We present a non-singular cosmological framework based on the Kernel v3 Entropic Network. By modeling spacetime as a discrete tensor network subject to the Bekenstein Bound, we demonstrate that the energy density of the universe does not diverge at t=0, but obeys a logistic saturation curve (implying a finite maximum connectivity). This resolves the generic singularity of General Relativity. The model predicts a "Big Bounce" phase transition from a disordered Quantum Foam (t 0), marked by a resonant gravitational wave signature at f ≈ 7.47 x 1034 Hz. This work operationalizes the Thermodynamic Time Reversal (TDTR) framework into a computational algorithm.
Douglas H. M. FULBER (Sat,) studied this question.