Asynchronous programming with futures in C on a safety-critical platform in the railway-control domain

2017 22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA) Pub Date : 2017-09-01 DOI:10.1109/ETFA.2017.8247589

O. M. Duarte, R. Hametner

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Abstract

Programming parallel applications on replicated architectures in the safety-critical field is challenging due to the inherent non-determinism of the derived applications. This paper describes the concept of asynchronous programming with futures in C under a safety-critical platform used in the transport automation industry. A C language extension named Fresera and a Fresera-like runtime library implemented in C are presented. Our goal is to simplify the development of parallel applications with replica-deterministic guarantees. An overview of a transport automation platform in the railway control domain is given which relies on Triple Modular Redundancy (TMR) for fault tolerance. An example application written in a Fresera-like runtime library in C is used as a demonstration of the presented programming model. Early benchmarks of the runtime library exhibit an improved performance when using a lightweight tasks and a Work Stealing scheduler compared with a plain pthreads implementation.

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在铁路控制领域的安全关键平台上用C语言进行异步编程

由于派生应用程序固有的不确定性，在安全关键领域的复制架构上编程并行应用程序具有挑战性。本文描述了在运输自动化行业中使用的安全关键平台下，用C语言进行异步未来编程的概念。介绍了一个名为Fresera的C语言扩展和一个用C实现的类似Fresera的运行库。我们的目标是简化具有副本确定性保证的并行应用程序的开发。概述了一种基于三模冗余(TMR)容错的铁路控制领域的运输自动化平台。一个用类似fresera的C语言运行库编写的示例应用程序被用来演示所提出的编程模型。运行时库的早期基准测试显示，与普通pthreads实现相比，使用轻量级任务和Work Stealing调度器可以提高性能。

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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2017 22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)

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