The relaxation complexity of the standard simplex is logarithmic
Abstract
For a set X of integer points, the relaxation complexity rc(X) is the smallest number of facets of any polyhedron P such that P Zd = X. In this paper, we focus on the case where X is the discrete standard simplex Δd = \0, e1, …, ed\. We show that rc(Δd) = O( d) by an explicit, elementary construction. This improves upon the previously best-known upper bound rc(Δd) = O(d / d) due to Aprile, Averkov, Di Summa, and Hojny (2024) and matches an asymptotic lower bound by Averkov and Schymura (2022).
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