A Scalable Framework for Wireless Distributed Computing
August 19, 2016 Β· Declared Dead Β· π IEEE/ACM Transactions on Networking
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Authors
Songze Li, Qian Yu, Mohammad Ali Maddah-Ali, A. Salman Avestimehr
arXiv ID
1608.05743
Category
cs.IT: Information Theory
Cross-listed
cs.DC
Citations
131
Venue
IEEE/ACM Transactions on Networking
Last Checked
4 months ago
Abstract
We consider a wireless distributed computing system, in which multiple mobile users, connected wirelessly through an access point, collaborate to perform a computation task. In particular, users communicate with each other via the access point to exchange their locally computed intermediate computation results, which is known as data shuffling. We propose a scalable framework for this system, in which the required communication bandwidth for data shuffling does not increase with the number of users in the network. The key idea is to utilize a particular repetitive pattern of placing the dataset (thus a particular repetitive pattern of intermediate computations), in order to provide coding opportunities at both the users and the access point, which reduce the required uplink communication bandwidth from users to access point and the downlink communication bandwidth from access point to users by factors that grow linearly with the number of users. We also demonstrate that the proposed dataset placement and coded shuffling schemes are optimal (i.e., achieve the minimum required shuffling load) for both a centralized setting and a decentralized setting, by developing tight information-theoretic lower bounds.
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