topology-accurate-self-correction-is-quality-complete
OUT derived (depth 11)
Self-correction achieves quality completeness on accurate convergent topology — every correction is grounded, documented, convergent, evolution-tolerant, and propagates through complete dependency tracking to deterministic stable states.
Summary
When the system corrects itself, every correction meets all quality standards at once — it traces real dependencies, reaches a stable outcome, leaves an audit trail, and holds up as the system changes — without sacrificing any of those properties for another. This is currently retracted because one of its supporting claims no longer holds, meaning the system cannot yet guarantee that self-correction is fully reliable across all these dimensions simultaneously.
Justifications
SL — Quality completeness of self-correction (all dimensions) combined with topological accuracy of all corrections (complete dependency tracking with convergence)
Antecedents (all must be IN):
- self-correction-is-complete-across-all-quality-dimensions — Self-correction simultaneously achieves all quality dimensions: concretely grounded in source integrity verification, fully documented with referenceable artifacts, convergent to accurate topology, tolerant of system evolution at all boundaries, and structurally and resource sustainable — no quality dimension is achieved at the expense of another.
- all-corrections-converge-on-accurate-topology — Both intentional corrections (dialectical dispute resolution with complete and reliable challenge/defend) and automated corrections (exhaustive self-correction spanning the full lifecycle) propagate through topology that is simultaneously accurate (complete dependency tracking) and convergent (deterministic stable states), meaning all correction paths — human-initiated and system-driven — reach the same equilibrium through faithful graph traversal.
Dependents
These beliefs depend on this one:
- external-lifecycle-achieves-topology-accurate-quality — External beliefs receive quality-complete self-correction that operates on accurate convergent topology — every correction to an externally-originated belief propagates through verified dependency structure with complete fidelity, ensuring external belief quality is maintained with the same topological accuracy as internal beliefs.