Reducing Temporal Interference in Private Clouds through Real-Time Containers
| Autor: | Luca Abeni, Alessio Balsini, Mauro Marinoni, Tommaso Cucinotta, Carlo Vitucci |
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| Jazyk: | angličtina |
| Rok vydání: | 2019 |
| Předmět: |
real-time scheduling
Radio access network business.industry Computer science Distributed computing cloud computing Cloud computing performance modeling Virtualization computer.software_genre temporal isolation Kernel (image processing) edge computing network function virtualization Latency (engineering) Temporal isolation business computer Edge computing 5G |
| Zdroj: | EDGE |
| Popis: | Providing innovative resource-efficient solutions able to mitigate temporal interference among cloud services, concurrently sharing the same underlying platform, is crucial to deploy highly time-sensitive applications at the edge of the network where resources are strongly restrained, and timing constraints are stringent. A notable example is provided by the allocation of virtualized network functions in the radio access network of modern mobile networks, such as 5G. This paper describes a kernel mechanism that can be applied to the design of an architecture providing fine-grain control of the temporal interferences among concurrent real-time services while avoiding overheads related to machine virtualization. On top of them, a model is proposed to meet the required end-to-end application performance through tuning of parameters in the underlying novel architecture. We show that theoretical latency/load curves match closely with experimental data gathered from a real implementation carried out using both a networking microbenchmark and a real IMS application. |
| Databáze: | OpenAIRE |
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