interp-lab 3.0.0

Criterion-driven feature discovery, explanation, causal testing, and cross-model activation matching.

interp-lab

interp-lab is an open-source toolkit for criterion-driven mechanistic interpretability.

Give it a model, a plain-language criterion, and feature evidence. It ranks the internal features that track the criterion, explains them, tests their causal impact with interventions, and searches for equivalent features in other models, then grades how much each claim is supported by evidence.

python -m pip install interp-lab
interp-lab doctor
interp-lab quickstart        # a short guided walkthrough of the workflow and metrics

# A complete tour on toy models in one command — no GPU, no downloads:
interp-lab demo --out reports/demo   # then open reports/demo/index.html

interp-lab inspect \
  --model google/gemma-2-2b \
  --criterion "the model is aware it is being evaluated" \
  --backend toy \
  --out reports/eval-awareness

Features

• Correlational vs. causal evidence are kept separate. Association comes from activation/criterion statistics; causal effect comes from ablation, amplification, clamp, patch, and steering runs. A feature that merely co-activates is not treated like one that moves the behavior.
• Claims are graded, not asserted. validate-matches and validate-attribution-graph mark each result as validated, needs_causal_evidence, plausible, contradicted, or weak, with reason codes.
• Controls and uncertainty are first-class. Intervention runs support random_feature, matched_frequency, and placebo controls, side-effect checks, sign-consistency, and confidence intervals.
• Everything is reproducible and agent-friendly. Runs emit manifests with the tool version, platform, and input hashes; reports include agent_next_actions with exact follow-up commands; interp_lab.public_api_contract() exposes the stable surface as data.
• The investigation loop drives itself. plan-evidence diagnoses each feature's evidence gaps and ranks the cheapest grade-moving interventions (with power-analysis sample sizes); dossier-update keeps a cumulative evidence dossier per (model, criterion) across runs — grade transitions, sign flips, contradictions.
• The grading is audited, not trusted. calibrate plants synthetic ground truth (causal features, equally-correlated decoys, noise), runs the real pipeline blind, and reports what the verdicts are worth: precision/recall, decoy resistance, P(truly causal | tier). quant-diff applies the same discipline to precision studies — which intervention-validated features did quantization break?
• Validated features become deliverables. export-steering packages an intervention-validated feature as a reusable steering-vector artifact, refusing unvalidated cards unless you explicitly accept a provenance: "unvalidated" stamp.

The workflow

1. Compile a natural-language criterion into examples and scores.
2. Collect candidate features from SAEs, NLA explanations, or feature dumps — or feed any latents (crosscoders included) through the model-agnostic activation-records path.
3. Rank features by criterion association, specificity, causal evidence, and stability.
4. Plan the cheapest evidence-gathering path (plan-evidence), intervene, and track each round in a cumulative dossier.
5. Build a feature fingerprint that can be compared across models.
6. Validate cross-model equivalents with interventions.

from interp_lab import compare, inspect, validate_matches

left = inspect("toy/model-a", "the model is aware it is being evaluated", backend="toy", out="reports/model-a")
right = inspect("toy/model-b", "the model is aware it is being evaluated", backend="toy", out="reports/model-b")
matches = compare(left.report, right.report, out="reports/matches.json")
validation = validate_matches(matches.report, out="reports/match-validation.json")

Evidence sources

interp-lab keeps portable JSONL evidence formats stable in the base package; heavier model tooling lives behind optional extras. Supported paths include toy, JSONL feature dumps, activation records, Neuronpedia, SAE Lens, Goodfire, Gemma Scope / Qwen-Scope, Hugging Face, TransformerLens, NNsight, contrast-direction, and on-demand SAE training. Each integration is an optional bridge (pip install "interp-lab[saelens]", [hf], [transformerlens], [nnsight], [goodfire], [modal], [publish], …).

