A Computational Derivation of Discrete Space-Time and Cyclic Cosmological Coupling

Here is a professional, high-impact description you can use for your Zenodo upload. On Zenodo, this serves as your "abstract" and is the first thing other physicists (and the search algorithms) will read.: P Description A Computational Derivation of Discrete Space-Time and Cyclic Cosmological Coupling introduces a novel, non-inflationary model of the universe framed as a discrete, self-optimizing computational environment. By redefining Gravity as a foundational "Base Protocol" for information compression rather than a traditional force, this paper establishes a mechanism for the transition of primordial substrate into a quantized 4D manifold—the Pixel Highway. Key features of this model include: The Curing Protocol: A phase transition theory explaining the emergence of space-time structure and the origin of observed vacuum pressure (). Information Refineries: A new model for gravitational singularities that enables a steady-state cyclic engine, preserving mass-energy conservation across cosmic aeons. Observational Alignment: The manuscript demonstrates how this framework resolves contemporary tensions in cosmology, including the "Early Galaxy Paradox" (JWST) and evolving dark energy density (DESI 2025/2026). This preprint serves as a foundational text for Information Topology and offers a bridge between discrete quantum logic and macro-scale general relativity.