CONTINUUM COMPENDIUM v3.2 presents a unified speculative-engineering architecture for V2 synthetic energetic systems within the CONTINUUM framework. This version expands the previous energetic–ontological architecture into a thermal-epistemic management model, integrating compact fusion, magnetohydrodynamic regulation, superconductive conduction, graphene–iridium structural mediation, thermophotovoltaic skin behavior, magnetically orchestrated thermal buffering, cryogenic logic, isotopic management, and ontological continuity. The central contribution of v3.2 is the consolidation of Section 10.1 — Thermal-Epistemic Management Architecture. This section reframes thermal management not merely as heat transport, but as the preservation of the physical conditions under which operation, diagnosis, and material testimony remain trustworthy. The architecture introduces a layered model composed of the Macrothermal Layer, Cryogenic Logic Layer, Sub-mK Reference Layer, Isotopic Purity and Surface Control, Degraded Modes, and Physical & Materials Specification. The document also formalizes the relation between CRI, SAT-He3, QSS-PMM, STL-CV, AMC, and MOST. CRI/SAT-He3 provides a topological-superfluid reference channel, while QSS-PMM provides a topological-semiconductor diagnostic witness based on Poor Man’s Majorana-like regimes. Together, they support a cross-validation framework for detecting physical coherence degradation before failure becomes systemic. This compendium remains a conceptual architecture document: it does not claim present-day implementation, but separates realistic prospective extrapolation from fictional canonical validity within the CONTINUUM universe.
Daniel J. Ribeiro (Mon,) studied this question.