Classical and Quantum Algorithms for Variants of Subset-Sum via Dynamic Programming

Allcock, Jonathan and Hamoudi, Yassine and Joux, Antoine and Klingelhöfer, Felix and Santha, Miklos
(2022) Classical and Quantum Algorithms for Variants of Subset-Sum via Dynamic Programming.
In: ESA 2022.
Conference: ESA European Symposium on Algorithms

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Abstract

Subset-Sum is an NP-complete problem where one must decide if a multiset of n integers contains a subset whose elements sum to a target value m. The best known classical and quantum algorithms run in time Oe(2n/2 ) and Oe(2n/3 ), respectively, based on the well-known meet-in-the-middle technique. Here we introduce a novel classical dynamic-programming-based data structure with applications to Subset-Sum and a number of variants, including Equal-Sums (where one seeks two disjoint subsets with the same sum), 2-Subset-Sum (a relaxed version of Subset-Sum where each item in the input set can be used twice in the summation), and Shifted-Sums, a generalization of both of these variants, where one seeks two disjoint subsets whose sums differ by some specified value. Given any modulus p, our data structure can be constructed in time O(np), after which queries can be made in time O(n) to the lists of subsets summing to any value modulo p. We use this data structure in combination with variable-time amplitude amplification and a new quantum pair finding algorithm, extending the quantum claw finding algorithm to the multiple solutions case, to give an O(20.504n ) quantum algorithm for Shifted-Sums. This provides a notable improvement on the best known O(20.773n ) classical running time established by Mucha et al. [27]. We also study Pigeonhole Equal-Sums, a variant of Equal-Sums where the existence of a solution is guaranteed by the pigeonhole principle. For this problem we give faster classical and quantum algorithms with running time Oe(2n/2 ) and Oe(22n/5 ), respectively.

Item Type: Conference or Workshop Item (A Paper) (Paper)
Divisions: Antoine Joux (AJ)
Conference: ESA European Symposium on Algorithms
Depositing User: Jonas Schneider-Bensch
Date Deposited: 07 Jun 2023 10:06
Last Modified: 07 Jun 2023 10:06
Primary Research Area: NRA1: Trustworthy Information Processing
URI: https://publications.cispa.saarland/id/eprint/3964

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