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Day and Night (cellular automaton)
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{{short description|2D cellular automaton with black/white reversal symmetry}} [[File:Day and night.gif|frame|right|Gun and antigun demonstrating the symmetric nature of Day & Night.]] '''Day and Night''' is a [[cellular automaton]] rule in the [[Life-like cellular automaton|same family]] as [[Conway's Game of Life|Game of Life]]. It is defined by rule notation B3678/S34678, meaning that a dead cell becomes live (is born) if it has 3, 6, 7, or 8 live neighbors, and a live cell remains alive (survives) if it has 3, 4, 6, 7, or 8 live neighbors, out of the eight neighbors in the [[Moore neighborhood]]. It was invented and named by Nathan Thompson in 1997, and investigated extensively by David I. Bell. The rule is given the name "Day & Night" because its ''on'' and ''off'' states are symmetric: if all the cells in the Universe are inverted, the future states are the inversions of the future states of the original pattern. A pattern in which the entire universe consists of ''off'' cells except for finitely many ''on'' cells can equivalently be represented by a pattern in which the whole universe is covered in ''on'' cells except for finitely many ''off'' cells in congruent locations. Although the detailed evolution of this cellular automaton is very different from Conway's Game of Life, it exhibits complex behavior similar to that rule: there are many known small ''[[Oscillator (cellular automaton)|oscillators]]'' and ''[[Spaceship (cellular automaton)|spaceships]]'', and ''[[Gun (cellular automaton)|guns]]'' formed by combining oscillators in such a way that they periodically emit spaceships of various types. ==References== * {{citation | first = David I. | last = Bell | year = 1997 | url = http://www.tip.net.au/~dbell/articles/DayNight.zip | title = Day & Night - An Interesting Variant of Life}}. See also Bell's [http://www.tip.net.au/~dbell/archive/b3678s34678.tar.gz Day & Night pattern archive]. {{Conway's Game of Life}} {{DEFAULTSORT:Day and Night}} [[Category:Cellular automaton rules]] {{comp-sci-theory-stub}}
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