Open AccessLow-Rank Tucker Approximation of a Tensor from Streaming Data
Author(s) -
Yiming Sun,
Yang Guo,
Charlene Luo,
Joel A. Tropp,
Madeleine Udell
Publication year - 2020
Publication title -
siam journal on mathematics of data science
Language(s) - English
Resource type - Journals
ISSN - 2577-0187
DOI - 10.1137/19m1257718
Subject(s) - tucker decomposition , tensor (intrinsic definition) , sketch , approximation error , computer science , exploit , rank (graph theory) , degrees of freedom (physics and chemistry) , approximation algorithm , mathematics , algorithm , mathematical optimization , tensor decomposition , geometry , physics , combinatorics , computer security , quantum mechanics
This paper describes a new algorithm for computing a low-Tucker-rank approximation of a tensor. The method applies a randomized linear map to the tensor to obtain a sketch that captures the important directions within each mode, as well as the interactions among the modes. The sketch can be extracted from streaming or distributed data or with a single pass over the tensor, and it uses storage proportional to the degrees of freedom in the output Tucker approximation. The algorithm does not require a second pass over the tensor, although it can exploit another view to compute a superior approximation. The paper provides a rigorous theoretical guarantee on the approximation error. Extensive numerical experiments show that that the algorithm produces useful results that improve on the state of the art for streaming Tucker decomposition.
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