Paper Info
Title
Achieving elementary cycle synchronization between masters in the flexible time-triggered replicated star for ethernet
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.
Year
DOI
Venue
2014
10.1109/ETFA.2014.7005335
Emerging Technology and Factory Automation
Keywords
Field
DocType
embedded systems,local area networks,protocols,synchronisation,DES,Ethernet,FTT,FTTRS,PTP,TM,distributed embedded system,elementary cycle synchronization,flexible time-triggered paradigm,flexible time-triggered replicated star,lockstep transmission,master-slave communication paradigm,precision time protocol,trigger message
Replica,Broadcasting,Synchronization,Propagation delay,Computer science,Precision Time Protocol,Lockstep,Computer network,Real-time computing,Ethernet,Software,Embedded system
Conference
Citations 
PageRank 
References 
1
0.38
3
Authors
4
Name
Order
Citations
PageRank
Ballesteros, A.110.38
Proenza, J.251.04
Gessner, D.3101.69
Rodriguez-Navas, G.471.40