CSER: Communication-Efficient SGD with Error Reset
Abstract
The scalability of Distributed Stochastic Gradient Descent (SGD) is today limited by communication bottlenecks. We propose a novel SGD variant: \underline{C}ommunication-efficient \underline{S}GD with \underline{E}rror \underline{R}eset, or \underline{CSER}. The key idea in CSER is first a new technique called ``error reset'' that adapts arbitrary compressors for SGD, producing bifurcated local models with periodic reset of resulting local residual errors. Second we introduce partial synchronization for both the gradients and the models, leveraging advantages from them. We prove the convergence of CSER for smooth non-convex problems. Empirical results show that when combined with highly aggressive compressors, the CSER algorithms accelerate the distributed training by nearly $10\times$ for CIFAR-100, and by $4.5\times$ for ImageNet.
Cite
Text
Xie et al. "CSER: Communication-Efficient SGD with Error Reset." Neural Information Processing Systems, 2020.Markdown
[Xie et al. "CSER: Communication-Efficient SGD with Error Reset." Neural Information Processing Systems, 2020.](https://mlanthology.org/neurips/2020/xie2020neurips-cser/)BibTeX
@inproceedings{xie2020neurips-cser,
title = {{CSER: Communication-Efficient SGD with Error Reset}},
author = {Xie, Cong and Zheng, Shuai and Koyejo, Sanmi and Gupta, Indranil and Li, Mu and Lin, Haibin},
booktitle = {Neural Information Processing Systems},
year = {2020},
url = {https://mlanthology.org/neurips/2020/xie2020neurips-cser/}
}