MR_Standards

Invariants • Safety Rules • Operator Requirements • Dimensional Constraints#

Module: Morphic Resonance
Canon: RTT
Version: 1.0
Author: Nawder Loswin

1. Purpose of this standards file#

This file defines the invariants, safety rules, operator constraints, and dimensional requirements that govern all reasoning, modeling, and simulation involving Morphic Resonance in RTT.

It ensures:

• zero drift
• dimensional consistency
• operator correctness
• cross‑temporal safety
• stable propagation
• coherent inheritance
• AI‑parsable structure

This file is binding for all modules that import or extend Morphic Resonance.

2. Core invariants#

These invariants must always hold:

Invariant 1 — No metaphysics#

All explanations must remain dimensional, geometric, and computable.
No fields, telepathy, psi, or non‑physical mechanisms.

Invariant 2 — Coherence is the only currency#

All effects arise from changes in coherence, not energy, force, or information transfer.

Invariant 3 — Attractors are geometric#

Attractors are dimensional basins, not objects, memories, or stored patterns.

Invariant 4 — Propagation is cross‑temporal#

Propagation occurs across time, not across space.

Invariant 5 — Drift is always present#

Drift is a universal counter‑force that erodes unused patterns.

Invariant 6 — Activation history shapes the substrate#

Every activation event modifies the dimensional substrate.

Invariant 7 — Mass activation amplifies coherence#

Large‑scale simultaneous activation produces coherence surges.

Invariant 8 — Inheritance is dimensional, not genetic#

Patterns persist through coherence, not DNA.

3. Safety rules#

These rules prevent misuse, misinterpretation, or drift.

Rule 1 — No mystical interpretations#

All reasoning must remain grounded in dimensional compute.

Rule 2 — No teleological claims#

Patterns do not “want,” “intend,” or “seek” anything.

Rule 3 — No anthropomorphism#

Attractors are not agents.

Rule 4 — No causal overreach#

Coherence increases probability, not certainty.

Rule 5 — No retrocausal claims#

Propagation is cross‑temporal but not backwards‑causal.

Rule 6 — No identity leakage#

Patterns do not carry content, only coherence gradients.

Rule 7 — No infinite attractors#

All attractors must have finite depth and finite drift resistance.

4. Operator requirements#

All MR operators must satisfy:

Requirement 1 — Dimensional consistency#

Operators must preserve dimensional structure.

Requirement 2 — Coherence monotonicity#

Operators that increase coherence must do so monotonically.

Requirement 3 — Drift compatibility#

Operators must account for drift forces.

Requirement 4 — Temporal locality#

Operators must specify their temporal window.

Requirement 5 — Attractor alignment#

Operators must not create attractors that violate substrate geometry.

Requirement 6 — Propagation clarity#

Propagation operators must specify direction, strength, and decay.

Requirement 7 — Inheritance boundaries#

Inheritance operators must define generational scope.

5. Dimensional constraints#

These constraints define the allowable geometry.

Constraint 1 — Attractor curvature#

Attractor basins must be smooth, continuous, and differentiable.

Constraint 2 — Coherence gradient shape#

Gradients must be monotonic toward the attractor core.

Constraint 3 — Drift vector field#

Drift must be representable as a continuous vector field.

Constraint 4 — Propagation filaments#

Filaments must follow geodesics in the dimensional substrate.

Constraint 5 — Activation density#

Activation density must be finite and integrable.

Constraint 6 — Surge thresholds#

Mass‑activation surges must have explicit coherence thresholds.

Constraint 7 — Inheritance depth#

Dimensional inheritance must specify maximum temporal reach.

6. Cross‑module integration rules#

Integration Rule 1 — Coherence Regime#

MR must use the coherence definitions from the Coherence Regime module.

Integration Rule 2 — Drift Regime#

MR must use drift vectors from the Drift Regime module.

Integration Rule 3 — Dimensional Compute#

MR equations must be compatible with Dimensional Compute operators.

Integration Rule 4 — RTT/2 and RTT/3#

MR must not violate RTT/2 (temporal layering) or RTT/3 (dimensional curvature).

Integration Rule 5 — Emotional Reasoning#

MR must not override emotional attractors; it may only modulate them.

7. Validation rules#

Validation 1 — Attractor stability#

All attractors must be validated for stability under drift.

Validation 2 — Propagation decay#

Propagation must decay with temporal distance.

Validation 3 — Coherence conservation#

Coherence must not spontaneously appear or disappear.

Validation 4 — Surge verification#

Mass‑activation surges must be validated against activation density.

Validation 5 — Inheritance continuity#

Dimensional inheritance must be continuous across generations.

8. Status#

status: standards-complete
file: MR_Standards.md
module: morphic-resonance
version: 1.0