministic apply/check/reverse verification against the exact manifest pin.
- Separate range loading, boundary I/O, filtered state, and worker hooks into scoped patches.
- Record upstream file/API assumptions and fail with the first incompatible patch when the pin changes.
- Verify license/attribution and prove no Meshnet routing, billing, relay, or authentication code enters the patch stack.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-029: Create the native CMake skeleton and deterministic CPU lane
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-027, DGR-028
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/029-create-the-native-cmake-skeleton-and-deterministic-cpu-lane.md, and evidence READMEs for dependencies (DGR-027, DGR-028) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Establish an out-of-tree standalone native build with a deterministic CPU lane before accelerator matrix work.
- Create the standalone native CMake target/skeleton and isolated out-of-tree configure/build preset for CPU.
- Build and run a deterministic model-free CPU smoke/CTest lane from a clean checkout with actionable toolchain failures.
- Keep fetched upstream sources, generated bindings, and all build outputs ignored and out of tree.
- Ensure build success alone does not advertise any backend/model/recipe capability.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-030: Add accelerator build presets and native CI matrix
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-029
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/030-add-accelerator-build-presets-and-native-ci-matrix.md, and evidence READMEs for dependencies (DGR-029) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Compile all required accelerator lanes reproducibly while keeping untested real-hardware capabilities registered-dark.
- Add isolated out-of-tree presets for CUDA, ROCm, Vulkan, and Metal without changing the deterministic CPU default.
- Add a native CI/build matrix that reports unavailable SDKs as explicit unavailable/skipped lanes rather than false success.
- Compile each available lane and preserve exact compiler, SDK, upstream pin, patch-stack, and build-option evidence.
- Keep every backend/model/recipe lane registered-dark until a separate real-hardware certification record exists.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-031: Introduce the project-owned ShardEngine interface
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-021, DGR-025
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/031-introduce-the-project-owned-shardengine-interface.md, and evidence READMEs for dependencies (DGR-021, DGR-025) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Isolate worker/protocol code from llama.cpp internals behind a stable project-owned engine contract.
- Define load, capabilities, prefill/decode, boundary/logits result, cancel, release, health, and metrics operations.
- Use project-owned request/result/state types; expose no
ggml_tensor, llama context, scheduler, or ABI-owned structure. - Reserve typed MTP and architecture auxiliary-state hooks without enabling them.
- Add contract tests proving fake and future llama implementations obey identical lifecycle semantics.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-032: Implement deterministic fake ShardEngine
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-031
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/032-implement-deterministic-fake-shardengine.md, and evidence READMEs for dependencies (DGR-031) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Provide an engine fixture that deterministically transforms typed boundary bundles and session state.
- Support head, middle, tail, prefill, decode, cancellation, and release with deterministic outputs.
- Model isolated session/epoch state and deterministic cache-miss/stale-epoch failures.
- Support configurable delay, memory pressure, malformed output, and crash injection.
- Contract tests distinguish fixture evidence from real-model certification.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-033: Build a standalone fake C++ gRPC Shard worker
Milestone: M1 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-022, DGR-024, DGR-032
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/033-build-a-standalone-fake-c-grpc-shard-worker.md, and evidence READMEs for dependencies (DGR-022, DGR-024, DGR-032) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Prove the standalone worker process, stream, lifecycle, and supervision shape before llama.cpp integration.
- A standalone C++ executable serves the complete lifecycle and stream RPC contract using the fake engine.
- Python integration tests cover startup, health, capability, fragmented prefill, decode, release, cancellation, and graceful shutdown.
- Bounded messages, deadlines, flow control, and independent session cancellation are enforced.
- The worker exposes neither llama.cpp RPC nor arbitrary graph execution.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-034: Implement dense-Llama range-aware GGUF ownership
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-028, DGR-029, DGR-031
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/034-implement-dense-llama-range-aware-gguf-ownership.md, and evidence READMEs for dependencies (DGR-028, DGR-029, DGR-031) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Load only the dense-Llama tensors owned by a shard range.
