Fast and Faster: A Comparison of Two Streamed Matrix Decomposition Algorithms
Authors | |
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Year of publication | 2010 |
Type | Article in Proceedings |
Conference | NIPS 2010 workshop on Low-rank Methods for Large-scale Machine Learning |
MU Faculty or unit | |
Citation | |
Web | |
Field | Information theory |
Keywords | svd lda lsi |
Description | With the explosion of the size of digital dataset, the limiting factor for decomposition algorithms is the \emph{number of passes} over the input, as the input is often stored out-of-core or even off-site. Moreover, we're only interested in algorithms that operate in \emph{constant memory} w.r.t. to the input size, so that arbitrarily large input can be processed. In this paper, we present a practical comparison of two such algorithms: a distributed method that operates in a single pass over the input vs. a streamed two-pass stochastic algorithm. The experiments track the effect of distributed computing, oversampling and memory trade-offs on the accuracy and performance of the two algorithms. To ensure meaningful results, we choose the input to be a real dataset, namely the whole of the English Wikipedia, in the application settings of Latent Semantic Analysis. |
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