Hierarchical Agglomerative Graph Clustering in Nearly-Linear Time
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We study the widely used hierarchical agglomerative clustering (HAC) algorithm on edge-weighted graphs. We define an algorithmic framework for hierarchical agglomerative graph clustering that provides the first efficient Õ(m) time exact algorithms for classic linkage measures, such as complete- and WPGMA-linkage, as well as other measures. Furthermore, for average-linkage, arguably the most popular variant of HAC, we provide an algorithm that runs in Õ(n√(m)) time. For this variant, this is the first exact algorithm that runs in subquadratic time, as long as m=n^2-ϵ for some constant ϵ > 0. We complement this result with a simple ϵ-close approximation algorithm for average-linkage in our framework that runs in Õ(m) time. As an application of our algorithms, we consider clustering points in a metric space by first using k-NN to generate a graph from the point set, and then running our algorithms on the resulting weighted graph. We validate the performance of our algorithms on publicly available datasets, and show that our approach can speed up clustering of point datasets by a factor of 20.7–76.5x.
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