- Load only
blk.N.*tensors in the assigned range, embeddings only at the head, and norm/output or tied output only at the tail. - Derive authoritative range and endpoint ownership from the loaded engine state.
- Reject invalid/gapped/out-of-model ranges and unexpected required tensors.
- Real-model evidence shows mapped/resident memory scales with owned tensors rather than full artifact size.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-035: Implement dense architecture boundary input/output
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-021, DGR-031, DGR-034
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/035-implement-dense-architecture-boundary-input-output.md, and evidence READMEs for dependencies (DGR-021, DGR-031, DGR-034) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Execute dense head/middle/tail ranges through an architecture-defined residual boundary.
- Head accepts token IDs and owns embedding; middle/tail bypass embedding and accept a named boundary bundle.
- Non-tail returns the unnormalized residual before final norm/head and before tail-only row pruning.
- Tail returns logits or sampled-token output under an explicit contract.
- Uncertified architectures and incompatible boundary schemas fail closed.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-036: Prove dense fixture and real-model range parity
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-033, DGR-035
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/036-prove-dense-fixture-and-real-model-range-parity.md, and evidence READMEs for dependencies (DGR-033, DGR-035) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Prove the engine/protocol seam before adding session concurrency.
- Model-free two-stage tests pass through two fake worker processes with disjoint ranges.
- A small real dense GGUF passes whole-model versus two-range prefill parity.
- At least 32 greedy decode tokens match the locked tolerance.
- Evidence distinguishes deterministic fixture proof from opt-in real-model proof.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-037: Bind llama.cpp to the standalone worker
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-022, DGR-023, DGR-031, DGR-034, DGR-035
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/037-bind-llama-cpp-to-the-standalone-worker.md, and evidence READMEs for dependencies (DGR-022, DGR-023, DGR-031, DGR-034, DGR-035) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Replace the fake engine with the pinned llama.cpp ShardEngine implementation without changing the public worker contract.
- Worker loads exactly one artifact/recipe/range identity and rejects mismatched stream requests.
- All execution passes through
ShardEngine; llama.cpp implementation types remain private. - Health and metrics expose loaded identity, authoritative ownership, memory, and execution state.
- Graceful shutdown releases model/session resources; injected process death is observable and bounded.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-038: Implement isolated shard-local Hot KV State
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-037
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/038-implement-isolated-shard-local-hot-kv-state.md, and evidence READMEs for dependencies (DGR-037) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Map each route session and epoch to isolated state containing only locally owned layers.
- Map
(route_session_id, route_epoch)to an isolated llama sequence or bounded context. - Support prefill/decode append, truncate, release, TTL/LRU eviction, cache miss, and stale-epoch rejection.
- Four concurrent sessions complete without token, KV, position, or cancellation cross-talk.
- Release/eviction returns memory to the configured budget without affecting other sessions.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-039: Pass local two-process dense acceptance
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-036, DGR-037, DGR-038
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/039-pass-local-two-process-dense-acceptance.md, and evidence READMEs for dependencies (DGR-036, DGR-037, DGR-038) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Establish the first real, independently executing distributed GGUF route on one host.
- Two worker processes open disjoint dense ranges and both execute real prefill/decode work.
- Whole-model parity, 32-token greedy decode, four-session isolation, cancellation, and cleanup pass.
- Record TTFT, prefill/decode rates, seam bytes/latency, RSS/VRAM, KV, queue, and failure metrics.
- Killing one worker returns a bounded structured failure rather than hanging.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-040: Add node-side native worker supervision
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-033, DGR-037
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/040-add-node-side-native-worker-supervision.md, and evidence READMEs for dependencies (DGR-033, DGR-037) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Let the existing node service safely start, probe, stop, and restart the standalone worker.
- Supervision owns process startup, readiness, log capture, graceful shutdown, and bounded forced termination.
- Startup verifies worker binary, artifact identity, recipe, and range before registration.
- Crashes or health loss make the capability unavailable without corrupting the Transformers backend.
