On the Relationship Between Several Variants of the Linear Hashing Conjecture

Abstract

In Linear Hashing (LH) with β bins on a size u universe U=\0,1,…, u-1\, items \x1,x2,…, xn\⊂ U are placed in bins by the hash function xi (axi+b) p β for some prime p∈ [u,2u] and randomly chosen integers a,b ∈ [1,p]. The "maxload" of LH is the number of items assigned to the fullest bin. Expected maxload for a worst-case set of items is a natural measure of how well LH distributes items amongst the bins. Fix β=n. Despite LH's simplicity, bounding LH's worst-case maxload is extremely challenging. It is well-known that on random inputs LH achieves maxload ( n n); this is currently the best lower bound for LH's expected maxload. Recently Knudsen established an upper bound of O(n1 / 3). The question "Is the worst-case expected maxload of LH no(1)?" is one of the most basic open problems in discrete math. In this paper we propose a set of intermediate open questions to help researchers make progress on this problem. We establish the relationship between these intermediate open questions and make some partial progress on them.