NGIFT (Non-local Gradient Informational Field Theory) proposes a radicallyinformational ontology in which matter, time, gravity, and quantum structures arenot fundamental entities but emergent consequences of the local compensation ofinformational deviation ∆M(x,t) with respect to global coherence K(t). In contrastto the standard paradigm, where field dynamics is primary, NGIFT treats dynamics as secondary to a deeper informational structure. In this work we present: I) acoherent NGIFT ontology, II) a formal framework for the compensation equationwith a speed-of-light constraint, III) an interpretation of time and entanglementas emergent quantities, and IV) results from systematic numerical simulations ofNGIFT 9.5 on galactic (2D/3D) and atomic (hydrogen, helium) scales. The modelgenerates flat rotation curves without dark matter, kinematic asymmetries, gravitational lensing with exponent p = 0.946 ± 0.014, realistic galaxy collisions, as wellas dynamic electron clouds and quasi-stable multi-electron systems. Version 9.5introduces matrix neutrinos as the physical realization of global coherence. NGIFTis falsifiable and represents a potential step toward unifying galactic and quantumdynamics within a single mechanism of informational deviation compensation.
Szymon Flieger (Mon,) studied this question.