Ontology of Informational Physical Reality: From Zero-Distinction Baseline to Emergent Cosmos

Ontology of Informational Physical Reality presents a complete, first‑principles ontological framework for understanding the structure and emergence of the physical universe. The work develops a strictly non‑physical foundation based on the Zero‑Distinction Baseline (ZDB), the unique pre‑informational condition in which no local entropy deviations exist and global fine‑grained entropy is identically zero. From this undifferentiated ground, the transition to manifest reality is governed by a single ontological necessity: the Global Entropic Consistency Principle (GEC). The text formulates six axioms of GEC as the minimal requirements for any internally coherent reality. These axioms do not prescribe physical laws; instead, they act as an ontological selection principle that filters out all inconsistent differentiations. The first non‑zero entropy deviation (ΔS > 0) marks the birth of information, understood not as a substance but as a descriptive label for the evolution of distinctions. The work then develops the mathematical ontology implied by GEC: the emergence of a toroidal qutrit lattice as the unique boundary‑free topology compatible with global entropic invariance, the decomposition of informational flows into poloidal and toroidal fluxes, and the definition of ΔSmin, the minimal interference tension that serves as the primary ontological dynamic. All stable structures—closed toroids, open radiative modes, incomplete internal loops, and macroscopic toroidal networks—are shown to be eigenmodes of ΔSmin. Building on this foundation, the ontology reconstructs the full hierarchy of manifest reality: massive solitons, radiative modes, composite structures, atomic and chemical organization, condensed‑matter regimes, stellar and galactic architecture, and cosmological evolution. Each phenomenon is interpreted as a stable configuration of interference tension under the constraints of GEC, without introducing any additional primitives. This work does not propose new particles, forces, or parameters. Instead, it offers a unified ontological architecture in which all physical structures arise as necessary consequences of global informational coherence. It is intended as a foundational companion to emergent‑physics formulations based on GEC, providing the conceptual and mathematical ground from which physical law becomes possible.