6.0 KiB
ADR-0021: Dynamic statistical routing (bandit-style route selection)
Status: Accepted, implemented
Context
ADR-0020 documented the mixed-topology flaw: with a fast GPU node serving layers 0–21 and
a slow CPU node serving 0–39 of Qwen3.6-35B-A3B, the tracker picked the GPU node as
proxy head independently of route planning, injecting a downstream hop with the wrong
start_layer (0 instead of 22) and corrupting generation.
Beyond the bug, the deeper issue is that the tracker cannot know a priori which route is faster. Is one CPU node running all 40 layers faster than a GPU running 0–21 plus a CPU hop for 22–39? Benchmarks don't answer that — network hops, MoE expert loading, and queue dynamics only show up in real end-to-end requests. The router must measure.
Decision
Route selection is a multi-armed bandit over enumerated candidate routes, implemented
in packages/tracker/meshnet_tracker/routing_stats.py and wired into the chat proxy in
server.py.
Arms: route signatures
A route's identity is model_key | node_id[shard] -> node_id[shard] -> …. Node ids embed
wallet + shard, so a node re-registering with a different shard produces a new arm
automatically. The proxy target is always the route's own head (route_nodes[0]),
and each hop's start_layer is previous_hop.shard_end + 1 — this fixes ADR-0020's flaw
structurally: head choice and route planning can no longer disagree.
Candidate enumeration (_enumerate_routes)
One candidate per distinct head (a node whose shard_start equals the model's first
layer — it must tokenize/embed), greedily completed with longest-advancing hops. Each
candidate carries a prior_tps: its bottleneck hop's queue-adjusted effective throughput
× reputation. Capped at 8 candidates ranked by prior.
Statistics: decayed EWMA + topology epochs
Per (model, signature), RouteStatsStore keeps an EWMA of observed end-to-end tokens/sec
with time-decayed sample mass (half-life default 600 s). Two staleness mechanisms
handle the morphing network:
- Continuous: sample mass decays; a route unproven for a while (mass < 0.5) drops out of the exploit pool and gets re-scouted.
- Abrupt: any node join/leave/shard-change bumps the model's topology epoch. Stats from an older epoch keep their EWMA as a display prior but are demoted to the scout pool ("stale") until re-measured under the new topology.
Sample hygiene: completions below min_sample_tokens (default 8) are rejected — the
1-token garbage responses from the ADR-0020 bug would otherwise poison arms with
meaningless tps values. Routes with no samples for 24 h are pruned.
Selection policy (choose_route)
- Scout (probability
explore_share, default 0.3): if any candidate is unproven / stale / decayed, route the request there — least-measured first, tiebreak on prior. These are the user's "discovery/scout routes". With no proven arms at all, selection is deterministic best-prior (matches the old benchmark-based behavior, keeps cold start sane and tests deterministic). - Exploit (otherwise): weighted random among proven arms with
P(route) ∝ tps^alpha,alphadefault 1.0 — a 1.5×-faster route gets 1.5× the traffic.alphais a config knob: >1 shifts toward winner-takes-most as the network matures, without redesign. (Proportional split is not throughput-optimal in queueing terms, but it keeps every arm warm with fresh samples; tune alpha up when traffic justifies it.)
Pinned routes ("route": [...] in the request body) bypass the bandit but still record
samples.
Configuration
| CLI flag | env var | default |
|---|---|---|
--route-explore-share |
MESHNET_ROUTE_EXPLORE_SHARE |
0.3 |
--route-weight-alpha |
MESHNET_ROUTE_WEIGHT_ALPHA |
1.0 |
--route-stats-half-life |
MESHNET_ROUTE_STATS_HALF_LIFE |
600 |
| — | MESHNET_ROUTE_MIN_SAMPLE_TOKENS |
8 |
High explore share now (development, few requests); drop toward 0.05–0.1 once real traffic provides passive coverage.
Visibility
GET /v1/routing(optionally?model=): per model — topology epoch and the full candidate table: hops, learned tps, coefficient (tps ÷ best proven route's tps), expected traffic share, sample count, decayed weight, status (proven / unsampled / stale / decayed).- Dashboard → Overview → "Routing (learned)": renders that table live (4 s poll), with the active config in the header line.
- Console/
proxy route selectedevents now include the routing decision ({"mode": "scout"|"exploit"|"pinned"|"greedy-fallback", "signature": …}), so the Call wall history shows which arm served each request.
Storage considerations
Stats are in-memory per tracker for alpha: they are cheap to relearn (a few requests per route), and gossiping them would import ADR-0019's consistency questions for data that is intentionally ephemeral. If multi-tracker route learning is needed later, ship route samples over the existing stats gossip and merge EWMAs by decayed weight — the store's (value, mass, timestamp) representation merges cleanly.
Consequences
- The GPU(0–21)+CPU(0–39) topology now works: both routes get measured, the coefficient is visible on the dashboard, and traffic shifts to whichever is actually faster.
- Routing is no longer deterministic once samples exist. Tests needing determinism seed
server.route_rngor rely on the cold-start deterministic path. - The billing-relevant fix: heads are always part of the planned route, so per-hop
start_layerand work-unit spans are consistent.
Verification
tests/test_dynamic_routing.py (11 tests): EWMA/decay/epoch semantics, near-empty sample
rejection, traffic split ≈ tps ratio at alpha=1 (0.6/0.4 over 4000 seeded draws), scout
rate ≈ explore share, mixed-topology enumeration (both routes, hybrid prior = bottleneck),
head-is-route-head regression with start_layer=22 on the hybrid route, and /v1/routing
table shape. Live: start both nodes, run several chats, open the dashboard "Routing
(learned)" panel and watch coefficients converge.