Ininvertible cellular automata: a review
Physica D
Cellular Automata: A Discrete Universe
Cellular Automata: A Discrete Universe
Computation: finite and infinite machines
Computation: finite and infinite machines
Theory of Self-Reproducing Automata
Theory of Self-Reproducing Automata
IBM Journal of Research and Development
Art, digitality and consciousness
Proceedings of the 5th conference on Creativity & cognition
A computing architecture for physics
Proceedings of the 2nd conference on Computing frontiers
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Under the roof of one controversial assumption about physics, we discuss five big questions that can be addressed using concepts from a modern understanding of digital informational processes. The assumption is called finite nature. The digital mechanics model is obtained by applying the assumption to physics. The questions are as follows:What is the origin of spin?Why are there symmetries and CPT (charge conjugation, parity, and time reversal)?What is the origin of length?What does a process model of motion tell us?Can the finite nature assumption account for the efficacy of quantum mechanics? Digital mechanics predicts that for every continuous symmetry of physics there will be some microscopic process that violates that symmetry. We are, therefore, able to suggest experimental tests of the finite nature hypothesis. Finally, we explain why experimental evidence for such violations might be elusive and hard to recognize.