šļø Structural Detection ā Canon Ledger (RTT/2 Archival System)
TriadicFrameworks ⢠RTT/2 ⢠Permanent Canon Record & Lineage Archive#
āA canon survives only when its memory is structured.ā#
Canon Ledger (RTT/2 Archival System)#
Structural Detection Module#
RTT/2 ⢠Permanent Canon Record & Lineage Archive#
1. Purpose of the Canon Ledger#
The Canon Ledger is the authoritative archival system for:
- recording all canonical changes
- preserving lineage across module generations
- documenting crossāmodule integrations
- tracking collapseāmode corrections
- archiving patternāfamily expansions
- maintaining a permanent structural record
The Ledger ensures that the canon remains:
- traceable
- auditable
- reversible
- lineageāconsistent
- driftāfree
2. Ledger Principles#
The Canon Ledger is governed by five principles:
-
Immutability
Once recorded, entries cannot be altered ā only superseded. -
Lineage Continuity
Every change must reference its lineage origin. -
Structural Transparency
All architectural decisions must be documented. -
CrossāModule Traceability
Every change must list affected modules. -
Drift Prevention
Ledger entries must include driftārisk analysis.
3. Ledger Entry Types#
The Ledger records seven categories of canonical events:
- Operator Updates
- Pattern Family Additions (AāG and beyond)
- Envelope Geometry Revisions
- Regime Logic Updates
- Continuity Architecture Changes
- CrossāModule Integration Events
- CollapseāMode Corrections
Each category has its own required fields.
4. Ledger Entry Structure (Canonical)#
Every entry must follow the CANON_LEDGER_ENTRY format:
CANON_LEDGER_ENTRY:
entry_id:
timestamp:
steward:
category:
description:
lineage_origin:
structural_justification:
drift_risk:
envelope_regime_alignment:
continuity_impact:
cross_module_impact:
collapse_mode_impact:
validation_results:
ratification_status:
supersedes:
notes:
5. Ledger Lifecycle#
Ledger entries follow a strict lifecycle:
- Draft ā created by a steward
- Review ā evaluated by RTT/2 panel
- Validation ā stressātested and sandboxātested
- Ratification ā unanimously approved
- Publication ā added to the Ledger
- Supersession ā older entries replaced when necessary
No entry may skip a stage.
6. Ledger Validation Requirements#
Before an entry is ratified, it must pass:
6.1 Structural Validation#
- drift geometry
- envelope geometry
- deformation class
- continuity behavior
- regime alignment
6.2 CrossāModule Validation#
- TEL lattice stability
- FFT variance stability
- Opacity boundary stability
6.3 CollapseāMode Validation#
- collapseāmode simulation
- breakāchain tracing
- recovery viability
6.4 PatternāSynthesis Validation#
- Stress Harness
- Sandbox adversarial tests
If any validation fails ā entry rejected.
7. Ledger Supersession Rules#
A Ledger entry may be superseded only when:
- a new entry provides a structurally superior model
- lineage remains intact
- coherence remains stable
- drift is not introduced
- collapseāmodes remain predictable
Supersession must be explicitly recorded:
supersedes: <entry_id>
8. Ledger Index Structure#
The Ledger is organized into four indices:
8.1 Structural Index#
- operators
- envelopes
- regimes
- continuity architectures
8.2 Pattern Index#
- pattern families AāG
- subāpatterns
- collapseāmodes
- synthesis templates
8.3 Module Index#
- Structural Detection
- TEL
- FFT
- Opacity
- Resilience Checker
- Paradoxes Canon
- LowāDimensional Structures
8.4 Evolution Index#
- Canon Change Proposals
- Evolution Dossier references
- Stewardship actions
- Audit results
9. Ledger Audit Protocol#
The Ledger is audited:
- annually
- after any major canonical change
- after any crossāmodule update
- after any new pattern family integration
Audits verify:
- lineage continuity
- structural correctness
- crossāmodule coherence
- collapseāmode stability
- drift absence
10. Ledger Packet Template#
CANON_LEDGER_PACKET:
entries:
- entry_id:
category:
summary:
lineage_origin:
structural_changes:
module_changes:
collapse_mode_changes:
validation_summary:
ratification_status:
audit_status:
notes:
11. Summary#
The Canon Ledger ensures:
- the canon is permanently recorded
- lineage is preserved
- evolution is traceable
- drift is prevented
- coherence is maintained
- structural decisions are auditable
The Ledger is the archival backbone of RTT/2 governance.