- Tests use the fake worker and deterministic crash injection.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-041: Register native Shard capabilities without redesigning Meshnet
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-025, DGR-040
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/041-register-native-shard-capabilities-without-redesigning-meshnet.md, and evidence READMEs for dependencies (DGR-025, DGR-040) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Adapt native worker identity and capacity to existing backend-agnostic capability admission.
- Registration carries exact recipe fingerprint, authoritative range, backend, memory/KV capacity, concurrency, and certification status.
- Existing tracker, billing, routing, telemetry, and provider semantics remain backend-agnostic.
- Uncertified backend/model/recipe combinations are visible but unroutable.
- Existing Transformers registration and route tests remain unchanged in behavior.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-042: Carry native frames through direct and existing relay seams
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-024, DGR-040
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/042-carry-native-frames-through-direct-and-existing-relay-seams.md, and evidence READMEs for dependencies (DGR-024, DGR-040) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Use direct gRPC where available and the existing relay as opaque protobuf transport without redesigning relay behavior.
- Direct paths use the long-lived gRPC activation stream.
- Relayed paths carry byte-identical versioned protobuf frames through the existing relay contract.
- Request/work identity, cancellation, deadlines, telemetry, billing correlation, and per-node attribution survive both paths.
- Fake-worker tests cover direct, relay, disconnect, cancellation, and bounded buffering.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-043: Expose GGUF compatibility and measured cost inputs to existing routing
Milestone: M2 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-041
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/043-expose-gguf-compatibility-and-measured-cost-inputs-to-existing-routing.md, and evidence READMEs for dependencies (DGR-041) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Adapt exact GGUF recipe/range compatibility and measured capacity, queue, seam-cost, health, and reliability data into the existing backend-agnostic routing inputs without redesigning routing or load balancing.
- Expose exact recipe, range coverage, capacity, queue/load, seam-cost, health, reliability, backend, and certification measurements through existing tracker input contracts.
- Prove existing routing forms complete compatible coverage and excludes dark or mismatched candidates using its current backend-agnostic mechanisms.
- Regression-test unchanged Transformers behavior and unchanged tracker routing, load-balancing, billing, relay, and provider semantics.
- Regression-test that no quant, stage count, fixed split, architecture, backend sequence, or DeepSeek-specific policy is hardcoded.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-044: Pin the DeepSeek V4 Flash target contract
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-019, DGR-025, DGR-026, DGR-027
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/044-pin-the-deepseek-v4-flash-target-contract.md, and evidence READMEs for dependencies (DGR-019, DGR-025, DGR-026, DGR-027) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Fix the alpha/beta model identity and upstream maturity assumptions before implementing the adapter.
- Pin Hugging Face target SHA
60d8d70770c6776ff598c94bb586a859a38244f1. - Record the selected GGUF provenance and exact source binding without assuming one quant.
- Record that llama.cpp support began with PR 24162/commit
8c146a8and remains maturing; the build manifest still pins one exact validated upstream commit. - Record 43 main layers plus MTP and all known architecture-specific state obligations.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-045: Inventory V4 GGUF tensors and layer ownership
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-026, DGR-044
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/045-inventory-v4-gguf-tensors-and-layer-ownership.md, and evidence READMEs for dependencies (DGR-026, DGR-044) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Derive exact head, repeated-layer, tail, expert, auxiliary-state, and MTP ownership from the pinned artifact.
- Produce a machine-readable inventory tied to the target SHA and exact GGUF artifact.
- Classify embeddings, 43 main layers, final head, MTP, mHC, attention variants, indexer/compressor, and MoE tensors.
- Validate half-open range ownership and fail on unclassified required tensors.
- Inventory tooling works across quants without embedding quant names in architecture logic.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-046: Define the V4 typed architecture boundary schema
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-021, DGR-045
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/046-define-the-v4-typed-architecture-boundary-schema.md, and evidence READMEs for dependencies (DGR-021, DGR-045) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Define the exact cross-stage V4 architecture boundary while keeping per-layer attention and auxiliary caches shard-local.
- Define a versioned named bundle for the mHC 4×4096 residual boundary, positions, token-ID sideband where required, and schema/cache expectations.
