This framework introduces theoretical models for the hypercomputer—a computational superstructure capable of performing non-recursive functions and directly manipulating the ontological state vectors () of spacetime (ontological state vectors () representing informational configurations of reality/spacetime). This work operates on the premise that physical reality is an informational substrate—a concept formalized by Wheeler’s ``It from Bit'' doctrine—implying that the underlying manifold of spacetime can be treated as a programmable medium. The paper details the mechanisms of macroscopic data acquisition and localized editing of ontological state vectors. The framework delineates these superstructures into primary architectural classifications. Furthermore, it explores the cosmological genesis of such superstructures and formalizes the intersection of extreme-scale computation and topological manipulation. The framework is built upon established physical axioms but is primarily theoretical in nature, incorporating speculative elements regarding the physical actualization of non-linear quantum dynamics and the utilization of closed timelike curves (CTCs) to resolve NP-hard complexities. The framework also considers several alternative operational/possible physical regimes (standard quantum mechanics, nonlinear quantum mechanics, CTC-enabled computation, and higher-dimensional embedding), trying, within the theory, to touch on possible conditions under which hypercomputer systems can arise.
G et al. (Thu,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: