Litcius/Paper detail

Enhanced Network Compression Through Tensor Decompositions and Pruning

Van Tien Pham, Yassine Zniyed, Thanh Phương Nguyễn

2024IEEE Transactions on Neural Networks and Learning Systems46 citationsDOIOpen Access PDF

Abstract

Network compression techniques that combine tensor decompositions and pruning have shown promise in leveraging the advantages of both strategies. In this work, we propose enhanced Network cOmpRession through TensOr decompositions and pruNing (NORTON), a novel method for network compression. NORTON introduces the concept of filter decomposition, enabling a more detailed decomposition of the network while preserving the weight's multidimensional properties. Our method incorporates a novel structured pruning approach, effectively integrating the decomposed model. Through extensive experiments on various architectures, benchmark datasets, and representative vision tasks, we demonstrate the usefulness of our method. NORTON achieves superior results compared to state-of-the-art (SOTA) techniques in terms of complexity and accuracy. Our code is also available for research purposes.

Topics & Concepts

PruningTensor (intrinsic definition)Compression (physics)MathematicsComputer scienceArtificial intelligenceMaterials sciencePure mathematicsBiologyBotanyComposite materialTensor decomposition and applicationsAlgorithms and Data CompressionAdvanced Data Compression Techniques