Publications [#243907] of Ezra MillerOther Faculty Listings: Faculty Alphabetically | By Rank | By Area
Peer-reviewed journal articles published
- with Guo, A; Miller, E. "Lattice point methods for combinatorial games." Advances in Applied Mathematics 46.1-4 (January, 2011): 363-378. ([math.CO/0908.3473] [math.CO/1105.5420]) [repository], [doi]
(last updated on 2022/05/17)
We encode arbitrary finite impartial combinatorial games in terms of lattice points in rational convex polyhedra. Encodings provided by these lattice games can be made particularly efficient for octal games, which we generalize to squarefree games. These encompass all heap games in a natural setting where the Sprague-Grundy theorem for normal play manifests itself geometrically. We provide an algorithm to compute normal play strategies. The setting of lattice games naturally allows for misère play, where 0 is declared a losing position. Lattice games also allow situations where larger finite sets of positions are declared losing. Generating functions for sets of winning positions provide data structures for strategies of lattice games. We conjecture that every lattice game has a rational strategy: a rational generating function for its winning positions. Additionally, we conjecture that every lattice game has an affine stratification: a partition of its set of winning positions into a finite disjoint union of finitely generated modules for affine semigroups. This conjecture is true for normal-play squarefree games and every lattice game with finite misère quotient. © 2010 Elsevier Inc. All rights reserved.