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The Game of Life, also known as Conway's Game of Life or simply Life, is a cellular automaton devised by the British mathematician John Horton Conway in 1970. [1] It is a zero-player game, [2] [3] meaning that its evolution is determined by its initial state, requiring no further input. One interacts with the Game of Life by creating an initial ...
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Artificial neural networks vs the Game of Life. There are a few reasons the Game of Life is an interesting experiment for neural networks. “We already know a solution,” Jacob Springer, a ...
The Game of Life The Haunted Mansion Theme Park Edition (2009) The Game of Life High School Edition (A.K.A. "Pink Edition") (2008) LIFE: Rock Star Edition; The Game of LIFE: It's a Dog's Life Edition (2011) The Game of LIFE: The Lorax Edition (2013) The Game of LIFE: Despicable Me (2014) LIFE: My Little Pony Edition [8] Inside Out (2015)
A gun and an "antigun" in the Life variation Day & Night The first gun to be found in Conway's Game of Life was the Gosper glider gun. In the Game of Life, for every p greater than or equal to 14, it is possible to construct a glider gun in which the gliders are emitted with period p. [1]
LifeWiki's homepage. LifeWiki is a wiki dedicated to Conway's Game of Life. [1] [2] It hosts over 2000 articles on the subject [3] and a large collection of Life patterns stored in a format based on run-length encoding [4] that it uses to interoperate with other Life software such as Golly.
Eric S. Raymond has proposed the glider as an emblem to represent the hacker subculture, as the Game of Life appeals to hackers, and the concept of the glider was "born at almost the same time as the Internet and Unix". [7] The emblem is in use in various places within the subculture. [8] [9]
Evolution of an MSM breeder – a puffer that produces Gosper guns, which in turn emit gliders.. In cellular automata such as Conway's Game of Life, a breeder is a pattern that exhibits quadratic growth, by generating multiple copies of a secondary pattern, each of which then generates multiple copies of a tertiary pattern.