| # Pre‑Emergence Mechanics Framework (PEMF) — ARC‑AGI |
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| Short summary |
| The Pre‑Emergence Mechanics Framework (PEMF) frames ARC tasks as a boundary‑constrained field problem solved by minimizing irreducible residue (o) under writability gates. PEMF implements four core primitives — **Scalar Potential (+)**, **Gradient Ordering (V)**, **Residue (o)**, and **Boundary Charge (p_q)** — and composes atomic transforms (tile, shifted tile, fill_enclosed, rotate, reflect, etc.) in a beam search to drain residue and produce stable outputs. |
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| Why this matters |
| PEMF shows how ARC tasks can be solved mechanically (o‑minimization + gates) rather than by symbolic heuristics. The approach maps CTS/ITT primitives to executable operators (potential fields, gradients, Dirichlet masks, complex projections) and yields a reproducible solver recipe. |
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| Key concepts (one line each) |
| - **Scalar Potential (+):** represent grid as numeric potential field (initialize_potential). |
| - **Gradient Ordering (V):** discrete gradients direct admissible edits. |
| - **Residue (o):** L1 misalignment after quantize+tile; objective to minimize. |
| - **Boundary Charge (p_q):** Dirichlet boundary mask that enforces writability gates. |
| - **Layer‑1 diagnostics:** complex projection (FFT imag component) to find latent edit zones when real signal is weak. |
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| Files and examples |
| - **Skill artifacts:** `SKILLS/pre_emergence_mechanics_framework/` — howto, runnable example `references/examples/verify_pemf.py`, and README for the skill. |
| - **Postprocess logs:** `experiments/postprocess_logs.py` — coerce gate booleans and attach candidate snapshots for offline inspection. |
| - **Headless entry:** `scripts/entrypoint.py` — run experiments from CLI; `--use_wandb` flag is optional and defaults to off. |
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| Quick verification (headless) |
| 1. Run the PEMF example to verify primitives and a tiny compositional loop: |
| ```bash |
| python SKILLS/pre_emergence_mechanics_framework/references/examples/verify_pemf.py |
| ``` |
| 2. Run a single experiment (example): |
| ```bash |
| python scripts/entrypoint.py --task example1 --out_dir experiments |
| ``` |
| 3. Postprocess logs to attach candidate snapshot and coerce gates: |
| ```bash |
| python experiments/postprocess_logs.py |
| ``` |
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| Acceptance checks |
| - `verify_pemf.py` prints a residue trace and reports at least one admissible edit zone from the complex projection. |
| - `experiments/*_phi_best.npy` and `experiments/*_logs.fixed.json` exist after a run and contain candidate snapshot and boolean gates for inspection. |
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| References and provenance |
| This README summarizes the executable PEMF recipe derived from the ARC‑AGI exposition (PEMF / CTS / ITT). See `SKILLS/pre_emergence_mechanics_framework/references/` for runnable examples and a step‑by‑step how‑to. |
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