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Variance-Reduced Decentralized Stochastic Optimization With Accelerated Convergence

Ran Xin, Usman A. Khan, Soummya Kar

2020IEEE Transactions on Signal Processing100 citationsDOIOpen Access PDF

Abstract

This paper describes a novel algorithmic framework to minimize a finite-sum of functions available over a network of nodes. The proposed framework, that we call GT-VR, is stochastic and decentralized, and thus is particularly suitable for problems where large-scale, potentially private data, cannot be collected or processed at a centralized server. The GT-VR framework leads to a family of algorithms with two key ingredients: (i) local variance reduction, that enables estimating the local batch gradients from arbitrarily drawn samples of local data; and, (ii) global gradient tracking, which fuses the gradient information across the nodes. Naturally, combining different variance reduction and gradient tracking techniques leads to different algorithms of interest with valuable practical tradeoffs and design considerations. Our focus in this paper is on two instantiations of the GT-VR framework, namely GT-SAGA and GT-SVRG, that, similar to their centralized counterparts (SAGA and SVRG), exhibit a compromise between space and time. We show that both GT-SAGA and GT-SVRG achieve accelerated linear convergence for smooth and strongly convex problems and further describe the regimes in which they achieve non-asymptotic, network-independent linear convergence rates that are faster with respect to the existing decentralized first-order schemes. Moreover, we show that both algorithms achieve a linear speedup in such regimes compared to their centralized counterparts that process all data at a single node. Extensive simulations illustrate the convergence behavior of the corresponding algorithms.

Topics & Concepts

Variance reductionConvergence (economics)Computer scienceNode (physics)Rate of convergenceConvex functionMathematicsMathematical optimizationRegular polygonDiscrete mathematicsKey (lock)AlgorithmPhysicsQuantum mechanicsGeometryEconomicsStatisticsEconomic growthComputer securityMonte Carlo methodStochastic Gradient Optimization TechniquesSparse and Compressive Sensing TechniquesDistributed Control Multi-Agent Systems