Coordinating Distributed Example Orders for Provably Accelerated Training

Recent research on online Gradient Balancing (GraB) has revealed that there exist permutation-based example orderings for SGD that are guaranteed to outperform random reshuffling (RR). Whereas RR arbitrarily permutes training examples, GraB leverages stale gradients from prior epochs to order examples -- achieving a provably faster convergence rate than RR. However, GraB is limited by design: while it demonstrates an impressive ability to scale-up training on centralized data, it does not naturally extend to modern distributed ML workloads. We therefore propose Coordinated Distributed GraB (CD-GraB), which uses insights from prior work on kernel thinning to translate the benefits of provably faster permutation-based example ordering to distributed settings. With negligible overhead, CD-GraB exhibits a linear speedup in convergence rate over centralized GraB and outperforms distributed RR on a variety of benchmark tasks.

Authors

• A. Feder Cooper The Center for Generative AI, Law, and Policy Research Cornell University
• Wentao Guo University of Illinois Urbana-Champaign
• Duc Khiem Pham
• Tiancheng Yuan Cornell University
• Charlie Ruan
• Yucheng Lu
• Christopher M. De Sa

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