- Explicitly exclude per-layer CSA, HCA, SWA, indexer, compressor, KV, and MTP caches/state from the WAN boundary; those remain local to the owning shard and session/epoch.
- Reserve typed MTP boundary fields but mark MTP execution unsupported and unroutable for alpha.
- Fingerprint independently of quant/topology and fail closed on missing, incompatible, incorrectly shaped, or stale boundary/cache expectations.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-047: Adapt the upstream V4 mHC boundary for ranged ownership
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-045, DGR-046
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/047-adapt-the-upstream-v4-mhc-boundary-for-ranged-ownership.md, and evidence READMEs for dependencies (DGR-045, DGR-046) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Add range-boundary adapters around upstream llama.cpp V4 mHC execution without reimplementing the V4 graph or kernels.
- Represent and validate the upstream V4 4×4096 mHC boundary without flattening semantic axes.
- Add only head/intermediate/tail range ownership and boundary conversion hooks around the pinned upstream llama.cpp graph.
- Compare deterministic fixture vectors and single-process ranged outputs with upstream whole-model execution.
- Document that llama.cpp owns V4 mHC graph/kernels and that quantized storage does not alter the logical boundary schema.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-048: Carry token-ID sideband through the first three hash-routed layers
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-046, DGR-047
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/048-carry-token-id-sideband-through-the-first-three-hash-routed-layers.md, and evidence READMEs for dependencies (DGR-046, DGR-047) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Ensure any stage containing the first three hash-routed layers receives exact token identities.
- Head emits token IDs in the typed sideband for boundaries that require them.
- Intermediate stages preserve or consume the sideband according to their layer range.
- Routes splitting before, within, and after the first three layers pass deterministic partition tests.
- Missing or mismatched token IDs fail closed rather than silently selecting incorrect experts.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-049: Keep V4 attention and auxiliary state shard-local
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-046, DGR-047
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/049-keep-v4-attention-and-auxiliary-state-shard-local.md, and evidence READMEs for dependencies (DGR-046, DGR-047) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Bind V4 CSA/HCA/SWA/indexer/compressor and KV state to the owning shard session/epoch rather than transferring caches over the WAN.
- Map CSA, HCA, SWA, indexer, compressor, and KV ownership from the pinned upstream graph to each owned layer range.
- Key all such caches/state by route session and epoch with bounded lifecycle, memory accounting, stale-epoch rejection, release, and eviction.
- Prove cross-stage messages carry only the typed architecture boundary and cache expectations, never per-layer cache contents.
- On route change or state loss, use explicit cache miss and re-prefill/restart; do not migrate V4 caches across workers.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-050: Validate upstream V4 MoE and hash-routing execution under ranged ownership
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-045, DGR-047
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/050-validate-upstream-v4-moe-and-hash-routing-execution-under-ranged-ownership.md, and evidence READMEs for dependencies (DGR-045, DGR-047) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Validate the pinned upstream llama.cpp V4 MoE and hash-routing graph when layers are range-owned, without reimplementing routing or expert kernels in Meshnet.
- Load range-owned tensors for 256 routed plus one shared expert and validate upstream execution activates six routed experts where specified.
- Validate the first three upstream hash-routed layers receive exact token-ID sideband across splits before, within, and after them.
- Compare upstream whole-model and ranged router/expert outputs, shared-expert contribution, and malformed sideband failures.
- Document that llama.cpp owns V4 MoE, attention, hash routing, graph, and kernels; no expert-parallel WAN collective or Meshnet reimplementation is introduced.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-051: Assemble the DeepSeek V4 Flash ShardEngine adapter
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-034, DGR-037, DGR-047, DGR-048, DGR-049, DGR-050
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/051-assemble-the-deepseek-v4-flash-shardengine-adapter.md, and evidence READMEs for dependencies (DGR-034, DGR-037, DGR-047, DGR-048, DGR-049, DGR-050) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Assemble range ownership hooks and boundary/local-state adapters around upstream llama.cpp V4 execution behind the stable ShardEngine interface.
- Support valid head, middle, tail, and whole-model ranges over all 43 main layers using the pinned upstream llama.cpp V4 graph/kernels.
