This work presents a unified, multi-layer computational framework for modeling Surah Al-Jinn as an integrated semantic, acoustic, physical, and agent-based dynamical system. The model synthesizes four principal components: (1) vector semantic embeddings derived from root, morphological, and contextual features of Qur’anic Arabic; (2) prosody-meaning coupling, where acoustic features of recitation serve as energy-bearing control signals driving semantic activation; (3) a Celestial Boundary Membrane (CBM) modeled as a hyperdimensional, wave-responsive potential barrier that regulates cross-realm access between human, jinn, and angelic manifolds; and (4) a comprehensive operator calculus describing heterogeneous jinn transformations and stable angelic projective dynamics. These layers are fused into a single master dynamical equation that couples ODE semantic evolution, PDE membrane perturbations, graph-based semantic diffusion, and event-driven operator activation. A verse-by-verse case study demonstrates how the Surah’s narrative corresponds to structured dynamical regimes, including cognitive shock transitions, nonlinear semantic bifurcations, CBM oscillations matching “flaming guard” constraints, and eventual convergence toward revelation-aligned attractor states under dominant angelic projection. This work establishes the foundation of Revelation Engineering and Semantic Cosmology, providing the first rigorous, reproducible computational model that integrates linguistic structure, recitation acoustics, multi-agent cognition, and Qur’anic cosmological description into a coherent scientific architecture.