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The Game of Life, also known simply as 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 configuration and ...
The glider is a pattern that travels across the board in Conway's Game of Life. It was first discovered by Richard K. Guy in 1969, while John Conway's group was attempting to track the evolution of the R- pentomino. Gliders are the smallest spaceships, and they travel diagonally at a speed of one cell every four generations, or .
LifeWiki's homepage. LifeWiki is a wiki dedicated to Conway's Game of Life. It hosts over 2000 articles on the subject and a large collection of Life patterns stored in a format based on run-length encoding that it uses to interoperate with other Life software such as Golly.
A Garden of Eden in Conway's Game of Life, discovered by R. Banks in 1971. [1] The cells outside the image are all dead (white). An orphan in Life found by Achim Flammenkamp. Black squares are required live cells; blue x's are required dead cells. In a cellular automaton, a Garden of Eden is a configuration that has no predecessor.
It is similar to Conway's Game of Life in that patterns that do not have a living cell adjacent to 1, 4, or 5 other living cells in any generation will behave identically to it. [80] However, for large patterns, it behaves very differently from Life.
In Conway's Game of Life R-pentomino to stability in 1103 generations In Conway's Game of Life , one of the smallest methuselahs is the R- pentomino , [2] a pattern of five cells first considered by Conway himself, [3] that takes 1103 generations before stabilizing with 116 cells.
Still life (cellular automaton) In Conway's Game of Life and other cellular automata, a still life is a pattern that does not change from one generation to the next. The term comes from the art world where a still life painting or photograph depicts an inanimate scene. In cellular automata, a still life can be thought of as an oscillator with ...
Bill Gosper discovered the first glider gun in 1970, earning $50 from Conway. The discovery of the glider gun eventually led to the proof that Conway's Game of Life could function as a Turing machine. For many years this glider gun was the smallest one known in Life, although other rules had smaller guns.