1. Decentralized Gradient-Free Methods for Stochastic Non-Smooth Non-Convex Optimization
- Author
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Lin, Zhenwei, Xia, Jingfan, Deng, Qi, and Luo, Luo
- Subjects
Mathematics - Optimization and Control ,Computer Science - Distributed, Parallel, and Cluster Computing - Abstract
We consider decentralized gradient-free optimization of minimizing Lipschitz continuous functions that satisfy neither smoothness nor convexity assumption. We propose two novel gradient-free algorithms, the Decentralized Gradient-Free Method (DGFM) and its variant, the Decentralized Gradient-Free Method$^+$ (DGFM$^{+}$). Based on the techniques of randomized smoothing and gradient tracking, DGFM requires the computation of the zeroth-order oracle of a single sample in each iteration, making it less demanding in terms of computational resources for individual computing nodes. Theoretically, DGFM achieves a complexity of $\mathcal O(d^{3/2}\delta^{-1}\varepsilon ^{-4})$ for obtaining an $(\delta,\varepsilon)$-Goldstein stationary point. DGFM$^{+}$, an advanced version of DGFM, incorporates variance reduction to further improve the convergence behavior. It samples a mini-batch at each iteration and periodically draws a larger batch of data, which improves the complexity to $\mathcal O(d^{3/2}\delta^{-1} \varepsilon^{-3})$. Moreover, experimental results underscore the empirical advantages of our proposed algorithms when applied to real-world datasets.
- Published
- 2023