Chamber LII v1.3.2

SAIF with Curvature-Responsive Bifurcation Dynamics

Position in Program:

Purpose: Validate mechanism-dependent regime physics via γ₀ sweep with baseline comparison.
Research Phase: Mechanism Differentiation Proof
Critical Fixes: Angle wrap + π-symmetry, percentile normalization, base-surface anisotropy, shared-seed baseline

🎯 v1.3.1 Surgical Corrections Applied:

Angle Math: Wrapped δφ with π-periodicity (boundary normal symmetry)
Robust Normalization: p95 percentile instead of max (stable across resolutions)
Base-Surface Anisotropy: Computed on pre-interaction geometry (no circularity)
Shared-Seed Baseline: Flat field uses same RNG path + marginals (no sampling jitter)
Multi-Metric MCI: Vector MCI (Cov≥0.10, Cov≥0.20, neg-mass, map distance)
Emergence Criterion: SAIF beats flat baseline + curvature increase required

Mechanism Differentiation Test: Execute γ₀ sweep [0.1 → 1.0] across all pairs. Success = different transition thresholds per pair + nontrivial MCI(γ₀) curve.

⚠ Known Limitation: Curvature proxy (κ) uses sequential boundary traversal, which is resolution-sensitive and not geometrically invariant. Use κ comparisons (SAIF vs baseline) cautiously. Emergence criterion requires Δκ > 0.05 to reduce sensitivity.

1. Select Pairwise Configuration

2. SAIF Parameters

SAIF Mode:

Base Field Strength (γ₀):

Curvature Sensitivity (a):

Anisotropy Sensitivity (b):

Gradient Sensitivity (c):

Chamber LII v1.3.2

1. Select Pairwise Configuration

2. SAIF Parameters

3. Execution & Data Management

4. Data Export Pack

Execution Status

Mechanism Contrast Metrics

Geometry Observables

Regime Diagnostics

SAIF vs Flat Baseline Comparison

Emergence Assessment

Interaction Geometry

Joint Probability (SAIF)

Non-Additive Residual (Δ signed)

Anisotropy Field (f_aniso)

Mechanism Differentiation Analysis

Atlas Index: All Executions