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A decentralized proximal-gradient method with network independent step-sizes and separated convergence rates
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A decentralized proximal-gradient method with network independent step-sizes and separated convergence rates
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This paper proposes a novel proximal-gradient algorithm for a decentralized optimization problem with a composite objective containing smooth and non-smooth terms. Specifically, the smooth and nonsmooth terms are dealt with by gradient and proximal updates, respectively. The proposed algorithm is closely related to a previous algorithm, PG-EXTRA \cite{shi2015proximal}, but has a few advantages. First of all, agents use uncoordinated step-sizes, and the stable upper bounds on step-sizes are independent of network topologies. The step-sizes depend on local objective functions, and they can be as large as those of the gradient descent. Secondly, for the special case without non-smooth terms, linear convergence can be achieved under the strong convexity assumption. The dependence of the convergence rate on the objective functions and the network are separated, and the convergence rate of the new algorithm is as good as one of the two convergence rates that match the typical rates for the general gradient descent and the consensus averaging. We provide numerical experiments to demonstrate the efficacy of the introduced algorithm and validate our theoretical discoveries.
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Cited by 1 Pith paper
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Accelerated Decentralized Stochastic Gradient Descent for Strongly Convex Optimization
MG-ADSGD attains communication complexity ilde O(σ^{2}/(μ n ε) log(1/ε) + sqrt(κ/(1-β)) log(1/ε)) for decentralized stochastic strongly convex optimization.
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