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Communication-Aware Prediction-Based Online Scheduling in High-Performance Real-Time Embedded Systems

Abstract : Current high-end, data-intensive real-time embedded sensor applications (e.g., radar, optronics) require very specific computing platforms. The nature of such applications and the environment in which they are deployed impose numerous constraints, including realtime constraints, and computing throughput and latency needs. Static application placement is traditionally used to deal with these constraints. However, this approach fails to provide adaptation capabilities in an environment in constant evolution. Through the study of an industrial radar use-case, our work aims at mitigating the aforementioned limitations by proposing a low-latency online resource manager derived from techniques used in large-scale systems, such as cloud and grid environments. The resource manager introduced in this paper is able to dynamically allocate resources to fulfill requests coming from several sensors, making the most of the computing platform while providing guaranties on non-functional properties and Quality of Service (QoS) levels. Thanks to the load prediction implemented. in the manager, we are able to achieve a 83% load increase before overloading the platform while managing to reduce ten times the incurred QoS penalty. Further methods to reduce the impact of the overload are as well as possible future improvements are proposed and discussed.
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Contributor : Baptiste Goupille--Lescar Connect in order to contact the contributor
Submitted on : Wednesday, December 5, 2018 - 8:25:19 PM
Last modification on : Wednesday, November 3, 2021 - 8:07:51 AM


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  • HAL Id : hal-01946293, version 1


Baptiste Goupille-Lescar, Eric Lenormand, Christine Morin, Nikos Parlavantzas. Communication-Aware Prediction-Based Online Scheduling in High-Performance Real-Time Embedded Systems. ICA3PP 2018 - 18th International Conference on Algorithms and Architectures for Parallel Processing, Nov 2018, Guangzhou, China. pp.1-15. ⟨hal-01946293⟩



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