Error Feedback Reloaded: From Quadratic to Arithmetic Mean of Smoothness Constants
CoRR(2024)
摘要
Error Feedback (EF) is a highly popular and immensely effective mechanism for
fixing convergence issues which arise in distributed training methods (such as
distributed GD or SGD) when these are enhanced with greedy communication
compression techniques such as TopK. While EF was proposed almost a decade ago
(Seide et al., 2014), and despite concentrated effort by the community to
advance the theoretical understanding of this mechanism, there is still a lot
to explore. In this work we study a modern form of error feedback called EF21
(Richtarik et al., 2021) which offers the currently best-known theoretical
guarantees, under the weakest assumptions, and also works well in practice. In
particular, while the theoretical communication complexity of EF21 depends on
the quadratic mean of certain smoothness parameters, we improve this dependence
to their arithmetic mean, which is always smaller, and can be substantially
smaller, especially in heterogeneous data regimes. We take the reader on a
journey of our discovery process. Starting with the idea of applying EF21 to an
equivalent reformulation of the underlying problem which (unfortunately)
requires (often impractical) machine cloning, we continue to the discovery of a
new weighted version of EF21 which can (fortunately) be executed without any
cloning, and finally circle back to an improved analysis of the original EF21
method. While this development applies to the simplest form of EF21, our
approach naturally extends to more elaborate variants involving stochastic
gradients and partial participation. Further, our technique improves the
best-known theory of EF21 in the rare features regime (Richtarik et al., 2023).
Finally, we validate our theoretical findings with suitable experiments.
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关键词
error feedback,greedy sparsification,distributed optimization,communication complexity,machine cloning,weighted error feedback,quadratic mean,arithmetic mean,large stepsizes
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