Information Theoretic Bounds for Distributed Computation Over Networks of Point-to-Point Channels

Author(s)
Ayaso, OlaShah, DevavratDahleh, Munther A.
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Abstract
A network of nodes communicate via point-to-point memoryless independent noisy channels. Each node has some realvalued initial measurement or message. The goal of each of the nodes is to acquire an estimate of a given function of all the initial measurements in the network. As the main contribution of this paper, a lower bound on computation time is derived. This bound must be satisfied by any algorithm used by the nodes to communicate and compute, so that the mean-square error in the nodes’ estimate is within a given interval around zero. The derivation utilizes information theoretic inequalities reminiscent of those used in rate distortion theory along with a novel “perturbation” technique so as to be broadly applicable. To understand the tightness of the bound, a specific scenario is considered. Nodes are required to learn a linear combination of the initial values in the network while communicating over erasure channels. A distributed quantized algorithm is developed, and it is shown that the computation time essentially scales as is implied by the lower bound. In particular, the computation time depends reciprocally on “conductance”, which is a property of the network that captures the information-flow bottleneck. As a by-product, this leads to a quantized algorithm, for computing separable functions in a network, with minimal computation time.
Date issued
2010-12
URI
http://hdl.handle.net/1721.1/62819
Department
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer ScienceMassachusetts Institute of Technology. Laboratory for Information and Decision Systems
Journal
IEEE transactions on information theory
Publisher
Institute of Electrical and Electronics Engineers / IEEE Information Theory Society
Citation
Ayaso, O., D. Shah, and M.A. Dahleh. “Information Theoretic Bounds for Distributed Computation Over Networks of Point-to-Point Channels.” Information Theory, IEEE Transactions On 56.12 (2010) : 6020-6039. Copyright © 2010, IEEE
Version: Final published version
Other identifiers
INSPEC Accession Number: 11655671
ISSN
0018-9448
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