5d49967833
Phase 1c-only tracing (commit 7e6431e) was the proof-of-concept. This commit threads tracing through every phase: baseline / fresh- resume / inbox burst / surge / swap / merge / handover (verbatim + paraphrase) / split / reissue. Each phase is a parent span; each matrix.search / LLM call inside is a child span. Refactor: - One run-level trace is created at driver startup. - New startPhase(name, hour, meta) helper emits a phase span as a child of the run trace; subsequent emitSpan calls nest under it. - New tracedSearch(spanName, query, corpora, ...) wraps matrixSearch with span emission. Every search call site replaced with this so the input/output JSON (query, corpora, k, playbook, exclude_n → top-K ids, top1 distance, boost/inject counts) lands in Langfuse. - Phase 4b's paraphrase generation also emits llm.paraphrase spans. - Phase 1c's existing inline span emission converted to use the new helpers (no more inboxTraceID variable). Run #011 result: trace landed at http://localhost:3001 with 111 observations attached. Span breakdown: phase.* parents: 9 (one per phase that ran) matrix.search.baseline: 10 matrix.search.fresh_verify: 3 (top-1 confirmed for all 3 fresh) observerd.inbox.record: 6 llm.parse_demand: 6 matrix.search.inbox: 6 llm.judge_top1: 6 matrix.search.surge: 12 matrix.search.swap_orig: 1 matrix.search.swap_replace: 1 matrix.search.merge: 6 matrix.search.handover_verbatim: 4 llm.paraphrase: 4 matrix.search.handover_paraphrase: 4 matrix.search.split: 4 matrix.search.reissue: 12 matrix.search.reissue_retrieval_only: 12 ───────────── Total: 111 Browse: http://localhost:3001 → Traces → "multi_coord_stress run" Each phase is a collapsible section showing per-call timing and input/output JSON. Operators can drill into any single retrieval to see exactly what query was issued and what came back. All other metrics held: diversity 0.026, determinism 1.000, verbatim handover 4/4, paraphrase handover 4/4, fresh-resume 3/3 at top-1 (two-tier index), 200-worker swap Jaccard 0.000. This is the FULL TEST J asked for — every action in the run visible in Langfuse, full input/output drilldown. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
reports/reality-tests — does the 5-loop substrate actually work?
Reality tests measure product outcomes, not substrate health. The 21 smokes prove the system runs; the proof harness proves the system makes the claims it claims; reality tests answer: does the small-model pipeline + matrix indexer + playbook give measurably better results than raw cosine?
This is the gate from project_small_model_pipeline_vision.md: "the playbook + matrix indexer must give the results we're looking for." Single load-bearing criterion. Throughput, scaling, code elegance are secondary.
What lives here
Each reality test is a numbered run that produces:
<test>_<NNN>.json— raw structured evidence (per-query data, summary metrics)<test>_<NNN>.md— human-readable report with headline metrics, per-query table, honesty caveats, next moves
Runs are append-only. Earlier runs stay in tree as historical baseline.
Test catalog
playbook_lift_<NNN> — does the playbook actually lift the right answer?
Driver: scripts/playbook_lift.sh → bin/playbook_lift
Queries: tests/reality/playbook_lift_queries.txt
Pipeline: cold pass → LLM judge → playbook record → warm pass → measure ranking shift.
The headline question: when the LLM judge finds a better answer than cosine top-1, can the playbook boost it to top-1 on the next run? If yes, the learning loop closes; if no, the matrix layer + playbook is infrastructure for a thesis that doesn't pay rent.
See the run reports for honesty caveats — chiefly that the LLM judge IS the ground-truth proxy.
Running a reality test
# Defaults: judge resolved from lakehouse.toml [models].local_judge,
# workers limit 5000, run id 001
./scripts/playbook_lift.sh
# Re-run with a different judge to check inter-judge agreement
# (env JUDGE_MODEL overrides the config tier)
JUDGE_MODEL=qwen3:latest RUN_ID=002 ./scripts/playbook_lift.sh
# Smaller scale for fast iteration
WORKERS_LIMIT=1000 K=5 RUN_ID=dev ./scripts/playbook_lift.sh
Judge resolution priority (Phase 3, 2026-04-29):
-judgeflag on the Go driver (explicit override)JUDGE_MODELenv var (operator override)lakehouse.toml [models].local_judge(default)- Hardcoded
qwen3.5:latest(last-resort fallback if config missing)
This means model bumps land in lakehouse.toml, not in this script or
the Go driver. Bumping local_judge to a stronger local model (e.g.
when qwen4 ships) takes one line.
Requires: Ollama on :11434 with nomic-embed-text + the resolved judge
model loaded. Skips cleanly (exit 0) if Ollama is absent.
Interpreting results
Three thresholds matter on the playbook_lift tests:
| Lift rate (lifts / discoveries) | Verdict |
|---|---|
| ≥ 50% | Loop closes — playbook is doing real work, move to paraphrase queries |
| 20-50% | Lift exists but inconsistent — investigate boost math (score × 0.5) or judge variance |
| < 20% | Loop is not pulling its weight — diagnose before adding more components |
A separate concern: discovery rate (cold judge-best ≠ cold top-1). If discovery is itself rare (< 30% of queries), cosine is already close to optimal on this query distribution and the matrix+playbook layer has little headroom. That's not necessarily a bug — but it means the value gate has to come from somewhere else (multi-corpus retrieval, domain-specific tags, drift signal).
What this is not
- Not a benchmark. No comparison against external systems; only internal cold-vs-warm.
- Not a regression gate. Each run is a snapshot. Scores will drift with corpus changes, judge updates, and playbook math tuning. Don't wire
just verifyto demand a minimum lift. - Not human-validated. The LLM judge is the ground truth proxy. Sample 5-10 verdicts manually per run to sanity-check the judge isn't pathological.