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2026-07-13 15:09:27 +03:00

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# Distributed GGUF runtime milestones
## Gate A — measured runtime value
- DGR-001 locks the safetensors-versus-GGUF performance/fit/quality contract.
- DGR-002 can proceed independently and defines the battle-proven backend-neutral wire protocol.
- DGR-003 builds exact recipe identity on DGR-002.
- Expensive native llama.cpp work remains gated by DGR-001.
## Gate B — minimal native execution seam
- DGR-004 creates the reproducible pinned fork boundary.
- DGR-005 implements dense-Llama range ownership.
- DGR-006 proves architecture-defined boundary parity.
## Gate C — concurrent production worker
- DGR-007 isolates concurrent Hot KV State.
- DGR-008 exposes the native worker over gRPC.
- DGR-009 integrates the worker without replacing Meshnet's control plane.
- DGR-010 passes local real-model two-process acceptance.
## Gate D — real consumer-hardware route
- DGR-011 passes two-physical-machine execution.
- DGR-012 adds continuous batching and bounded admission.
- DGR-013 hardens failure and cancellation.
## Gate E — product release decision
- DGR-014 compares distributed GGUF against the current distributed safetensors route under locked thresholds.
- DGR-015 adds Qwen3/Qwen3-MoE only after the dense runtime passes.
- DGR-016 prepares narrow upstream llama.cpp collaboration material.
No later gate may be claimed from synthetic workers or documentation-only evidence.