Scale-invariant cellular automata and self-similar Petri nets (2009)
| Venue: | THE EUROPEAN PHYSICAL JOURNAL B |
| Citations: | 2 - 1 self |
BibTeX
@MISC{Schaller09scale-invariantcellular,
author = {M. Schaller and K. Svozil},
title = {Scale-invariant cellular automata and self-similar Petri nets},
year = {2009}
}
Bookmark
 |
 |
 |
 |
 |
 |
OpenURL
Abstract
Two novel computing models based on an infinite tessellation of space-time are introduced. They consist of recursively coupled primitive building blocks. The first model is a scale-invariant generalization of cellular automata, whereas the second one utilizes self-similar Petri nets. Both models are capable of hypercomputations and can, for instance, “solve” the halting problem for Turing machines. These two models are closely related, as they exhibit a step-by-step equivalence for finite computations. On the other hand, they differ greatly for computations that involve an infinite number of building blocks: the first one shows indeterministic behavior, whereas the second one halts. Both models are capable of challenging our understanding of computability, causality, and space-time.
