Explicit Min-wise Hash Families with Optimal Size

October 12, 2025 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Xue Chen, Shengtang Huang, Xin Li arXiv ID 2510.10431 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DM Citations 0 Venue arXiv.org Last Checked 4 months ago
Abstract
We study explicit constructions of min-wise hash families and their extension to $k$-min-wise hash families. Informally, a min-wise hash family guarantees that for any fixed subset $X\subseteq[N]$, every element in $X$ has an equal chance to have the smallest value among all elements in $X$; a $k$-min-wise hash family guarantees this for every subset of size $k$ in $X$. Min-wise hash is widely used in many areas of computer science such as sketching, web page detection, and $\ell_0$ sampling. The classical works by Indyk and PΔƒtraşcu and Thorup have shown $Θ(\log(1/Ξ΄))$-wise independent families give min-wise hash of multiplicative (relative) error $Ξ΄$, resulting in a construction with $Θ(\log(1/Ξ΄)\log N)$ random bits. Based on a reduction from pseudorandom generators for combinatorial rectangles by Saks, Srinivasan, Zhou and Zuckerman, Gopalan and Yehudayoff improved the number of bits to $O(\log N\log\log N)$ for polynomially small errors $Ξ΄$. However, no construction with $O(\log N)$ bits (polynomial size family) and sub-constant error was known before. In this work, we continue and extend the study of constructing ($k$-)min-wise hash families from pseudorandomness for combinatorial rectangles and read-once branching programs. Our main result gives the first explicit min-wise hash families that use an optimal (up to constant) number of random bits and achieve a sub-constant (in fact, almost polynomially small) error, specifically, an explicit family of $k$-min-wise hash with $O(k\log N)$ bits and $2^{-O(\log N/\log\log N)}$ error. This improves all previous results for any $k=\log^{O(1)}N$ under $O(k \log N)$ bits. Our main techniques involve several new ideas to adapt the classical Nisan-Zuckerman pseudorandom generator to fool min-wise hashing with a multiplicative error.
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