Optimal scaling of a gradient method for distributed resource allocation

Optimal scaling of a gradient method for distributed resource allocation

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Article ID: iaor20072591
Country: Netherlands
Volume: 129
Issue: 3
Start Page Number: 469
End Page Number: 488
Publication Date: Jun 2006
Journal: Journal of Optimization Theory and Applications
Authors: ,
Keywords: allocation: resources
Abstract:

We consider a class of weighted gradient methods for distributed resource allocation over a network. Each node of the network is associated with a local variable and a convex cost function; the sum of the variables (resources) across the network is fixed. Starting with a feasible allocation, each node updates its local variable in proportion to the differences between the marginal costs of itself and its neighbors. We focus on how to choose the proportional weights on the edges (scaling factors for the gradient method) to make this distributed algorithm converge and on how to make the convergence as fast as possible. We give sufficient conditions on the edge weights for the algorithm to converge monotonically to the optimal solution; these conditions have the form of a linear matrix inequality. We give some simple, explicit methods to choose the weights that satisfy these conditions. We derive a guaranteed convergence rate for the algorithm and find the weights that minimize this rate by solving a semidefinite program. Finally, we extend the main results to problems with general equality constraints and problems with block separable objective function.

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