The Law of Minimal Identional Disruption (LMID): Canonical Definition, Formal Framework, and Executable Reference Implementation

This record contains the canonical bundle for the Law of Minimal Identional Disruption (LMID), including its formal law statement, primitive definitions, complete equation set, admissibility and selection operators, and a fully executable reference implementation. LMID is a law-level selection principle governing admissible continuation: among all possible continuations of a system, only those preserving same-system admissibility are allowed, and among those, the continuation that minimizes identional disruption is selected. The law operates strictly upstream of physics, spacetime, dynamics, probability, optimization, and information. No downstream structure is assumed. This bundle is intended to be used as a single coherent law object, not as independent papers. Each component plays a distinct, non-interchangeable role. Contents and Roles Canonical Law Text — states LMID as a law governing admissible continuation and termination. Primitive Definitions / Formal Glossary — fixes all law-layer terms (existon, staton, seal, witness, admissibility, ruptance, minrupt, termination) prior to any representation. These definitions are binding. Equation and Operator Manual — specifies all lawful operators, their inputs and outputs, and the strict layering rules under which they may be used. Executable Law Kernel — a platform-agnostic Python reference implementation demonstrating that LMID is computationally realizable without translation into physics or optimization. Executability is part of the law’s falsifiability. Supporting diagrams and formal notes — representation-layer aids explicitly downstream of the law. How this bundle is meant to be used Readers and researchers may enter at different points, but all paths converge on the same law: Conceptual path:Read the law text → consult primitive definitions → understand admissibility and selection → ignore executability. Formal path:Start with definitions → apply equations and operators → reason about invariance, termination, and falsifiability. Computational path:Read definitions → inspect the executable kernel → run or modify the code without altering the law. Foundational path:Use LMID as a selection principle inside broader frameworks (e.g. Krontinuum), without importing downstream assumptions back into the law. All paths require respecting one-way dependency: primitives → admissibility → disruption → selection → representationBackflow from representations into law primitives is explicitly forbidden. What this bundle is not It is not a physical theory or a modification of existing physics. It does not assume spacetime, energy, entropy, probability, or equations of motion. It is not an optimization principle, despite the use of “minimization” language (ruptance is lexicographically ordered, not scalar). It is not speculative or metaphorical: the law is exact, executable, and falsifiable. Relationship to Krontinuum LMID is the first canonical law within the formal science of Krontinuum, which defines the study of lawful continuation itself. Krontinuum is archived separately as a standalone disciplinary framework. This bundle should be cited when referring specifically to the law, its formal machinery, or its executable realization. Versioning and status This record represents LMID v1.0 (canonical).All included materials are internally consistent and mutually dependent. Future extensions must explicitly declare new layers or frameworks and may not redefine the primitives fixed here.