- Integrate exact range ownership, mHC boundary, positions, required token-ID sideband, and shard-local session/epoch state adapters.
- Report MTP reserved-but-not-executable for alpha and reject unsupported split points or cache expectations.
- Include exact adapter/schema/runtime/artifact identity and valid split restrictions without reimplementing V4 MoE, attention, mHC, or hash routing.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-052: Pass local V4 whole-model versus ranged parity
Milestone: M3 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-038, DGR-051
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/052-pass-local-v4-whole-model-versus-ranged-parity.md, and evidence READMEs for dependencies (DGR-038, DGR-051) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Prove V4 prefill and decode correctness locally before network certification.
- Compare pinned whole-model llama.cpp with at least two valid ranged partitions.
- Prefill intermediates and locked-length greedy decode pass architecture-specific tolerances.
- Test splits around the first three hash-routed layers and at least one CSA/HCA/SWA/indexer/compressor transition.
- Four concurrent sessions pass KV/state isolation and cleanup.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-053: Certify a real 2–4-stage V4 route
Milestone: M3 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-030, DGR-043, DGR-052
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/053-certify-a-real-2-4-stage-v4-route.md, and evidence READMEs for dependencies (DGR-030, DGR-043, DGR-052) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Prove real Tracker-selected V4 execution across physical machines before alpha.
- Run one documented 2–4-stage certification scenario using exact compatible artifacts/recipes; the count and chosen quant are evidence inputs, not product constants.
- Actual CPU/GPU work executes on every stage; fake workers do not satisfy acceptance.
- Record parity, TTFT, prefill/decode speed, seam cost, memory, cache/state isolation, cancellation, and cleanup.
- Tracker selection remains dynamic and rejects an injected incompatible backend/recipe.
- Only the exact real-hardware lanes exercised become eligible for advertisement.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-054: Enforce the DeepSeek V4 Flash alpha gate
Milestone: M3 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-017, DGR-019, DGR-020, DGR-039, DGR-042, DGR-043, DGR-052, DGR-053
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/054-enforce-the-deepseek-v4-flash-alpha-gate.md, and evidence READMEs for dependencies (DGR-017, DGR-019, DGR-020, DGR-039, DGR-042, DGR-043, DGR-052, DGR-053) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Release alpha only when V4 is correct and clears the pre-locked useful-speed requirement.
- Evaluate correctness, model fit, TTFT, prefill/decode speed, seam cost, memory, and failure rate against DGF-004 without changing thresholds.
- Separate quant/model-fit gains from runtime/transport gains.
- Decision is
alpha,optimize measured bottleneck, orstop; failures cannot be relabeled as certification. - Alpha documentation states MTP is reserved but not implemented and identifies every dark hardware lane.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-055: Implement compatible continuous decode batching
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-038, DGR-040, DGR-054
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/055-implement-compatible-continuous-decode-batching.md, and evidence READMEs for dependencies (DGR-038, DGR-040, DGR-054) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Batch compatible active sessions without violating route, recipe, position, or architecture state.
- Batch only sessions with compatible engine, recipe, phase, boundary schema, and state layout.
- Preserve per-session positions, sequence IDs, outputs, cancellation, and accounting.
- Decode receives bounded service while prefill remains schedulable.
- Deterministic 1/2/4/8 concurrency tests show no cross-session corruption.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-056: Enforce bounded admission, queues, and backpressure
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-055
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/056-enforce-bounded-admission-queues-and-backpressure.md, and evidence READMEs for dependencies (DGR-055) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Prevent weight, KV, state, scratch, and stream buffers from exceeding admitted capacity.
- Admission accounts separately for weights, KV/state, scratch, in-flight fragments, and queue slots.
- Queue and stream limits produce structured retryable or terminal responses.
- Prefill cannot starve decode and one route session cannot monopolize queue capacity.
- Telemetry reports active sessions, queue depth/time, batch occupancy, memory pressure, and rejects.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-057: Benchmark batching saturation and fairness
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-055, DGR-056
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/057-benchmark-batching-saturation-and-fairness.md, and evidence READMEs for dependencies (DGR-055, DGR-056) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Identify useful concurrency and saturation points without assuming one global batch size.
