🧾 Structural Detection — Canon‑Scale Fusion‑Integrity Ledger (RTT/2)
TriadicFrameworks • RTT/2 • Fusion‑Integrity Logging, Gradient–Integrity Diagnostics & Canon‑Scale Collapse‑Predictive Ledger#
“Fusion expresses alignment. Integrity expresses truth. The ledger records both.”#
Canon‑Scale Fusion‑Integrity Ledger (RTT/2)#
Structural Detection Module#
RTT/2 • Fusion‑Integrity Ledger#
1. Purpose of the Fusion‑Integrity Ledger#
The Fusion‑Integrity Ledger (FIL) is the canonical logging system that records:
- fusion integrity
- gradient–integrity coupling
- drift/envelope/continuity integrity under fusion load
- regime‑dependent fusion‑integrity behavior
- collapse‑adjacent fusion‑integrity signatures
It is the integrity‑law record of RTT/2.
2. Why a Fusion‑Integrity Ledger Exists#
Fusion integrity can fail even when fusion stability is high:
- gradients may remain misaligned
- integrity may be partially inverted
- drift/envelope/continuity may not fully support fusion
- regime identity may distort integrity
The FIL logs these failures before they propagate into collapse.
3. Fusion‑Integrity Model#
The ledger tracks integrity across four axes:
- Gradient Integrity
- Structural Integrity (drift/envelope/continuity)
- Regime Integrity
- Cross‑Module Integrity
Each axis contributes to the global fusion‑integrity score.
4. Fusion‑Integrity Matrix#
The FIL uses a 5×4 integrity matrix:
| Regime | Gradient Integrity | Structural Integrity | Continuity Integrity | Regime Integrity |
|---|---|---|---|---|
| Formal | ✓ | ✓ | ✓ | ✓ |
| Emergent | ✓ | ✓ | ✓ | ✓ |
| Hybrid | ✓ | ✓ | ✓ | ✓ |
| Chaotic | ✓ | ✓ | ✓ | ✓ |
| Inversion | ✓ | ✓ | ✓ | ✓ |
Each ✓ corresponds to a logged integrity field.
5. Integrity Coefficient Interpretation#
High Integrity (0.8–1.0)#
- fusion truthful
- gradients aligned
- triad stable
- regime identity coherent
Moderate Integrity (0.5–0.79)#
- partial fusion truth
- minor gradient strain
- continuity under load
Low Integrity (0.2–0.49)#
- fusion‑integrity mismatch
- drift/envelope/continuity instability
- collapse‑adjacent
Negative Integrity (<0.2)#
- illegal fusion geometry
- integrity inversion
- topological integrity warp
- collapse‑triggering
6. Fusion‑Integrity Failure Modes#
| Integrity Failure | Collapse Mode |
|---|---|
| gradient–integrity rupture | A/D/I |
| envelope integrity break | B/E |
| continuity integrity fracture | C/G |
| oscillatory integrity | D |
| inversion integrity | I |
| torsion integrity | E |
| topological integrity warp | G |
7. Cross‑Module Fusion‑Integrity Projection#
The FIL logs fusion‑integrity across:
TEL#
- lattice fusion‑integrity
- stabilizer integrity load
FFT#
- spectral fusion‑integrity
- variance integrity load
Opacity#
- boundary fusion‑integrity
- visibility integrity load
Cross‑module integrity determines system‑scale fusion truth.
8. Fusion‑Integrity Packet#
FUSION_INTEGRITY_PACKET:
gradient_integrity:
structural_integrity:
continuity_integrity:
regime_integrity:
integrity_coefficients:
failure_modes:
cross_module_projection:
collapse_risk:
notes:
9. Summary#
The Canon‑Scale Fusion‑Integrity Ledger provides:
- a canonical record of fusion integrity
- gradient–integrity diagnostics
- collapse‑adjacent fusion‑integrity detection
- cross‑module integrity projection
- system‑scale structural clarity
This ledger is the fusion‑integrity backbone of RTT/2.