A cellular automaton is a dynamical system on an infinite array of cells defined by a local update rule that is applied simultaneously at all cells. By carefully choosing the update rule, the global dynamics can be made information preserving. In this case, the cellular automaton is called reversible. In this article, we explain fundamental classical results concerning reversible cellular automata and discuss some more recent developments on selected topics. Classical results reviewed include the Curtis–Hedlund–Lyndon theorem, the Garden-of-Eden theorem and the invariance of uniform Bernoulli distribution under reversible cellular automata. We then describe several techniques to construct reversible cellular automata and a method to determine whether a given one-dimensional automaton is reversible. We present undecidability issues concerning reversible cellular automata and discuss three types of universality: computational universality, intrinsic universality, and physical universality. We finish with short notes about time symmetry, expansiveness, and conservation laws.

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