New bounds for perfect k-hashing

Abstract

Let C⊂eq \1,…,k\n be such that for any k distinct elements of C there exists a coordinate where they all differ simultaneously. Fredman and Koml\'os studied upper and lower bounds on the largest cardinality of such a set C, in particular proving that as n∞, |C|≤ (n k!/kk-1+o(n)). Improvements over this result where first derived by different authors for k=4. More recently, Guruswami and Riazanov showed that the coefficient k!/kk-1 is certainly not tight for any k>3, although they could only determine explicit improvements for k=5,6. For larger k, their method gives numerical values modulo a conjecture on the maxima of certain polynomials. In this paper, we first prove their conjecture, completing the explicit computation of an improvement over the Fredman-Koml\'os bound for any k. Then, we develop a different method which gives substantial improvements for k=5,6.