Learning-Based Response Time Analysis in Real-Time Embedded Systems: A Simulation-Based Approach

2018 IEEE/ACM 1st International Workshop on Software Qualities and their Dependencies (SQUADE) Pub Date : 2018-05-28 DOI:10.1145/3194095.3194097

M. H. Moghadam, Mehrdad Saadatmand, Markus Borg, M. Bohlin, B. Lisper

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引用次数: 9

Abstract

Response time analysis is an essential task to verify the behavior of real-time systems. Several response time analysis methods have been proposed to address this challenge, particularly for real-time systems with different levels of complexity. Static analysis is a popular approach in this context, but its practical applicability is limited due to the high complexity of the industrial real-time systems, as well as many unpredictable runtime events in these systems. In this work-in-progress paper, we propose a simulation-based response time analysis approach using reinforcement learning to find the execution scenarios leading to the worst-case response time. The approach learns how to provide a practical estimation of the worst-case response time through simulating the program without performing static analysis. Our initial study suggests that the proposed approach could be applicable in the simulation environments of the industrial real-time control systems to provide a practical estimation of the execution scenarios leading to the worst-case response time.

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实时嵌入式系统中基于学习的响应时间分析:基于仿真的方法

响应时间分析是验证实时系统行为的一项重要任务。已经提出了几种响应时间分析方法来解决这一挑战，特别是对于具有不同复杂程度的实时系统。在这种情况下，静态分析是一种流行的方法，但由于工业实时系统的高度复杂性以及这些系统中许多不可预测的运行时事件，其实际适用性受到限制。在这篇正在进行的论文中，我们提出了一种基于模拟的响应时间分析方法，使用强化学习来找到导致最坏情况响应时间的执行场景。该方法学习如何在不进行静态分析的情况下通过模拟程序来提供最坏情况响应时间的实际估计。我们的初步研究表明，所提出的方法可以适用于工业实时控制系统的仿真环境，以提供导致最坏情况响应时间的执行场景的实际估计。

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2018 IEEE/ACM 1st International Workshop on Software Qualities and their Dependencies (SQUADE)

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