The ΩGLR Benchmark Suite

Tietle: The ΩGLR Benchmark Suite: Stress-Testing the Hardware Limits of the Topological Substrate Author: Marco Lindenbeck Description: The ΩGLR (Omega Grounded Light Reality) framework replaces the continuous, abstract void of standard spacetime with a discrete, pre-tensioned, finite-capacity Information-Stability System. To validate the absolute predictive power of this deterministic logistics architecture, this benchmark suite subjects the framework to ten extreme stress tests across distinct physical domains, including galactic kinematics, stellar collapse, subatomic geometry, cavity optomechanics, cosmological expansion and neurobiologicalcapacity. By strictly applying the framework’s fundamental geometric constants (the Topological Resolution Constant κ=50, the Golden Elasticity Modulus φ) and its Pythagorean Bandwidth Allocation (c² = v² + u²), the ΩGLR architecture consistently derives exact empirical limits without the inclusion of free parameters or arbitrary fluid dynamics. Key Resolutions and Predictions: Cosmology: Resolves the Hubble Tension via a precise 4D thermodynamic decay operator (e⁰. 08), deriving the Late Universe 73. 01 km/s/Mpc expansion rate. Astrophysics: Derives the absolute neutron star mass ceiling (TOV limit) of 2. 33 M_⊙, and calculates the strict Golden Elasticity ceiling (38. 2%) for early-universe Star Formation Efficiency, directly resolving the JWST ultra-massive galaxy crisis. Quantum & Particle Physics: Derives the exact hardware radius of the proton (0. 8409 fm) via baseline 4D geometry, predicts the 6. 56 TeV kinematic shatter limit of the proton, and reclassifies Continuous Time Crystals and Zero-Point Energy as the maximum internal bandwidth (u=c) of the discrete metric at 0 K. Falsifiable Prediction: Executes a blind prediction for the impending DESI Year-5 data release, dictating that the dynamic "thawing" of Dark Energy will flawlessly map to the framework's discrete hardware strain relaxation tensor. This benchmark suite demonstrates that the universe is not a continuous mathematical abstraction, but a rigid, tensioned, highly optimized geometric machine.