This paper presents a structural framework for a Theory of Everything that does not introduce new particles, forces, or microscopic dynamics. Instead, it identifies a minimal set of non-negotiable structural claims that any empirically successful fundamental theory must satisfy. Space, time, causality, and physical laws are treated as emergent statistical regularities arising from projections of a high-dimensional configurational space under stability constraints. The work clarifies the explanatory scope and intrinsic limits of fundamental physical description and provides a clear falsifiability criterion for the proposed framework.
Štěpán Sekanina (Fri,) studied this question.