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Fault tolerance and scaling in e-Science cloud applications: Observations from the continuing development of MODISAzure

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Authors

Li, Jie; Humphrey, Marty; Cheah, You-Wei; Ryu, Youngryel; Agarwal, Deb; Jackson, Keith; Van Ingen, Catharine

Issue Date
2011-01
Publisher
IEEE
Citation
Proceedings - 2010 6th IEEE International Conference on e-Science, eScience 2010, pp.246-253
Abstract
It can be natural to believe that many of the traditional issues of scale have been eliminated or at least greatly reduced via cloud computing. That is, if one can create a seemingly wellfunctioning cloud application that operates correctly on small or moderate-sized problems, then the very nature of cloud programming abstractions means that the same application will run as well on potentially significantly larger problems. In this paper, we present our experiences taking MODISAzure, our satellite data processing system built on the Windows Azure cloud computing platform, from the proof-of-concept stage to a point of being able to run on significantly larger problem sizes (e.g., from national-scale data sizes to global-scale data sizes). To our knowledge, this is the longest-running eScience application on the nascent Windows Azure platform. We found that while many infrastructure-level issues were thankfully masked from us by the cloud infrastructure, it was valuable to design additional redundancy and fault-tolerance capabilities such as transparent idempotent task retry and logging to support debugging of user code encountering unanticipated data issues. Further, we found that using a commercial cloud means anticipating inconsistent performance and black-box behavior of virtualized compute instances, as well as leveraging changing platform capabilities over time. We believe that the experiences presented in this paper can help future eScience cloud application developers on Windows Azure and other commercial cloud providers. © 2010 IEEE.
URI
https://hdl.handle.net/10371/199221
DOI
https://doi.org/10.1109/eScience.2010.47
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Research Area Biometeorology, Remote sensing, exponential technologies, 도시 생태학, 지표면 원격탐사, 탄소, 물, 에너지 순환

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