A Full Computation-relevant Topological Dynamics Classification of
  Elementary Cellular Automata

Cook M.; Culik K.; Delvenne J. C.; Devaney R. L.; Durand B.; Kurka P.; Kurka P.; Li W.; Martin Schüle; Mendelson E.; Papadimitriou C. H.; Ruedi Stoop; Sipser M.; Wolfram S.; Wolfram S.

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A Full Computation-relevant Topological Dynamics Classification of Elementary Cellular Automata

Authors: Cook M.
Culik K.
Delvenne J. C.
Devaney R. L.
Durand B.
Kurka P.
Kurka P.
Li W.
Martin Schüle
Mendelson E.
Papadimitriou C. H.
Ruedi Stoop
Sipser M.
Wolfram S.
Wolfram S.
Publication date: 1 January 2012
Publisher: 'AIP Publishing'
Doi

Abstract

Cellular automata are both computational and dynamical systems. We give a complete classification of the dynamic behaviour of elementary cellular automata (ECA) in terms of fundamental dynamic system notions such as sensitivity and chaoticity. The "complex" ECA emerge to be sensitive, but not chaotic and not eventually weakly periodic. Based on this classification, we conjecture that elementary cellular automata capable of carrying out complex computations, such as needed for Turing-universality, are at the "edge of chaos"

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