Description This work investigates the observational and numerical validation of the Central Meta-Nucleus (CMN) Framework as an extension of General Relativity . The CMN Framework introduces : . Stability field dynamics . Information conservation laws . Curvature regulation mechanism . Modified cosmological evolution equations The study focuses on determining whether the framework remains consistent with observational cosmology while preserving finite and non-singular spacetime evolution. The observational analysis includes : . Cosmological expansion behavior . Curvature evolution . Stability-regulated gravitational dynamics . Information conservation structure Numerical simulation are perfomed to analyze : . Stability field evolution . Curvature boundedness . Non-singular cosmological behavior . Dynamical consistency of the CMN equation The results demonstrate that the stability field suppresses curvature divergence in high density regimes while the information sector preserves total information conservation throughout spacetime evolution. This work provides a theoretical and numerical foundation for future research on unified non-singular cosmology and modified gravitational physics.
Md. Harun Or Rashid (Sun,) studied this question.