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Efficient Neural Architecture Search via Proximal Iterations

Efficient Neural Architecture Search via Proximal Iterations
Efficient Neural Architecture Search via Proximal Iterations
Neural architecture search (NAS) attracts much research attention because of its ability to identify better architectures than handcrafted ones. Recently, differentiable search methods become the state-of-the-arts on NAS, which can obtain high-performance architectures in several days. However, they still suffer from huge computation costs and inferior performance due to the construction of the supernet. In this paper, we propose an efficient NAS method based on proximal iterations (denoted as NASP). Different from previous works, NASP reformulates the search process as an optimization problem with a discrete constraint on architectures and a regularizer on model complexity. As the new objective is hard to solve, we further propose an efficient algorithm inspired by proximal iterations for optimization. In this way, NASP is not only much faster than existing differentiable search methods, but also can find better architectures and balance the model complexity. Finally, extensive experiments on various tasks demonstrate that NASP can obtain high-performance architectures with more than 10 times speedup over the state-of-the-arts.
2159-5399
4
6664-6671
AAAI Press
Yao, Quanming
08105b6e-46d8-499b-a75f-4230f6d54db5
Xu, Ju
01a01bbe-ba4e-43f8-a421-9d5ef5b25f9a
Tu, Wei-Wei
cb815d6d-3ab5-4e0d-a47d-ead7565c9f27
Zhu, Zhanxing
e55e7385-8ba2-4a85-8bae-e00defb7d7f0
Yao, Quanming
08105b6e-46d8-499b-a75f-4230f6d54db5
Xu, Ju
01a01bbe-ba4e-43f8-a421-9d5ef5b25f9a
Tu, Wei-Wei
cb815d6d-3ab5-4e0d-a47d-ead7565c9f27
Zhu, Zhanxing
e55e7385-8ba2-4a85-8bae-e00defb7d7f0

Yao, Quanming, Xu, Ju, Tu, Wei-Wei and Zhu, Zhanxing (2020) Efficient Neural Architecture Search via Proximal Iterations. In Proceedings of the AAAI Conference on Artificial Intelligence. vol. 34, AAAI Press. pp. 6664-6671 . (doi:10.1609/aaai.v34i04.6143).

Record type: Conference or Workshop Item (Paper)

Abstract

Neural architecture search (NAS) attracts much research attention because of its ability to identify better architectures than handcrafted ones. Recently, differentiable search methods become the state-of-the-arts on NAS, which can obtain high-performance architectures in several days. However, they still suffer from huge computation costs and inferior performance due to the construction of the supernet. In this paper, we propose an efficient NAS method based on proximal iterations (denoted as NASP). Different from previous works, NASP reformulates the search process as an optimization problem with a discrete constraint on architectures and a regularizer on model complexity. As the new objective is hard to solve, we further propose an efficient algorithm inspired by proximal iterations for optimization. In this way, NASP is not only much faster than existing differentiable search methods, but also can find better architectures and balance the model complexity. Finally, extensive experiments on various tasks demonstrate that NASP can obtain high-performance architectures with more than 10 times speedup over the state-of-the-arts.

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e-pub ahead of print date: 3 April 2020

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Local EPrints ID: 486292
URI: http://eprints.soton.ac.uk/id/eprint/486292
ISSN: 2159-5399
PURE UUID: 2875a0e4-c103-4d8e-8fcb-9dfe14f86109

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Date deposited: 16 Jan 2024 17:51
Last modified: 17 Mar 2024 06:51

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Contributors

Author: Quanming Yao
Author: Ju Xu
Author: Wei-Wei Tu
Author: Zhanxing Zhu

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