Shannon number

Claude Shannon

The Shannon number, named after Claude Shannon, is a conservative lower bound (not an estimate) of the game-tree complexity of chess of 10¹²⁰, based on an average of about 10³ possibilities for a pair of moves consisting of a move for White followed by one for Black, and a typical game lasting about 40 such pairs of moves.

Shannon's calculation

Shannon showed a calculation for the lower bound of the game-tree complexity of chess, resulting in about 10¹²⁰ possible games, to demonstrate the impracticality of solving chess by brute force, in his 1950 paper "Programming a Computer for Playing Chess".^[1] (This influential paper introduced the field of computer chess.)

Shannon also estimated the number of possible positions, "of the general order of $\scriptstyle {\frac {64!}{32!{8!}^{2}{2!}^{6}}}$ , or roughly 10⁴³". This includes some illegal positions (e.g., pawns on the first rank, both kings in check) and excludes legal positions following captures and promotions. Taking these into account, Victor Allis calculated an upper bound of 5×10⁵² for the number of positions, and estimated the true number to be about 10⁵⁰.^[2] Recent results^[3] improve that estimate, by proving an upper bound of only 2¹⁵⁵, which is less than 10^46.7 and showing^[4] an upper bound 2×10⁴⁰ in the absence of promotions.

Allis also estimated the game-tree complexity to be at least 10¹²³, "based on an average branching factor of 35 and an average game length of 80". As a comparison, the number of atoms in the observable universe, to which it is often compared, is roughly estimated to be 10⁸⁰.

Number of moves	Number of possible games
1	20
2	400
3	8,902
4	197,281
5	4,865,609
6	119,060,324
7	3,195,901,860
8	84,998,978,956
9	2,439,530,234,167
10	69,352,859,712,417

After each player has moved 5 times there are 69,352,859,712,417 possible games that could have been played.

Number of sensible chess games

As a comparison to the Shannon number, if chess is analyzed for the number of "sensible" games that can be played (not counting ridiculous or obvious game-losing moves such as moving a queen to be immediately captured by a pawn without compensation), then the result is closer to around 10⁴⁰ games. This is based on having a choice of about three sensible moves at each ply (half a move), and a game length of 80 ply (40 moves).^[5]

Notes and references

↑ Claude Shannon (1950). "Programming a Computer for Playing Chess" (PDF). Philosophical Magazine. 41 (314).
↑ Victor Allis (1994). Searching for Solutions in Games and Artificial Intelligence (PDF). Ph.D. Thesis, University of Limburg, Maastricht, The Netherlands. ISBN 90-900748-8-0.
↑ John Tromp (2010). "John's Chess Playground".
↑ S. Steinerberger (2014). International Journal of Game Theory.
↑ "How many chess games are possible?" Dr. James Grime talking about the Shannon Number and other chess stuff (films by Brady Haran). MSRI, Mathematical Sciences.

External links

Mathematics and chess

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[1] Claude Shannon (1950). "Programming a Computer for Playing Chess" (PDF). Philosophical Magazine. 41 (314).

[2] Victor Allis (1994). Searching for Solutions in Games and Artificial Intelligence (PDF). Ph.D. Thesis, University of Limburg, Maastricht, The Netherlands. ISBN 90-900748-8-0.

[3] John Tromp (2010). "John's Chess Playground".

[4] S. Steinerberger (2014). International Journal of Game Theory.

[5] "How many chess games are possible?" Dr. James Grime talking about the Shannon Number and other chess stuff (films by Brady Haran). MSRI, Mathematical Sciences.

Shannon number

Shannon's calculation

Number of sensible chess games

See also

Notes and references

External links