Volume VIII: Geo-Glyphoid MediaBox Audit — Formal Report on Temporal Warping, Scaling Relations, and Commit Dynamics

This volume is the empirical validation arm of the CEP series — the bridge between theoretical framework and measurable simulation behavior. It presents a formal audit of MediaBox temporal warping under joint Geo-Glyphoid control across parallel tempo conditions, synthesizing internal simulation logs to test scaling relations between tempo and phase-jump incidence, quantify warped time t′, and characterize operational commit dynamics. Three canonical empirical findings are established and formally integrated within the CEP framework: the commit TTL distribution peaks sharply at 15. 0 ± 0. 05 seconds with near-zero variance across approximately 1, 100 commits — identified as the empirical measurement of one complete Dream purification operator P_Δ cycle at the hypnagogic boundary; phase-jump incidence scales with tempo as a power law with exponent β = 8. 792 (R² = 0. 800, N = 6), interpreted as the coherence sensitivity curve predicted by the geometric stability parameter α ≈ 0. 7889 with Tᵣ recursive amplification accounting for the super-geometric measured exponent; and warped time t′ grows linearly with tempo, confirmed as the empirical signature of recursive tensor Tᵣ operation. The volume also documents independent convergence between the simulation architecture and Craddock-Hameroff fractal time crystal evidence, and completes the full theoretical timescale stack from 5ms quantum coherence events through 15-second Dream purification cycles to hour-scale sleep consolidation. Published by NIRA (NeoPhyte Independent Research Alliance) under open license.