Statistical and Computational Trade-Offs in Kernel K-Means

Daniele Calandriello; Lorenzo Rosasco

2018 NIPS NeurIPS 2018

Statistical and Computational Trade-Offs in Kernel K-Means

Abstract

We investigate the efficiency of k-means in terms of both statistical and computational requirements. More precisely, we study a Nystr\"om approach to kernel k-means. We analyze the statistical properties of the proposed method and show that it achieves the same accuracy of exact kernel k-means with only a fraction of computations. Indeed, we prove under basic assumptions that sampling $\sqrt{n}$ Nystr\"om landmarks allows to greatly reduce computational costs without incurring in any loss of accuracy. To the best of our knowledge this is the first result showing in this kind for unsupervised learning.

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Authors

Daniele Calandriello , Lorenzo Rosasco

Topics

Machine Learning > Core Methods > Clustering Machine Learning > Optimization & Theory > Optimization Machine Learning > Optimization & Theory > Efficient Computing Machine Learning > Optimization & Theory > Kernel Methods

Keywords

statistical learning unsupervised learning computational complexity computational efficiency nystrom method nyström method statistical accuracy kernel k-mean

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