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AET-SGD: Asynchronous Event-triggered Stochastic Gradient Descent

Machine Learning 2021-12-30 v1

Abstract

Communication cost is the main bottleneck for the design of effective distributed learning algorithms. Recently, event-triggered techniques have been proposed to reduce the exchanged information among compute nodes and thus alleviate the communication cost. However, most existing event-triggered approaches only consider heuristic event-triggered thresholds. They also ignore the impact of computation and network delay, which play an important role on the training performance. In this paper, we propose an Asynchronous Event-triggered Stochastic Gradient Descent (SGD) framework, called AET-SGD, to i) reduce the communication cost among the compute nodes, and ii) mitigate the impact of the delay. Compared with baseline event-triggered methods, AET-SGD employs a linear increasing sample size event-triggered threshold, and can significantly reduce the communication cost while keeping good convergence performance. We implement AET-SGD and evaluate its performance on multiple representative data sets, including MNIST, FashionMNIST, KMNIST and CIFAR10. The experimental results validate the correctness of the design and show a significant communication cost reduction from 44x to 120x, compared to the state of the art. Our results also show that AET-SGD can resist large delay from the straggler nodes while obtaining a decent performance and a desired speedup ratio.

Keywords

Cite

@article{arxiv.2112.13935,
  title  = {AET-SGD: Asynchronous Event-triggered Stochastic Gradient Descent},
  author = {Nhuong Nguyen and Song Han},
  journal= {arXiv preprint arXiv:2112.13935},
  year   = {2021}
}

Comments

13 pages

R2 v1 2026-06-24T08:33:11.249Z