Distributed stochastic optimization with gradient tracking over strongly-connected networks
March 18, 2019 ยท Declared Dead ยท ๐ IEEE Conference on Decision and Control
"No code URL or promise found in abstract"
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Authors
Ran Xin, Anit Kumar Sahu, Usman A. Khan, Soummya Kar
arXiv ID
1903.07266
Category
cs.LG: Machine Learning
Cross-listed
cs.DC,
cs.MA,
eess.SY,
stat.ML
Citations
119
Venue
IEEE Conference on Decision and Control
Last Checked
4 months ago
Abstract
In this paper, we study distributed stochastic optimization to minimize a sum of smooth and strongly-convex local cost functions over a network of agents, communicating over a strongly-connected graph. Assuming that each agent has access to a stochastic first-order oracle ($\mathcal{SFO}$), we propose a novel distributed method, called $\mathcal{S}$-$\mathcal{AB}$, where each agent uses an auxiliary variable to asymptotically track the gradient of the global cost in expectation. The $\mathcal{S}$-$\mathcal{AB}$ algorithm employs row- and column-stochastic weights simultaneously to ensure both consensus and optimality. Since doubly-stochastic weights are not used, $\mathcal{S}$-$\mathcal{AB}$ is applicable to arbitrary strongly-connected graphs. We show that under a sufficiently small constant step-size, $\mathcal{S}$-$\mathcal{AB}$ converges linearly (in expected mean-square sense) to a neighborhood of the global minimizer. We present numerical simulations based on real-world data sets to illustrate the theoretical results.
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