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Information –Symmetry and Feynman-Diagrams Applied to Computing Models

Authors

Carlos J. Martinez1, Ana Gonzalez2, Ewa Nieminsky1, 1Hispatel Ing., Spain and 2UPM University, Spain

Abstract

The evolving complexity of modern technologies brings new concepts, solutions, tools, but also new needs and problems. We review a computing and communication model inspired in physics, to examine complex systems under a perspective of physics-inspired principles like symmetry and conservation-laws. Aiming to help design, build, and control systems, we apply concepts like Information-Symmetry, propagation of information, or inertia to model communications. Modelling computing under physics reactions and conservation laws gives tools to automatically audit each process and create side effects on deviations, bringing advantages in verification, security, and to gain reliability. We review the Feynman-diagrams in computing, rotating diagrams to obtain reversible operations from one formula, and using the diagrams to verify consistency against a unique computing expression. Applications include dealing with data uncertainty, we show advantages to control fuzzy systems and reduce dataset needing further screening. Model and diagrams are proposed as tools to help automate and refine designs, and to gain in reliability.

Keywords

Unconventional Computing Model, Inertia, Data Communications, Symmetry, Reliability, Cloud, Fuzzy

Full Text  Volume 9, Number 11