This work develops a unified geometric framework for understanding and stabilizing modern AI systems by introducing Geometry-Attached Time (τ~), the Hazard Manifold Evolution Equation (HMEE), and the Twelve Invariants governing admissible-future evolution. Drawing on the highest achievements of twentieth-century mathematics—holonomy, curvature, gauge theory, index theory, spectral geometry, and geometric flows—the paper shows that large AI models operate on evolving admissible state spaces where futures branch, merge, and interfere. The central GA-Time Holonomy Theorem establishes that every AI phenomenon—coherence, drift, hallucination, oscillation, regime transitions, and collapse—arises from invariant preservation or violation in GA-time. Bridging advanced geometry with frontier AI engineering, this work provides a rigorous foundation for multi-future inference, constructive and destructive time interference, and the geometric design of next-generation stable AI architectures.
L. D. L. Nguyen (Tue,) studied this question.