This Perspective Article develops a conceptual framework in which space, time, gravity, and entanglement emerge from the behaviour of an underlying relational fabric. Rather than beginning with objects embedded in a pre‑existing geometry, the framework begins with patterns of correlation that gradually learn to organise themselves. In this view, distance is not fundamental but a statistical summary of how correlations weaken; entanglement is the substrate's earliest mode of coherence; and gravity is a large‑scale expression of how the fabric distributes and reorganises information. Drawing on developments in holography, entanglement‑geometry dualities, relational quantum mechanics, thermodynamic gravity, and tensor‑network models, this article argues that the universe behaves like a fabric that gradually learns to hold itself together. The result is a unified conceptual picture in which connection precedes separation, and the cosmos evolves by stabilising, forgetting, and reorganising its own correlations.

Meda Parameswara Reddy, Ph.D. focuses primarily on theoretical physics, thermodynamics, and emergent phenomena. His major scientific papers published in the International Journal of Advanced Research (IJAR) include:

Quantum Gravity and Entanglement: The Universe as a Fabric That Learns to Connect: An Emergent Relational Framework for Entanglement, Gravity, and Time. This work explores relational quantum mechanics and the holographic properties of spacetime.

Cosmological Thermodynamics: Thermodynamics and the Evolution of the Observable Universe: A Conceptual Perspective Based on Gibbs Free Energy. This