Tri-Parametric Information Synthesis (TPIS): A Unification of MOND, the Holographic Principle, and Entropic Gravity through Information Resolution

Contemporary cosmology confronts a crisis defined by the Hubble Tension, the unknown natureof Dark Matter, and the Vacuum Catastrophe. Existing solutions often rely on ad-hoc parametersrather than a unified causal framework. This manuscript introduces ”Tri-Parametric InformationSynthesis” (TPIS), proposing that these anomalies are emergent effects of the discrete informationresolution of spacetime (G, ℏ, c). We validate this framework through a ”Clean Slate” audit of GaiaDR3 wide binaries (d < 200 pc). By utilizing a mass-dependent scaled velocity metric, we detect astatistically significant velocity anomaly in the low-acceleration regime (a < ath). While the New-tonian control group aligns with expectations (˜v ≈ 0.85), wide binaries exhibit a systematic boostfactor of γ ≈ 1.58, effectively ruling out standard gravity while falsifying the ”flyby” contaminationhypothesis via the External Field Effect (EFE). Theoretically, TPIS reinterprets the baryon frac-tion of the universe (Ωb ≈ 4%) not as a random initial condition, but as the ”Resolution Tax” ofthe holographic lattice (ξ = (8π)−1), defining the maximum efficiency of structural actualization.Finally, we show that the Hubble Tension is resolvable as a manifestation of cosmic variance (KBCVoid) without requiring variable physical constants.