- Run controlled concurrency 1/2/4/8 and record aggregate throughput, per-request p50/p95, TTFT, queue time, occupancy, and memory.
- Measure dense and V4 lanes separately where hardware permits.
- Verify bounded fairness and no prefill/decode starvation.
- Produce machine-readable saturation recommendations consumed by capability reporting, not hardcoded constants.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-058: Harden worker and stream failure semantics
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-040, DGR-042, DGR-056
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/058-harden-worker-and-stream-failure-semantics.md, and evidence READMEs for dependencies (DGR-040, DGR-042, DGR-056) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Ensure malformed input, process death, transport reset, and cancellation terminate cleanly.
- Test worker death, stream reset, malformed bundle, checksum failure, deadline, cache miss, stale epoch, and partial fragment loss.
- Cancellation propagates across all stages and releases KV/state, queue entries, and fragment buffers.
- Duplicate steps are idempotent; uncertain mutations are never silently replayed.
- Billing/work outcomes distinguish completed, cancelled, failed, and unverified work.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-059: Implement alpha-safe route recovery
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-043, DGR-058
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/059-implement-alpha-safe-route-recovery.md, and evidence READMEs for dependencies (DGR-043, DGR-058) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Recover from route loss without importing or continuing unverified state.
- On route loss or local-state cache miss, restart from token zero or re-prefill on a newly compatible route according to the locked alpha contract.
- Never import KV, CSA, HCA, SWA, indexer, compressor, recurrent, or MTP cache/state across workers.
- Keep exact same-route duplicate delivery idempotent while cross-route continuation fails closed.
- Test direct/relay loss, cache miss, replacement selection, client cancellation, and billing reconciliation.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-060: Certify V4 long-context state correctness
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-051, DGR-056, DGR-058
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/060-certify-v4-long-context-state-correctness.md, and evidence READMEs for dependencies (DGR-051, DGR-056, DGR-058) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Prove V4’s KV and auxiliary state remain correct and bounded at long contexts.
- Exercise pre-locked context lengths covering multiple prefill chunks and sustained decode.
- Validate KV plus CSA/HCA/SWA/indexer/compressor state positions across every stage.
- Measure memory growth, fragment sizes, TTFT, decode degradation, cancellation latency, and cleanup.
- Cache mismatch, truncation, and context-limit behavior fail deterministically.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-061: Certify existing routing with 10+ GGUF stage candidates
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-043, DGR-057, DGR-058
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/061-certify-existing-routing-with-10-gguf-stage-candidates.md, and evidence READMEs for dependencies (DGR-043, DGR-057, DGR-058) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Certify that existing backend-agnostic routing consumes GGUF compatibility and measured-cost inputs for a 10+ candidate scenario without algorithm or policy redesign.
- Generate deterministic pools with 10+ compatible GGUF stage candidates plus slower, overloaded, unhealthy, and incompatible alternatives.
- Run the existing routing implementation unchanged and verify complete coverage, compatibility, acyclicity, and use of measured inputs.
- Regression-test that no stage count, quant, fixed split, architecture, or backend sequence is encoded in production routing policy.
- Verify existing route recomputation reacts to measured load/failure while tracker, load-balancing, billing, relay, and provider semantics remain unchanged.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-062: Certify a dynamic real 10+ stage V4 scenario
Milestone: M4 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-053, DGR-060, DGR-061
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/062-certify-a-dynamic-real-10-stage-v4-scenario.md, and evidence READMEs for dependencies (DGR-053, DGR-060, DGR-061) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Demonstrate that a large real route can be dynamically selected and usefully execute V4.
- Run one real 10+-stage V4 certification scenario; stage count, quant, and split remain scenario metadata only.
- Every selected stage proves real work, exact compatible identity, local state ownership, and bounded resources.
- Record end-to-end and per-stage TTFT, prefill/decode, seam cost, queueing, memory, failures, and cleanup.
- Inject at least one incompatible or degraded candidate and verify dynamic exclusion/reselection.
