Turn Claude Code into its own Meta-Harness — evolve the scaffolding around a fixed model, natively.
-555){kind=icon}
Harness Forge is a Claude Code skill that runs an end-to-end harness-optimization loop — propose → score → keep the Pareto-best → repeat — to improve the code around a fixed model: its memory, retrieval, context construction, summarization, prompt templates, and tool-selection logic. The model never changes; the scaffolding gets better.
It is a native reimplementation of the method in
Meta-Harness: End-to-End Optimization of Model Harnesses
(Lee, Nair, Zhang, Lee, Khattab & Finn, 2026). The original
reference repo ships ~1,260 lines of Python
(claude_wrapper.py + meta_harness.py) whose job is to drive a headless Claude: spawn a
session, parse its output, track tool calls, log everything, loop. Inside Claude Code, that
runtime already exists as first-class tools. So Harness Forge keeps only the irreducible domain
logic — a cheap scorer — and expresses the entire outer loop as native orchestration. The whole
search becomes ~75 lines instead of ~1,260.
seed the frontier with the incumbent harness (the thing to beat)
repeat:
PROPOSE k candidate harness variants ← parallel proposer agents write code
VALIDATE each imports / type-checks
SCORE each on a held-out-protected eval ← a $0, deterministic scorer
FRONTIER Pareto-merge: quality up, cost down, floor-respecting
final: score the frontier once on the untouched test split
The proposer is the mutation operator. The frontier is the search memory. The model is frozen throughout — which is exactly why this fits a fixed / off-the-shelf-API deployment, where you can't change the weights and the gain has to come from the harness.
The paper's headline result was +7.7 accuracy points at ~4× fewer context tokens on text classification — a pure harness-side win. Harness Forge reproduces that shape of result natively.
claude_wrapper.py is a hand-rolled agent runtime. Claude Code is an agent runtime. So every
orchestration piece has a native equivalent, and the Python driver becomes redundant:
| Meta-Harness (Python) | Harness Forge (native) |
|---|---|
claude_wrapper.run() — drive a headless Claude |
Agent / agent() inside a Workflow |
meta_harness.py outer loop |
a Workflow script (parallel / while) |
pending_eval.json handshake |
a typed schema return — no file round-trip |
evolution_summary.jsonl / frontier.json |
workflow variables + a results JSONL |
SKILL.md proposer prior |
a skill / prior file the proposer agent reads |
| "run N iterations" | the workflow loop, /loop, or CronCreate |
| 3 candidates / iteration (serial) | parallel() — proposers run concurrently |
inner_loop.py scorer |
stays a script — the one irreducible piece |
The only thing you still write is the cheap scorer + rubric + candidate interface. Everything orchestration-shaped is free.
1. Install the skill — one line:
curl -fsSL https://raw.githubusercontent.com/001TMF/harness-forge/main/install.sh | bashOr as a Claude Code plugin (inside Claude Code):
/plugin marketplace add 001TMF/harness-forge
/plugin install harness-forge@tmf-skills
Other ways
# project-scoped (./.claude/skills, this repo only)
curl -fsSL https://raw.githubusercontent.com/001TMF/harness-forge/main/install.sh | bash -s -- --project
# via skills.sh (vercel-labs/skills)
npx skills add 001TMF/harness-forge --skill meta-harness -a claude-code
# manual
git clone https://github.com/001TMF/harness-forge.git
cp -r harness-forge/skills/meta-harness ~/.claude/skills/meta-harnessIt auto-triggers when you talk about optimizing a harness, scaffold, prompt system, memory or
retrieval policy, or summarizer — or invoke it directly as the meta-harness skill.
2. Run the worked example ($0, no model, no network):
cd harness-forge/examples/memory-summary
python score_baselines.py
# -> baseline_incumbent fidelity=1.000 chars=269 (the system to beat)3. Run a real search — invoke the Workflow tool with the example's loop script:
Workflow({ scriptPath: "<abs>/examples/memory-summary/native_meta_harness_workflow.js",
args: { dir: "<abs>/examples/memory-summary", rounds: 2, k: 3 } })
Proposer agents run on your Claude subscription; the scorer is $0; there is no solver model and no metered API. A successful round produces a compressor holding fidelity at < 269 chars.
The loop is native; the domain is yours. Templates are in
skills/meta-harness/assets/; how-to is in
references/building-blocks.md:
- Candidate interface — one clean, swappable boundary (an ABC / Protocol).
- A $0 deterministic scorer + rubric — the inner loop; runs hundreds of times, so no LLM, no network. It must vary with the candidate (see the trap below).
- An eval corpus with a held-out split.
- A proposer prior — a mini-skill steering proposers toward mechanism-level changes (not constant-tuning) and forbidding eval-set leakage.
- A frontier + run log — the state.
scripts/pareto.pycomputes the floor-respecting frontier deterministically.
The frozen-replay defect. If your scorer replays cached outputs (a recorded run, a frozen trace), a scaffolding candidate cannot change the recorded result — only the cost axis moves. A naive "maximize quality, minimize cost" search then wins by emptying the context while the frozen quality score never drops, producing a confident, meaningless frontier.
Test: "If I swap in a wildly different candidate, can this number change for a quality reason?" If only cost can move, you are replaying frozen outputs.
Fix: grade something the candidate genuinely controls (retrieval relevance, compression
fidelity, a counterfactual decision), and/or run quality as a one-sided do-no-harm floor rather
than a maximize axis. The skill makes this — plus held-out discipline, an anti-Goodhart floor, and
anti-leakage — load-bearing. Full treatment in
references/method.md.
harness-forge/
├── .claude-plugin/marketplace.json # installable as a Claude Code plugin
├── install.sh # one-line curl|bash install
├── skills/
│ └── meta-harness/ # the installable skill
│ ├── SKILL.md # what/when, the loop, the 5 blocks, the guardrails
│ ├── references/ # method · native-execution · building-blocks · worked example
│ ├── assets/ # templates: workflow loop, scorer, interface, proposer prior
│ └── scripts/pareto.py # reusable floor-respecting Pareto frontier
└── examples/
└── memory-summary/ # a complete, runnable search (the $0 demo + the native loop)
Use it when the base model is fixed, there are repeated tasks, and a cheap measurable eval exists (or can be built) — i.e. the gain has to come from the harness. Classic targets: context bloat, weak retrieval, lossy summarization, brittle prompt scaffolds.
Don't when the gain must come from the model weights (do RL / fine-tuning instead), or when
there is no stable evaluation loop. Meta-Harness and RL are complementary: in a fixed-base-model
phase, Harness Forge is the only available optimizer — and it forces the eval-hardening a later
RL phase also depends on, at near-zero cost. See
references/method.md §6.
The method is Meta-Harness by Yoonho Lee, Roshen Nair, Qizheng Zhang, Kangwook Lee, Omar Khattab, and Chelsea Finn. This repo is an independent native reimplementation as a Claude Code skill; it vendors no code from the original repo. If you use it, please cite the paper:
@misc{lee2026metaharnessendtoendoptimizationmodel,
title={Meta-Harness: End-to-End Optimization of Model Harnesses},
author={Yoonho Lee and Roshen Nair and Qizheng Zhang and Kangwook Lee and Omar Khattab and Chelsea Finn},
year={2026},
eprint={2603.28052},
archivePrefix={arXiv},
primaryClass={cs.AI},
url={https://arxiv.org/abs/2603.28052},
}- Paper: https://arxiv.org/abs/2603.28052
- Reference implementation: https://github.com/stanford-iris-lab/meta-harness
MIT © 2026 Tristan Farmer