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Paper detail

Decentralized Learning with Lazy and Approximate Dual Gradients

This paper develops algorithms for decentralized machine learning over a network, where data are distributed, computation is localized, and communication is restricted between neighbors. A line of recent research in this area focuses on improving both computation and communication complexities. The methods SSDA and MSDA \cite{scaman2017optimal} have optimal communication complexity when the objective is smooth and strongly convex, and are simple to derive. However, they require solving a subproblem at each step. We propose new algorithms that save computation through using (stochastic) gradients and saves communications when previous information is sufficiently useful. Our methods remain relatively simple -- rather than solving a subproblem, they run Katyusha for a small, fixed number of steps from the latest point. An easy-to-compute, local rule is used to decide if a worker can skip a round of communication. Furthermore, our methods provably reduce communication and computation complexities of SSDA and MSDA. In numerical experiments, our algorithms achieve significant computation and communication reduction compared with the state-of-the-art.

preprint2020arXivOpen access
Yanli LiuYuejiao SunWotao Yin
math.OC
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Yanli LiuYuejiao SunWotao Yin

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