Approximating Nash Social Welfare by Matching and Local Search

Jugal Garg; Edin Husic; Wenzheng Li; László A. Végh; Jan Vondrák

Approximating Nash Social Welfare by Matching and Local Search

Jugal Garg, Edin Husic, Wenzheng Li, László A. Végh, Jan Vondrák

Published: 01 Jan 2023, Last Modified: 20 Jun 2024STOC 2023EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: For any >0, we give a simple, deterministic (4+)-approximation algorithm for the Nash social welfare (NSW) problem under submodular valuations. The previous best approximation factor was 380 via a randomized algorithm. We also consider the asymmetric variant of the problem, where the objective is to maximize the weighted geometric mean of agents’ valuations, and give an (ω + 2 + ) -approximation if the ratio between the largest weight and the average weight is at most ω. We also show that the 12-EFX envy-freeness property can be attained simultaneously with a constant-factor approximation. More precisely, we can find an allocation in polynomial time which is both 12-EFX and a (8+)-approximation to the symmetric NSW problem under submodular valuations. The previous best approximation factor under 12-EFX was linear in the number of agents.

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