On the Complexity of the Stability Problem of Binary Freezing Totalistic Cellular Automata
December 06, 2019 Β· Declared Dead Β· π Information and Computation
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Authors
Eric Goles, Diego Maldonado, Pedro Montealegre, Nicolas Ollinger
arXiv ID
1912.02953
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.CC,
cs.DM,
nlin.CG
Citations
5
Venue
Information and Computation
Last Checked
4 months ago
Abstract
In this paper we study the family of two-state Totalistic Freezing Cellular Automata (TFCA) defined over the triangular and square grids with von Neumann neighborhoods. We say that a Cellular Automaton is Freezing and Totalistic if the active cells remain unchanged, and the new value of an inactive cell depends only on the sum of its active neighbors. We classify all the Cellular Automata in the class of TFCA, grouping them in five different classes: the Trivial rules, Turing Universal rules,Algebraic rules, Topological rules and Fractal Growing rules. At the same time, we study in this family the Stability problem, consisting in deciding whether an inactive cell becomes active, given an initial configuration.We exploit the properties of the automata in each group to show that: - For Algebraic and Topological Rules the Stability problem is in $\text{NC}$. - For Turing Universal rules the Stability problem is $\text{P}$-Complete.
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