Short rational generating functions for lattice point problems

Authors:
Alexander Barvinok and Kevin Woods

Journal:
J. Amer. Math. Soc. **16** (2003), 957-979

MSC (2000):
Primary 05A15, 11P21, 13P10, 68W30

DOI:
https://doi.org/10.1090/S0894-0347-03-00428-4

Published electronically:
April 25, 2003

MathSciNet review:
1992831

Full-text PDF Free Access

Abstract | References | Similar Articles | Additional Information

Abstract: We prove that for any fixed $d$ the generating function of the projection of the set of integer points in a rational $d$-dimensional polytope can be computed in polynomial time. As a corollary, we deduce that various interesting sets of lattice points, notably integer semigroups and (minimal) Hilbert bases of rational cones, have short rational generating functions provided certain parameters (the dimension and the number of generators) are fixed. It follows then that many computational problems for such sets (for example, finding the number of positive integers not representable as a non-negative integer combination of given coprime positive integers $a_{1}, \ldots , a_{d}$) admit polynomial time algorithms. We also discuss a related problem of computing the Hilbert series of a ring generated by monomials.

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Additional Information

**Alexander Barvinok**

Affiliation:
Department of Mathematics, University of Michigan, Ann Arbor, Michigan 48109-1109

MR Author ID:
237145

Email:
barvinok@umich.edu

**Kevin Woods**

Affiliation:
Department of Mathematics, University of Michigan, Ann Arbor, Michigan 48109-1109

Email:
kmwoods@umich.edu

Keywords:
Frobenius problem,
semigroup,
Hilbert series,
Hilbert basis,
generating functions,
computational complexity

Received by editor(s):
November 20, 2002

Published electronically:
April 25, 2003

Additional Notes:
This research was partially supported by NSF Grant DMS 9734138. The second author was partially supported by an NSF VIGRE Fellowship and an NSF Graduate Research Fellowship.

Article copyright:
© Copyright 2003
American Mathematical Society