- The scenario must meet its pre-locked usefulness threshold or remain failed evidence.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-063: Profile and optimize the critical seam
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-057, DGR-061
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/063-profile-and-optimize-the-critical-seam.md, and evidence READMEs for dependencies (DGR-057, DGR-061) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Optimize only the measured dominant compute, serialization, copy, or transport bottleneck.
- Profile worker compute, tensor conversion, copies, protobuf framing, compression, relay/direct transport, queueing, and synchronization.
- Select one dominant bottleneck from evidence and lock its before/after benchmark.
- Implement one bounded optimization without weakening correctness or protocol identity.
- Report whether the optimization changes TTFT, prefill, decode, throughput, or memory and preserve raw data.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-064: Add negotiated activation compression
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-060, DGR-063
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/064-add-negotiated-activation-compression.md, and evidence READMEs for dependencies (DGR-060, DGR-063) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Reduce V4 seam cost only when a certified compression recipe improves end-to-end performance acceptably.
- Negotiate compression through recipe identity; unnegotiated or mismatched compression fails closed.
- Preserve names, shapes, semantic axes, token-ID sideband, and checksums.
- Measure quality drift, encode/decode cost, bytes, TTFT, and throughput against uncompressed boundaries.
- Compression remains dark unless it meets pre-locked quality and speed thresholds.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-065: Define V4 MTP ownership and distributed state contract
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-051, DGR-054, DGR-060
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/065-define-v4-mtp-ownership-and-distributed-state-contract.md, and evidence READMEs for dependencies (DGR-051, DGR-054, DGR-060) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Lock MTP tensor, execution, boundary, acceptance/rejection, and session-state ownership before implementation while keeping MTP disabled for alpha.
- Derive exact MTP tensor and execution ownership from the pinned V4 target and upstream llama.cpp graph, distinguishing main-layer, tail, and MTP responsibilities.
- Define typed MTP inputs/outputs plus accepted-token, rejection, rollback/truncation, position, cache, and session/epoch lifecycle semantics.
- Specify which MTP state remains shard-local and which typed boundary values cross a seam; prohibit WAN migration of KV or V4 auxiliary caches.
- Keep every MTP recipe disabled and unroutable for alpha, with fail-closed capability negotiation and deterministic contract fixtures.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-066: Implement and benchmark V4 MTP
Milestone: M4 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-054, DGR-060, DGR-064, DGR-065
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/066-implement-and-benchmark-v4-mtp.md, and evidence READMEs for dependencies (DGR-054, DGR-060, DGR-064, DGR-065) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Implement the locked MTP contract around upstream llama.cpp before beta, without making MTP an alpha prerequisite.
- Implement the exact DGR-065 MTP ownership and typed state contract against the pinned upstream V4 graph while preserving shard-local caches.
- Pass whole-model versus ranged MTP correctness, accepted-token, rejection, rollback/truncation, and session-isolation tests.
- Benchmark MTP-off versus MTP-on quality, accepted-token rate, TTFT, decode speed, seam bytes, and memory on the locked lane.
- Distinguish implemented, certified, disabled, and unsupported MTP recipes in fail-closed capability advertisement.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-067: Certify the backend capability matrix
Milestone: M4 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-030, DGR-053, DGR-062, DGR-066
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/067-certify-the-backend-capability-matrix.md, and evidence READMEs for dependencies (DGR-030, DGR-053, DGR-062, DGR-066) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Publish only backend/model/recipe lanes proven on actual CPU, CUDA, ROCm, Vulkan, or Metal hardware.
- Maintain independent build and certification status for CPU, CUDA, ROCm, Vulkan, and Metal.
- Each advertised lane includes real hardware/driver/runtime/model evidence for parity, concurrency, cancellation, cleanup, and useful speed.
- Build success alone never makes a lane routable; unavailable hardware remains explicitly dark.
- Tracker admission consumes signed/versioned certification records rather than backend-name allowlists.
