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Pruning by explaining: A novel criterion for deep neural network pruning

Authors
Yeom, S.-K.Seegerer, P.Lapuschkin, S.Binder, A.Wiedemann, S.Müller, K.-R.Samek, W.
Issue Date
7월-2021
Publisher
Elsevier Ltd
Keywords
Convolutional neural network (CNN); Explainable AI (XAI); Interpretation of models; Layer-wise relevance propagation (LRP); Pruning
Citation
Pattern Recognition, v.115
Indexed
SCIE
SCOPUS
Journal Title
Pattern Recognition
Volume
115
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/128751
DOI
10.1016/j.patcog.2021.107899
ISSN
0031-3203
Abstract
The success of convolutional neural networks (CNNs) in various applications is accompanied by a significant increase in computation and parameter storage costs. Recent efforts to reduce these overheads involve pruning and compressing the weights of various layers while at the same time aiming to not sacrifice performance. In this paper, we propose a novel criterion for CNN pruning inspired by neural network interpretability: The most relevant units, i.e. weights or filters, are automatically found using their relevance scores obtained from concepts of explainable AI (XAI). By exploring this idea, we connect the lines of interpretability and model compression research. We show that our proposed method can efficiently prune CNN models in transfer-learning setups in which networks pre-trained on large corpora are adapted to specialized tasks. The method is evaluated on a broad range of computer vision datasets. Notably, our novel criterion is not only competitive or better compared to state-of-the-art pruning criteria when successive retraining is performed, but clearly outperforms these previous criteria in the resource-constrained application scenario in which the data of the task to be transferred to is very scarce and one chooses to refrain from fine-tuning. Our method is able to compress the model iteratively while maintaining or even improving accuracy. At the same time, it has a computational cost in the order of gradient computation and is comparatively simple to apply without the need for tuning hyperparameters for pruning. © 2021 The Authors
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