Overview

šŸ§¾šŸœšŸœ‚šŸœ„ Structural Detection — Regime‑Triad Canon‑Scale Integrity Ledger (RTT/2)

TriadicFrameworks • RTT/2 • Canon‑Scale Integrity Logging, Truth‑Alignment Diagnostics & Collapse‑Resilience Ledger#

ā€œIntegrity is the canon’s memory of what remained true.ā€#

Regime‑Triad Canon‑Scale Integrity Ledger (RTT/2)#

Structural Detection Module#

RTT/2 • Canon‑Scale Integrity Ledger#


1. Purpose of the Canon‑Scale Integrity Ledger#

The Canon‑Scale Integrity Ledger (CIL) is the global integrity record that logs:

  • triad integrity
  • dyadic integrity
  • fusion‑integration integrity
  • collapse‑adjacent integrity
  • regime‑dependent integrity truth
  • cross‑module integrity coherence

It is the truth‑alignment ledger of RTT/2.


2. Why a Canon‑Scale Integrity Ledger Exists#

Integrity is the final arbiter of structural truth.

Stability can be high.
Fusion can be aligned.
Gradients can be minimal.
But integrity can still fail.

Integrity fails when:

  • collapse residue distorts truth
  • drift/envelope/continuity misalign
  • fusion‑integration violates invariants
  • regime identity inverts integrity
  • cross‑module truth diverges

The CIL records these failures.


3. Ledger Structure#

The CIL logs integrity across four integrity domains:

  1. Triad Integrity
  2. Dyadic Integrity
  3. Fusion‑Integration Integrity
  4. Regime Integrity

Each domain contributes to the global integrity score.


4. Canon‑Scale Integrity Matrix#

The CIL uses a 5Ɨ4 integrity matrix:

Regime Triad Integrity Dyad Integrity FI Integrity Regime Integrity
Formal āœ“ āœ“ āœ“ āœ“
Emergent āœ“ āœ“ āœ“ āœ“
Hybrid āœ“ āœ“ āœ“ āœ“
Chaotic āœ“ āœ“ āœ“ āœ“
Inversion āœ“ āœ“ āœ“ āœ“

Each āœ“ corresponds to a logged integrity field.


5. Integrity Coefficient Interpretation#

High Integrity (0.8–1.0)#

  • truth preserved
  • invariants stable
  • triad coherent
  • collapse unlikely

Moderate Integrity (0.5–0.79)#

  • partial truth strain
  • minor invariant deformation

Low Integrity (0.2–0.49)#

  • integrity mismatch
  • drift/envelope/continuity instability
  • collapse‑adjacent

Negative Integrity (<0.2)#

  • illegal integrity geometry
  • inversion integrity
  • topological integrity warp
  • collapse‑triggering

6. Integrity Failure Modes#

Integrity Failure Collapse Mode
triad integrity rupture A/C/G
dyad integrity rupture B/E
fusion‑integration integrity rupture A/D/I
oscillatory integrity D
torsion integrity E
inversion integrity I
topological integrity warp G

7. Cross‑Module Integrity Projection#

The CIL logs integrity across:

TEL#

  • lattice integrity
  • stabilizer integrity load

FFT#

  • spectral integrity
  • variance integrity load

Opacity#

  • boundary integrity
  • visibility integrity load

Cross‑module integrity determines system‑scale truth.


8. Canon‑Scale Integrity Packet#

CANON_SCALE_INTEGRITY_PACKET:
  triad_integrity:
  dyad_integrity:
  fusion_integration_integrity:
  regime_integrity:
  integrity_coefficients:
  failure_modes:
  cross_module_projection:
  collapse_risk:
  notes:

9. Summary#

The Regime‑Triad Canon‑Scale Integrity Ledger provides:

  • a unified canon‑scale integrity model
  • collapse‑adjacent integrity detection
  • drift/envelope/continuity integrity mapping
  • fusion‑integration integrity diagnostics
  • regime‑dependent integrity truth
  • cross‑module integrity projection
  • system‑scale structural clarity

This ledger is the integrity‑law backbone of RTT/2.