This paper demonstrates that Stephen Wolframs Physics Project provides the computational instantiation of Metamonistic Proto-Ontology. We establish a structural isomorphism between the core law of Metamonismthe Conflict-Moment-Impulse (KMI) Triadand the mechanism of hypergraph rewriting. In contrast to the static Block Universe of Relativity, time in this framework becomes the irreducible rhythm of computation: each rule application is an act of Becoming. Metamonism is formalized as the Category M, whose morphisms (Ω) correspond to Wolfram rules. The KMI Triad is expressed as the Axiom of Superposition (Ωi + Ωj ), showing how Conflict (K) leads to a critical Moment (M) of instability (δfinal), resolved by an Impulse (I)the creation of a new rule (Ωk). We introduce a criterion based on the global harmonic defect (δglob) that determines whether a system evolves hierarchically or reflexively. This synthesis provides a solution to the frozen time problem and lays the groundwork for Ontomechanicsa theory where time, novelty, and ethics emerge as fundamental properties of computational autonegation.
Myshko, A. (2025). Computational Autonegation: Wolfram Physics as the Physical Instantiation of Metamonism. Zenodo. https://doi.org/10.5281/zenodo.17298062
