Bulgarian solitaire

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In mathematics and game theory, Bulgarian solitaire is a random card game.

In the game, a pack of $N$ cards are divided into several piles. Then for each pile, either leave it intact or, with a fixed probability $p$ , remove one card; collect the removed cards together to form a new pile (piles of zero size are ignored).

If $p = 1$ , the game is known as Bulgarian solitaire or deterministic Bulgarian solitaire and was introduced by Martin Gardner; the general case with $0 < p < 1$ is known as random Bulgarian solitaire or stochastic Bulgarian solitaire. This is a finite irreducible Markov chain.

If $N$ is a triangular number (that is, $N=1+2+\ldots+k$ for some $k$ ), then it is known that deterministic Bulgarian solitaire will reach a stable configuration in which the size of the piles is $1,2,\ldots k$ . This state is reached $k 2 - k$ moves or fewer. If $N$ is not triangular, no stable configuration exists and a limit cycle is reached.

In 2004, Brazilian probabilist of Russian origin Serguei Popov showed that stochastic Bulgarian solitaire spends "most" of its time in a "roughly" triangular distribution.

[edit] References

Serguei Popov (2005). "Random Bulgarian solitaire". Random Structures and Algorithms 27(3): 310-330.
Ethan Akin and Morton Davis (1985). "Bulgarian solitaire". American Mathematical Monthly 92(4): 237-250.

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Categories: Recreational mathematics | Combinatorial game theory

Bulgarian solitaire

From Wikipedia, the free encyclopedia

[edit] References

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