Abstract
The introduction of computational resources at the network edge allows application designers to offload computation from clients and/or servers, thereby reducing response latency and backbone bandwidth. More fundamentally, edge-computing moves applications from a client-server model to a client-edge-server model. While this is an attractive paradigm for many use cases, it raises the question of how to design client-edge-server systems so they can tolerate edge failures and client mobility. This is particularly challenging when edge processing is strongly stateful. In this paper we propose a design for meeting this challenge called the Client-Edge-Server for Stateful Network Applications (CESSNA).
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CITATION STYLE
Harchol, Y., Mushtaq, A., Fang, V., McCauley, J., Panda, A., & Shenker, S. (2020). Making edge-computing resilient. In SoCC 2020 - Proceedings of the 2020 ACM Symposium on Cloud Computing (pp. 253–266). Association for Computing Machinery, Inc. https://doi.org/10.1145/3419111.3421278
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