International audienceWe study the complexity of signed majority cellular automata on the planar grid. We show that, depending on their symmetry and uniformity, they can simulate different types of logical circuitry under different modes. We use this to establish new bounds on their overall complexity, concretely: the uniform asymmetric and the non-uniform symmetric rules are Turing universal and have a P-complete prediction problem; the non-uniform asymmetric rule is in-trinsically universal; no symmetric rule can be intrinsically universal. We also show that the uniform asymmetric rules exhibit cycles of super-polynomial length, whereas symmetric ones are known to have bounded cycle length
We study cellular automata with respect to a new communication complexity problem: each of two playe...
Cellular automata (CA) have been widely used as idealized models of spatially-extended dynamical sys...
Artículo de publicación ISIThe notions of universality and completeness are central in the theories ...
International audienceWe study the complexity of the majority rule on planar automata networks. We r...
International audienceν-CA are cellular automata which can have different local rules at each site o...
Universality of Cellular Automata (CA) is the ability to develop arbitrary computations, and is view...
We present an analysis of an additive cellular automaton (CA) under asynchronous dynamics. The async...
Leader election plays a crucial role in numerous distributed protocols and biological socie...
The search for symmetry as an unusual yet profoundly appealing phenomenon, and the origin of regular...
International audienceThis paper investigates a variant of cellular automata, namely ν-CA. Indeed, ν...
International audienceThis article deals with cellular automata (CA) working over periodic configura...
AbstractThe notions of universality and completeness are central in the theories of computation and ...
Abstract. We study computational properties of linear cellular automata on configurations that diffe...
This note is a survey of examples and results about cellular automata with the purpose of recalling ...
International audienceThis text presents some notes on the classification of very simple rules in on...
We study cellular automata with respect to a new communication complexity problem: each of two playe...
Cellular automata (CA) have been widely used as idealized models of spatially-extended dynamical sys...
Artículo de publicación ISIThe notions of universality and completeness are central in the theories ...
International audienceWe study the complexity of the majority rule on planar automata networks. We r...
International audienceν-CA are cellular automata which can have different local rules at each site o...
Universality of Cellular Automata (CA) is the ability to develop arbitrary computations, and is view...
We present an analysis of an additive cellular automaton (CA) under asynchronous dynamics. The async...
Leader election plays a crucial role in numerous distributed protocols and biological socie...
The search for symmetry as an unusual yet profoundly appealing phenomenon, and the origin of regular...
International audienceThis paper investigates a variant of cellular automata, namely ν-CA. Indeed, ν...
International audienceThis article deals with cellular automata (CA) working over periodic configura...
AbstractThe notions of universality and completeness are central in the theories of computation and ...
Abstract. We study computational properties of linear cellular automata on configurations that diffe...
This note is a survey of examples and results about cellular automata with the purpose of recalling ...
International audienceThis text presents some notes on the classification of very simple rules in on...
We study cellular automata with respect to a new communication complexity problem: each of two playe...
Cellular automata (CA) have been widely used as idealized models of spatially-extended dynamical sys...
Artículo de publicación ISIThe notions of universality and completeness are central in the theories ...