Simultaneously Approximating All Norms for Massively Parallel Correlation Clustering
October 12, 2024 Β· Declared Dead Β· π International Colloquium on Automata, Languages and Programming
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Authors
Nairen Cao, Shi Li, Jia Ye
arXiv ID
2410.09321
Category
cs.DS: Data Structures & Algorithms
Citations
2
Venue
International Colloquium on Automata, Languages and Programming
Last Checked
4 months ago
Abstract
We revisit the simultaneous approximation model for the correlation clustering problem introduced by Davies, Moseley, and Newman[DMN24]. The objective is to find a clustering that minimizes given norms of the disagreement vector over all vertices. We present an efficient algorithm that produces a clustering that is simultaneously a $63.3$-approximation for all monotone symmetric norms. This significantly improves upon the previous approximation ratio of $6348$ due to Davies, Moseley, and Newman[DMN24], which works only for $\ell_p$-norms. To achieve this result, we first reduce the problem to approximating all top-$k$ norms simultaneously, using the connection between monotone symmetric norms and top-$k$ norms established by Chakrabarty and Swamy [CS19]. Then we develop a novel procedure that constructs a $12.66$-approximate fractional clustering for all top-$k$ norms. Our $63.3$-approximation ratio is obtained by combining this with the $5$-approximate rounding algorithm by Kalhan, Makarychev, and Zhou[KMZ19]. We then demonstrate that with a loss of $Ξ΅$ in the approximation ratio, the algorithm can be adapted to run in nearly linear time and in the MPC (massively parallel computation) model with poly-logarithmic number of rounds. By allowing a further trade-off in the approximation ratio to $(359+Ξ΅)$, the number of MPC rounds can be reduced to a constant.
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