The provided text details the **Information Manifold Model (IMM)**, a theoretical framework that uses **information-theoretic axioms** to simulate the large-scale structure of the universe. By applying a **reaction-diffusion-projection** system, the researcher demonstrates how a "spongy" **cosmic web** of filaments and voids emerges naturally without relying on standard gravitational equations. The study highlights a **structural isomorphism**, suggesting that the same mathematical principles governing **cosmological topology** also apply to **cognitive dynamics** and quantum processes. Key findings include a simulated **volume fraction** and **Euler characteristic** that closely mirror actual astronomical observations from major surveys. Ultimately, the model proposes a novel resolution to the **cosmological constant problem** by viewing observable space as the thermodynamic byproduct of **informational decoherence**.