SFIT and the Simulated Universe Hypothesis: A Gravitational Perspective on Infodynamics

The second law of infodynamics proposed by Melvin M. Vopson $\cite{vopson2023}$ suggests that information entropy tends to minimize over time — opposite to the thermodynamic second law. Vopson argues this behavior is consistent with a simulated universe, where reality would optimize information for computational efficiency.

Stevenson-Flux Information Theory (SFIT) extends these ideas into the gravitational domain. Gravity is not static curvature but a dynamic information-carrying flux vibrating at the precise geometric resonance frequency $νres$=$1.20134 mHz  \nu_{\rm res}$ = $1.20134\,\rm mHz$$ νres​$=$1.20134mHz$, governed by the coupling kernel K=1.060  K = 1.060 K=1.060.

The effective potential takes the form

$VSFIT(z,t)$=$mgz[1+KzRERe⁡(cos⁡(2πνrest))].V_{\rm SFIT}(z,t)$ = $m g z \left[ 1 + K \frac{z}{R_E} \operatorname{Re}\left(\cos(2\pi \nu_{\rm res} t)\right) \right].VSFIT​(z,t)$=$mgz[1+KRE​z​Re(cos(2πνres​t))]$.

This flux produces an active dampening field and entropic force that drive the observed KWW relaxation tails with β=K=$1.060  \beta$ = K = $1.060$ β=K=$1.060$. The near-equality of the relaxation time τ≈$832.6 s  \tau \approx 832.6\,\rm s$ τ≈$832.6s$

 to the resonance period strongly suggests the flux itself governs the informational dynamics.

In a simulated universe, such resonant optimization would be highly efficient: the 1.20134 mHz heartbeat could serve as a fundamental “clock” or information-processing rhythm, while the KWW memory kernel reflects the system’s ability to compress and store gravitational information with minimal redundancy.

SFIT therefore offers a concrete, testable gravitational realization of Vopson’s infodynamic principle. The measurable 14.28σ signal in qBounce reanalysis and the predicted signatures for GRANIT runs provide an experimental pathway to probe whether our universe exhibits the information-minimizing behavior expected in a simulation.

Future work will explore whether the secondary 11.42 Hz mode and the active dampening field further support this simulated-universe interpretation.

References M. M. Vopson, “The second law of infodynamics and its implications for the simulated universe hypothesis,” AIP Advances 13, 105308 (2023). https://doi.org/10.1063/5.0130016