An Online Hierarchical Algorithm for Extreme Clustering
Abstract
Many modern clustering methods scale well to a large number of data items, N, but not to a large number of clusters, K. This paper introduces PERCH, a new non-greedy algorithm for online hierarchical clustering that scales to both massive N and K--a problem setting we term extreme clustering. Our algorithm efficiently routes new data points to the leaves of an incrementally-built tree. Motivated by the desire for both accuracy and speed, our approach performs tree rotations for the sake of enhancing subtree purity and encouraging balancedness. We prove that, under a natural separability assumption, our non-greedy algorithm will produce trees with perfect dendrogram purity regardless of online data arrival order. Our experiments demonstrate that PERCH constructs more accurate trees than other tree-building clustering algorithms and scales well with both N and K, achieving a higher quality clustering than the strongest flat clustering competitor in nearly half the time.
Cite
@article{arxiv.1704.01858,
title = {An Online Hierarchical Algorithm for Extreme Clustering},
author = {Ari Kobren and Nicholas Monath and Akshay Krishnamurthy and Andrew McCallum},
journal= {arXiv preprint arXiv:1704.01858},
year = {2017}
}
Comments
20 pages. Code available here: https://github.com/iesl/xcluster