Arandino v4.0: Triphasic Prism and Light Coefficient for the Transmutation of Data into Coherent Informational Matter: A Quantum-Optical Abstraction Beyond Topological Computing Hardware v.2

We present Arandino v4.0, a disruptive self-reflective triphasic prism architecture designed to transform digital information into a coherent crystal of informational matter. While contemporary advancements by organizations such as Microsoft (Topological Majorana 1) and NASA (SCaN Entanglement Distribution) remain constrained by hardware-dependent probabilistic measurements and extreme physical environments (cryogenics), Arandino v4.0 introduces a Quantum-Optical Abstraction. This software-defined ontology treats digital data natively as dispersed light that undergoes refraction through alpha, gamma, and beta phases, followed by a helical condensation process.

The model demonstrates a reconstruction fidelity of up to 99.88% on high-dimensional data and effective compression ratios exceeding 12:1, maintaining informational identity through the formally defined Arandino Light Coefficient (). By bridging the gap between Landauer’s principle—"Information is Physical"—and abstract neural architectures, this work proves that data can achieve quantum-level coherence without the instabilities of wave function collapse or the limitations of topological hardware. Arandino v4.0 marks the transition from statistical deep learning to a new era of specular-geometric computing, where information is organized, stable, and inherently coherent.

Keywords: Arandino, triphasic prism, informational crystal, light coefficient, quantum computing from home, data transmutation, specular reflection, analog quantum optics.

© 2026 Arle Andino Reyes — Arandino Research Lab