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28 October 2024
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Last updated on
28 October 2024 |
R. Andreoli, H. Gustafsson, L. Abeni, R. Mini, T. Cucinotta. "Optimal Deployment of Cloud-native Applications with Fault-Tolerance and Time-Critical End-to-End Constraints," in Proceedings of the 16th IEEE/ACM International Conference on Cloud Computing (IEEE/ACM UCC 2023), December 4-7th, 2023, Taormina (Messina), Italy.
Cloud environments are becoming increasingly interesting to host time-critical use cases with far more stringent latency requirements than conventional cloud-native applications, such as smart industrial control systems or cloud-enabled autonomous vehicles. In these emerging domains, fault tolerance mechanisms play a critical role, due to the catastrophic consequences a fault might lead to, in the real world. This work presents a formal model for designing and deploying time-critical, cloud-native applications under fault conditions. Our model considers the interactions and interferences among service components and the possible occurrence of faults. We present an optimization framework to solve the deployment problem of minimizing the resources needed to achieve fault-tolerance under precise end-to-end deadline constraints. The ability of the optimizer to deliver precise temporal and fault-tolerance guarantees is validated through extensive simulations.
Copyright by ACM.
See paper on publisher's website
BibTeX entry:
@inproceedings{Andreoli_2023,
series={UCC ’23},
title={Optimal Deployment of Cloud-native Applications with Fault-Tolerance and Time-Critical End-to-End Constraints},
url={http://dx.doi.org/10.1145/3603166.3632139},
DOI={10.1145/3603166.3632139},
booktitle={Proceedings of the IEEE/ACM 16th International Conference on Utility and Cloud Computing},
publisher={ACM},
author={Andreoli, Remo and Gustafsson, Harald and Abeni, Luca and Mini, Raquel and Cucinotta, Tommaso},
year={2023},
month=dec,
collection={UCC ’23}
}
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Last updated on
07 November 2024 |