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A TT-Based Hierarchical Framework for Decomposing High-Order Tensors

Abstract : In the context of big data, high-order tensor decompositions have to face a new challenge in terms of storage and computational costs. The tensor train (TT) decomposition provides a very useful graph-based model reduction, whose storage cost grows linearly with the tensor order D. The computation of the TT-core tensors and TT-ranks can be done in a stable sequential (i.e., non-iterative) way thanks to the popular TT-SVD algorithm. In this paper, we exploit the ideas developed for the hierarchical/tree Tucker decomposition in the context of the TT decomposition. Specifically, a new efficient estimation scheme, called TT-HSVD for Tensor-Train Hierarchical SVD, is proposed as a solution to compute the TT decomposition of a high-order tensor. The new algorithm simultaneously delivers the TT-core tensors and their TT-ranks in a hierarchical way. It is a stable (i.e., non-iterative) and computationally more efficient algorithm than the TT-SVD one, which is very important when dealing with large-scale data. The TT-HSVD algorithm uses a new reshaping strategy and a tailored partial SVD, which allows to deal with smaller matrices compared to those of the TT-SVD. In addition, TT-HSVD suits well for a parallel processing architecture. An algebraic analysis of the two algorithms is carried out, showing that TT-SVD and TT-HSVD compute the same TT-ranks and TT-core tensors up to specific bases. Simulation results for different tensor orders and dimensions corroborate the effectiveness of the proposed algorithm.
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Contributor : Remy Boyer Connect in order to contact the contributor
Submitted on : Monday, January 13, 2020 - 7:30:02 AM
Last modification on : Thursday, March 24, 2022 - 3:43:39 AM
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Yassine Zniyed, Remy Boyer, André de Almeida, Gérard Favier. A TT-Based Hierarchical Framework for Decomposing High-Order Tensors. SIAM Journal on Scientific Computing, Society for Industrial and Applied Mathematics, 2020, 42 (2), pp.A822-A848. ⟨10.1137/18m1229973⟩. ⟨hal-02436368⟩



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