Industrial Application of a Partitioning Scheduler to Support Mixed Criticality Systems

Euromicro Conference on Real-Time Systems Pub Date : 1900-01-01 DOI:10.4230/LIPIcs.ECRTS.2019.8

S. Law, I. Bate, Benjamin Lesage

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引用次数: 5

Abstract

The ever-growing complexity of safety-critical control systems continues to require evolution in control system design, architecture and implementation. At the same time the cost of developing such systems must be controlled and importantly quality must be maintained. This paper examines the application of Mixed Criticality System (MCS) research to a DAL-A aircraft engine Full Authority Digital Engine Control (FADEC) system which includes studying porting the control system's software to a preemptive scheduler from a non-preemptive scheduler. The paper deals with three key challenges as part of the technology transitions. Firstly, how to provide an equivalent level of fault isolation to ARINC 653 without the restriction of strict temporal slicing between criticality levels. Secondly extending the current analysis for Adaptive Mixed Criticality (AMC) scheduling to include the overheads of the system. Finally the development of clustering algorithms that automatically group tasks into larger super-tasks to both reduce overheads whilst ensuring the timing requirements, including the important task transaction requirements, are met.

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支持混合临界系统的分区调度程序的工业应用

安全关键控制系统的复杂性不断增长，要求控制系统的设计、架构和实现不断发展。同时，必须控制开发这种系统的成本，重要的是必须保持质量。本文研究了混合临界系统(MCS)在某型飞机发动机全授权数字发动机控制(FADEC)系统中的应用，包括研究将控制系统软件从非抢占式调度程序移植到抢占式调度程序。本文讨论了作为技术转型一部分的三个关键挑战。首先，如何在不受临界级别间严格时间切片限制的情况下，为arinc653提供等效的故障隔离级别。其次，对现有的自适应混合临界调度分析进行了扩展，使其包括系统开销。最后，开发了自动将任务分组为更大的超级任务的聚类算法，以减少开销，同时确保满足时间要求，包括重要的任务事务要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Euromicro Conference on Real-Time Systems

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