Mobile App Acceleration via Fine-Grain Offloading to the Cloud
Wednesday, July 23, 2014 - 1:45pm
Authors:
Chit-Kwan Lin, UpShift Labs, Inc.; H. T. Kung, Harvard University
Abstract:
Mobile device hardware can limit the sophistication of mobile applications. One strategy for side-stepping these constraints is to opportunistically offload computations to the cloud, where more capable hardware can do the heavy lifting. We propose a platform that accomplishes this via compressive offloading, a novel application of compressive sensing in a distributed shared memory setting. Our prototype gives up to an order-of-magnitude acceleration and 60% longer battery life to the end user of an example handwriting recognition app. We argue that offloading is beneficial to both end users and cloud providers—the former experiences a performance boost and the latter receives a steady stream of small computations to fill periods of under-utilization. Such workloads, originating from ARM-based mobile devices, are especially well-suited for offloading to emerging ARM-based data centers.
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BibTeX
@inproceedings {183754,
author = {Chit-Kwan Lin and H. T. Kung},
title = {Mobile App Acceleration via {Fine-Grain} {Offloading} to the Cloud},
booktitle = {6th USENIX Workshop on Hot Topics in Cloud Computing (HotCloud 14)},
year = {2014},
address = {Philadelphia, PA},
url = {https://www.usenix.org/conference/hotcloud14/workshop-program/presentation/lin},
publisher = {USENIX Association},
month = jun
}
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