Achieving elementary cycle synchronization between masters in the flexible time-triggered replicated star for ethernet

Alberto Ballesteros, J. Proenza, David Gessner, G. Rodríguez-Navas, T. Sauter
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引用次数: 5

Abstract

For a distributed embedded system (DES) to operate continuously in a dynamic environment, it must be flexible and highly reliable. This applies in particular to its communication subsystem. The Flexible Time-Triggered Replicated Star for Ethernet (FTTRS) aims at providing such a subsystem by means of a highly-reliable switched-Ethernet architecture based on the Flexible Time-Triggered paradigm (FTT), a master/slave communication paradigm where the master periodically polls the slaves using so-called trigger messages (TMs). In particular, FTTRS interconnects nodes by redundant communication paths provided by two switches, each embedding an FTT master that manages the communication. This allows FTTRS to tolerate the failure of one switch without interrupting the communication as long as the masters are replica determinate, i.e., provide identical service to the slaves. The master replica determinism entails the masters broadcasting their TMs in a lockstep fashion: when one master broadcasts a TM, the other should do the same quasi-simultaneously. In this paper we present a solution inspired by the Precision Time Protocol (PTP) for achieving this lockstep transmission and preliminary results showing the precision with which we can synchronize the masters on a software prototype.
实现以太网柔性时间触发复制星中主站间的初级周期同步
分布式嵌入式系统要在动态环境中持续运行,必须具有灵活性和高可靠性。这尤其适用于它的通信子系统。以太网灵活时间触发复制星(ftrs)旨在通过基于灵活时间触发范式(FTT)的高可靠交换以太网架构提供这样一个子系统,FTT是一种主/从通信范式,其中主节点使用所谓的触发消息(TMs)定期轮询从节点。特别是,ftts通过两个交换机提供的冗余通信路径连接节点,每个交换机嵌入一个管理通信的FTT主机。这允许ftrs容忍一个交换机的故障而不中断通信,只要主服务器是副本确定的,即向从服务器提供相同的服务。主副本决定论要求主以同步的方式广播它们的TM:当一个主广播一个TM时,另一个主应该准同时做同样的事情。在本文中,我们提出了一个受精确时间协议(PTP)启发的解决方案来实现这种同步传输,初步结果显示了我们可以同步软件原型上的主节点的精度。
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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