One Gradient Frank-Wolfe for Decentralized Online Convex and Submodular Optimization

T. Nguyen, K. Nguyen, D. Trystram
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Abstract

Decentralized learning has been studied intensively in recent years motivated by its wide applications in the context of federated learning. The majority of previous research focuses on the offline setting in which the objective function is static. However, the offline setting becomes unrealistic in numerous machine learning applications that witness the change of massive data. In this paper, we propose \emph{decentralized online} algorithm for convex and continuous DR-submodular optimization, two classes of functions that are present in a variety of machine learning problems. Our algorithms achieve performance guarantees comparable to those in the centralized offline setting. Moreover, on average, each participant performs only a \emph{single} gradient computation per time step. Subsequently, we extend our algorithms to the bandit setting. Finally, we illustrate the competitive performance of our algorithms in real-world experiments.
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离散在线凸与次模优化的一梯度Frank-Wolfe
由于分散学习在联邦学习中的广泛应用,近年来得到了广泛的研究。以往的研究大多集中在目标函数为静态的离线设置上。然而,在大量数据变化的机器学习应用中,离线设置变得不现实。在本文中,我们提出了用于凸和连续dr -子模优化的\emph{分散在线}算法,这两类函数存在于各种机器学习问题中。我们的算法实现了与集中式离线设置相当的性能保证。此外,平均而言,每个参与者在每个时间步\emph{长}只执行一次梯度计算。随后,我们将算法扩展到强盗设置。最后,我们在现实世界的实验中说明了我们的算法的竞争性能。
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