Local Distributed Rounding: Generalized to MIS, Matching, Set Cover, and Beyond

Author(s)

Faour, Salwa; Ghaffari, Mohsen; Grunau, Christoph; Kuhn, Fabian; Rozho?, V?clav

Abstract

We develop a general deterministic distributed method for locally rounding fractional solutions of graph problems for which the analysis can be broken down into analyzing pairs of vertices. Roughly speaking, the method can transform fractional/probabilistic label assignments of the vertices into integral/deterministic label assignments for the vertices, while approximately preserving a potential function that is a linear combination of functions, each of which depends on at most two vertices (subject to some conditions usually satisfied in pairwise analyses). The method unifies and significantly generalizes prior work on deterministic local rounding techniques [Ghaffari, Kuhn FOCS'21; Harris FOCS'19; Fischer, Ghaffari, Kuhn FOCS'17; Fischer DISC' to obtain polylogarithmic-time deterministic distributed solutions for combinatorial graph problems. Our general rounding result enables us to locally and efficiently derandomize a range of distributed algorithms for local graph problems, including maximal independent set (MIS), maximum-weight independent set approximation, and minimum-cost set cover approximation.

URI

https://hdl.handle.net/1721.1/164802

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

ACM Transactions on Algorithms

Publisher

ACM

Citation

Salwa Faour, Mohsen Ghaffari, Christoph Grunau, Fabian Kuhn, and Václav Rozhoň. 2025. Local Distributed Rounding: Generalized to MIS, Matching, Set Cover, and Beyond. ACM Trans. Algorithms 21, 4, Article 42 (October 2025), 48 pages.

Version: Final published version

ISSN

1549-6325