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Design and Implementation of Multiprocessor Communication In Embedded Processors for Real Time and Industrial Automation

International Journal of Electrical and Electronics Engineering
© 2014 by SSRG - IJEEE Journal
Volume 1 Issue 1
Year of Publication : 2014
Authors : Dr.Vasuki
10.14445/23488379/IJEEE-V1I1P104
pdf
How to Cite?

Dr.Vasuki, "Design and Implementation of Multiprocessor Communication In Embedded Processors for Real Time and Industrial Automation," SSRG International Journal of Electrical and Electronics Engineering, vol. 1,  no. 1, pp. 16-22, 2014. Crossref, https://doi.org/10.14445/23488379/IJEEE-V1I1P104

Abstract:

Multiprocessor implementation is gaining considerable significance in modern day embedded systems. In systems where more than one processor is used the need for multiprocessor communication occurs. The various motivations for using multiprocessor communication are • Increased performance • Increased reliability • Functional modularity • Physical distribution of processing power In this paper, multiprocessor approach is implemented for a real time boiler plant control application. A simple prototype for industrial multiprocessor communication system using ATMEL 89C51 microcontroller via serial communication RS-232 protocol is discussed. In this communication scheme failure in communication link is detected by using microprocessor-fault detection protocol.

Keywords:

RS-232 protocol,ATMEL 89C51.

References:

[1].Multiprocessor Communication using 8051 Microcontroller and RS-485 Line Driver Kashif Altaf, Javaid Iqbal , Department of Mechatronics, College
of E&ME , National University of Science and Technology Rawalpindi, Pakistan
[2]. Real-Time Systems for Multi-Processor Architectures∗ Éric Piel, Philippe Marquet, Julien Soula, Jean-Luc Dekeyser
[3]. Efficient Technique for Clustering And Scheduling Onto Embedded Multiprocessors. Vida Kianzad et al IEEE vol 17, no 7 July 2006
[4]. The Feasibility Analysis of Multiprocessor RealTime Systems ∗ Sanjoy Baruah Nathan FisherThe University of North Carolina at Chapel Hill
[5]. Optimal Real Time Scheduling Algorithm For multiprocessors Hyeonjoong Cho IEEE July 2006.