Query Lower Bounds for Correlation Clustering under Memory Constraints
Abstract
This work initiates the study of memory-query tradeoffs for graph problems, with a focus on correlation clustering. Correlation clustering asks for a partition of the vertices that minimizes disagreements: non-edges inside clusters plus edges across clusters. Our first result is a tight query lower bound: to output a partition whose cost approximates the optimum up to an additive error of , any algorithm requires adjacency-matrix queries. Under memory constraints, we show that even for the seemingly easier task of approximating the optimal clustering cost (without producing a partition), any algorithm in the random query model must make adjacency-matrix queries. Finally, we prove the first general graph model query lower bound for correlation clustering, where algorithms are allowed adjacency-matrix, neighbor, and degree queries. The latter two bounds are not yet tight, leaving room for sharper results.
Cite
@article{arxiv.2605.23104,
title = {Query Lower Bounds for Correlation Clustering under Memory Constraints},
author = {Sumegha Garg and Songhua He and Periklis A. Papakonstantinou},
journal= {arXiv preprint arXiv:2605.23104},
year = {2026}
}
Comments
accepted by ITCS 2026