This paper establishes the complete, production-ready mathematical framework and object-oriented architecture of the Resonant Vacuum Architecture (RVA version v26. 18, "Pure Geometric Monolith"). The model rejects continuous four-dimensional pseudo-Riemannian spacetime manifolds in favor of a stable, rigid, non-deformable resonant cubic topological lattice (Z³) characterized by a fixed analytical unit cell step scale of ₀ = 766. 490234 nm. Macroscopic gravity emerges natively as a localized fluidic pressure gradient within a dense dynamic phase shell formed by energy extruded during global lattice macro-stretching cycles. Moving away from the computationally expensive tensor expansions of General Relativity (GR) which rely on recursive numerical integration loops, we implement a monolithic, non-iterative orbital velocity equation operating at strict O (1) algorithmic complexity. Independent software auditing in an isolated hardware-level float64 Python 3. 12 environment confirms that the core execution engine is entirely free of phenomenological scaling parameters and soft runtime patches. The architecture achieves an autonomous native accuracy of 99. 384% for the Earth system and a stable systemic baseline of 95. 928% across all Solar System bodies in a single processor instruction pass. This implementation offers an optimized, thread-safe, energy-efficient mathematical core for autonomous embedded aerospace avionics, real-time drone swarm mesh stabilization, and high-fidelity physics engines.
Ivan Davidenko (Sat,) studied this question.