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DPar2: Fast and Scalable PARAFAC2 Decomposition for Irregular Dense Tensors

Jun-Gi Jang, U Kang

20222022 IEEE 38th International Conference on Data Engineering (ICDE)16 citationsDOI

Abstract

Given an irregular dense tensor, how can we ef-ficiently analyze it? An irregular tensor is a collection of matrices whose columns have the same size and rows have different sizes from each other. PARAFAC2 decomposition is a fundamental tool to deal with an irregular tensor in applications including phenotype discovery and trend analysis. Although several PARAFAC2 decomposition methods exist, their efficiency is limited for irregular dense tensors due to the expensive computations involved with the tensor. In this paper, we propose DP AR2, a fast and scalable PARAFAC2 decomposition method for irregular dense tensors. DP AR2 achieves high efficiency by effectively compressing each slice matrix of a given irregular tensor, careful reordering of computations with the compression results, and exploiting the ir-regularity of the tensor. Extensive experiments show that DP AR2 is up to 6.0 x faster than competitors on real-world irregular tensors while achieving comparable accuracy. In addition, DP AR2 is scalable with respect to the tensor size and target rank.

Topics & Concepts

Tensor (intrinsic definition)ComputationScalabilityMatrix decompositionTensor decompositionRank (graph theory)Computer scienceMathematicsCompression (physics)AlgorithmGeometryCombinatoricsPhysicsEigenvalues and eigenvectorsDatabaseQuantum mechanicsThermodynamicsTensor decomposition and applicationsAlgorithms and Data Compression
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