Overloads in compositional embedded real-time control systems

2016 International Symposium on Rapid System Prototyping (RSP) Pub Date : 2016-10-01 DOI:10.1145/2990299.2990309

Akramul Azim

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引用次数: 2

Abstract

Component-based design is important for the design of complex embedded software. By properly defining component interfaces, new components can be formed by composing existing components. A newly formed component may be further composed of other components. One of the key requirements for guaranteeing the compositionality of components in real-time systems is that the composite model must be consistent with, and indistinguishable from, the interface of a primitive component so that all real-time requirements are met. In addition to being used widely for schedulability analysis on different techniques such as earliest deadline first (EDF) and rate monotonic (RM), supply-demand functions have been applied to perform compositional schedulability analysis with periodic resource models. However, supply-demand function analysis for compositional schedules has only been done for hard real-time systems guarantees. This work analyzes overloads in embedded real-time control systems with soft deadlines and the analysis helps to build a compositional system that can tolerate delays. This paper also associates the schedulability analysis with a control application using a rapid prototype implementation.

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复合嵌入式实时控制系统中的过载

基于构件的设计是复杂嵌入式软件设计的重要内容。通过正确定义组件接口，可以通过组合现有组件来形成新组件。新形成的组件可以由其他组件进一步组成。保证实时系统中组件的可组合性的关键要求之一是，组合模型必须与原始组件的接口一致，并且不可区分，以便满足所有实时需求。除了被广泛地用于不同技术的可调度性分析，如最早截止日期优先(EDF)和速率单调(RM)，供需函数已被应用于周期性资源模型的组合可调度性分析。然而，组合调度的供需函数分析只针对硬实时系统保证进行。这项工作分析了具有软截止日期的嵌入式实时控制系统中的过载，并有助于构建可以容忍延迟的组合系统。本文还将可调度性分析与使用快速原型实现的控制应用程序联系起来。

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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2016 International Symposium on Rapid System Prototyping (RSP)

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