- Mixed-backend routes require exact compatibility evidence and fail closed otherwise.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-068: Package reproducible native worker releases
Milestone: M5 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-030, DGR-054, DGR-067
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/068-package-reproducible-native-worker-releases.md, and evidence READMEs for dependencies (DGR-030, DGR-054, DGR-067) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Produce installable worker packages that preserve exact source, patch, protocol, and certification identity.
- Package worker binaries/configuration for supported host/backend combinations without bundling an unverified llama.cpp tree.
- Embed protocol, engine, upstream pin, patch-stack, build-toolchain, and certification fingerprints.
- Installation/startup refuses mismatched artifacts, runtime recipes, or unsupported hardware lanes.
- Produce checksums, SBOM/license attribution, reproducible build instructions, and smoke tests.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-069: Prepare narrow upstream llama.cpp collaboration patches
Milestone: M5 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-028, DGR-035, DGR-038, DGR-051
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/069-prepare-narrow-upstream-llama-cpp-collaboration-patches.md, and evidence READMEs for dependencies (DGR-028, DGR-035, DGR-038, DGR-051) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Reduce long-term patch burden through generic upstreamable hooks without asking llama.cpp to own Meshnet.
- Separate generic range loading, boundary I/O, and filtered state hooks from project worker/protocol code.
- Provide one scoped patch, focused test, and minimal reproducer per concern against the exact upstream pin.
- Compare the proposal with prior-art evidence and current upstream V4 support/maturity.
- Prepare human-ready design/outreach text; actual issue/PR submission remains a human action.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-070: Enforce the DeepSeek V4 Flash beta gate
Milestone: M5 · Mode: HITL · Triage: ready-for-human · Depends on: DGR-057, DGR-059, DGR-060, DGR-062, DGR-064, DGR-066, DGR-067, DGR-068
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/070-enforce-the-deepseek-v4-flash-beta-gate.md, and evidence READMEs for dependencies (DGR-057, DGR-059, DGR-060, DGR-062, DGR-064, DGR-066, DGR-067, DGR-068) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Promote beta only after concurrency, resilience, long-context, MTP, scale, packaging, and speed gates pass.
- Evaluate all beta metrics against DGF-004 without changing thresholds after observing results.
- Require V4 parity, batching/fairness, bounded backpressure, failure recovery, long-context correctness, MTP evidence, and dynamic 10+ stage evidence.
- Publish the exact certified hardware/backend/recipe matrix; all other lanes remain dark.
- Decision is
beta,targeted optimization, orstop/rollback, with unresolved failures listed explicitly. - Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
DGR-071: Establish upstream pin, patch, and certification maintenance
Milestone: M5 · Mode: AFK · Triage: ready-for-agent · Depends on: DGR-069, DGR-070
Fresh Ralph session: read .scratch/distributed-gguf-runtime/RALPH-CONTEXT.md, source issue .scratch/distributed-gguf-runtime/issues/071-establish-upstream-pin-patch-and-certification-maintenance.md, and evidence READMEs for dependencies (DGR-069, DGR-070) before changing code. Inspect live source/tests rather than trusting legacy pass states. Objective: Keep beta reproducible and detect upstream/model/hardware drift before it reaches routable nodes.
- Add a documented update procedure for llama.cpp pin, numbered patches, protocol/engine versions, V4 target revision, and certification records.
- A candidate pin update must apply/build/test in isolation and cannot replace the production pin automatically.
- Any changed graph, tensor inventory, boundary, cache/state layout, backend behavior, or performance invalidates affected certification.
- Add scheduled model-free checks plus opt-in real-hardware recertification instructions and rollback procedure.
- Applicable shared quality gates in
prd.jsonpass, and the evidence handoff records exact commands/results, changed files, limitations, and dependency handoff.
Non-goals
- Replacing or redesigning Tracker routing/load-balancing, billing, relay, or provider policy.
- Reimplementing DeepSeek V4 architecture graphs or kernels in Meshnet.
- Hardcoding a quant, stage count, node count, split, architecture, or backend sequence.
- WAN migration of KV or V4 auxiliary caches.
- Advertising a compile-only or fixture-only hardware lane.
- Making MTP an alpha dependency.