Cellular automata are mappings over infinite lattices such that each cell is updated according tothe states around it and a unique local function.Block permutations are mappings that generalize a given permutation of blocks (finite arrays of fixed size) to a given partition of the lattice in blocks.We prove that any d-dimensional reversible cellular automaton can be exp ressed as thecomposition of d+1 block permutations.We built a simulation in linear time of reversible cellular automata by reversible block cellular automata (also known as partitioning CA and CA with the Margolus neighborhood) which is valid for both finite and infinite configurations. This proves a 1990 conjecture by Toffoli and Margolus (Physica D 45) improved by Kari in 1996 (Mathematical System Theory 29).

Publié le : 2001-07-04
Classification:  Cellular automata,  reversibility,  block cellular automata,  partitioning cellular automata,  [INFO]Computer Science [cs],  [INFO.INFO-CG]Computer Science [cs]/Computational Geometry [cs.CG],  [INFO.INFO-DM]Computer Science [cs]/Discrete Mathematics [cs.DM],  [MATH.MATH-CO]Mathematics [math]/Combinatorics [math.CO]

@article{hal-01182977,
     author = {Durand-Lose, J\'er\^ome},
     title = {Representing Reversible Cellular Automata with Reversible Block Cellular Automata},
     journal = {HAL},
     volume = {2001},
     number = {0},
     year = {2001},
     language = {en},
     url = {http://dml.mathdoc.fr/item/hal-01182977}
}

Durand-Lose, Jérôme. Representing Reversible Cellular Automata with Reversible Block Cellular Automata. HAL, Tome 2001 (2001) no. 0, . http://gdmltest.u-ga.fr/item/hal-01182977/