Research Output
Towards Faster Training Algorithms Exploiting Bandit Sampling From Convex to Strongly Convex Conditions
  The training process for deep learning and pattern recognition normally involves the use of convex and strongly convex optimization algorithms such as AdaBelief and SAdam to handle lots of “uninformative” samples that should be ignored, thus incurring extra calculations. To solve this open problem, we propose to design bandit sampling method to make these algorithms focus on “informative” samples during training process. Our contribution is twofold: first, we propose a convex optimization algorithm with bandit sampling, termed AdaBeliefBS, and prove that it converges faster than its original version; second, we prove that bandit sampling works well for strongly convex algorithms, and propose a generalized SAdam, called SAdamBS, that converges faster than SAdam. Finally, we conduct a series of experiments on various benchmark datasets to verify the fast convergence rate of our proposed algorithms.

  • Type:

    Article

  • Date:

    23 May 2022

  • Publication Status:

    In Press

  • Publisher

    Institute of Electrical and Electronics Engineers (IEEE)

  • DOI:

    10.1109/tetci.2022.3171797

  • Cross Ref:

    10.1109/tetci.2022.3171797

  • ISSN:

    2471-285X

  • Funders:

    New Funder; National Natural Science Foundation of China; Engineering and Physical Sciences Research Council; EPSRC Engineering and Physical Sciences Research Council

Citation

Zhou, Y., Huang, K., Cheng, C., Wang, X., Hussain, A., & Liu, X. (in press). Towards Faster Training Algorithms Exploiting Bandit Sampling From Convex to Strongly Convex Conditions. IEEE Transactions on Emerging Topics in Computational Intelligence, https://doi.org/10.1109/tetci.2022.3171797

Authors

Keywords

Bandit sampling, convex optimization, image processing, training algorithm

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