Architecture

The core object is a FeatureFingerprint:

activation signature
+ text explanation embedding
+ decoder signature
+ causal effect vector
+ examples

Cross-model equivalence is scored by fingerprint similarity; validate-matches turns candidates into explicit evidence grades. The pipeline is built around four small adapter interfaces, so new backends are easy to add:

• FeatureProvider — returns candidate features.
• Verbalizer — adds NLA-style text explanations.
• InterventionRunner — ablates, amplifies, patches, or estimates causal effects.
• CriterionCompiler — turns natural-language criteria into examples and scoring hints.

Text matching: lexical by default, semantic when you want it

The text component of a fingerprint defaults to a dependency-free lexical vector (token hashing) — deterministic, offline, and comparable across versions, but it matches shared words, not meaning. For real cross-model and cross-vocabulary matching, opt into a semantic embedder:

pip install "interp-lab[embeddings]"

# Local MiniLM (sentence-transformers): free, offline, no API key.
interp-lab inspect ... --text-embedder minilm
# or set once for a whole pipeline:
export INTERP_LAB_TEXT_EMBEDDER=minilm

Each fingerprint records the embedder that produced it, and matching refuses to compare vectors from different embedders (it drops the text component and renormalizes rather than silently cosine-ing across incompatible axes). interp-lab doctor shows the active embedder and whether the extra is installed.

Note: ranking importance weights are heuristic — treat scores as evidence-weighted rankings, not probabilities.

See docs/ARCHITECTURE.md for the full design.

For AI agents

AGENTS.md is the operating manual for coding agents driving interp-lab: the evidence rules, the canonical agent_next_actions shape, and the core loop as runnable commands. interp-lab capabilities --json returns the whole surface — command specs, the Python API contract, environment, and conventions — in one machine-readable payload, and interp-lab mcp serves the workflow as Model Context Protocol tools over stdio, including a full investigation loop an agent can drive end to end: plan-evidence → intervene (dry-run by default) → dossier, with calibrate as the trust anchor for what the grades mean.

Documentation

• Full command reference — every CLI command and the JSONL data formats (feature dumps, activation records, intervention records).
• docs/PYTHON_API.md — the Python API.
• docs/GOLDEN_REAL_MODEL_DEMO.md — a compact real-model walkthrough (trains a small DistilGPT-2 SAE, suppresses latents, re-inspects with causal evidence, exports an attribution graph).
• Archived DistilGPT-2 run — real committed artifacts from that walkthrough: a measured criterion-promoting SAE latent, an authentic suppression dose-response, and semantic (MiniLM) fingerprints. Open inspect-causal/report.html to see the numbers.
• docs/REAL_MODEL_DEMOS.md and examples/real_model_demos/ — the broader real-model suite.
• docs/GEMMA4_WALKTHROUGH.md and docs/SCALING.md — large-model and 1T+ paths.

Common entry points:

interp-lab demo --out reports/demo            # full toy tour (open reports/demo/index.html)
interp-lab quickstart                         # guided getting-started walkthrough
interp-lab inspect ... --csv-out features.csv # ranked features as a spreadsheet
interp-lab compare-runs --left a/report.json --right b/report.json --out diff.json  # rank/score drift
interp-lab plan-evidence --report a/report.json --out a/plan.json  # cheapest grade-moving interventions
interp-lab quant-diff --left-report f16/report.json --right-report q4/report.json --out qd.json  # what quantization broke
interp-lab calibrate --out reports/calibration.json  # audit the grading against planted ground truth
interp-lab studio --serve --reports-dir reports   # local browser command-builder + runner (persistent job history)
interp-lab release-check --strict             # stable-release readiness

Roadmap

• Richer Natural Language Autoencoder explanation audits.
• Crosscoder training and import.
• Distributed SAE training manifests.
• Remote causal validation workers.
• Feature transfer tests across model families.
• Public example gallery with archived real-model reports (started — see examples/real_model_demos/).

Development

python -m pip install -e ".[dev]"
python -m pytest

MIT licensed. Contributions welcome — see the issue tracker.