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May 1983 (vol. 9 no. 3)
pp. 355-364
T. Anderson, Computing Laboratory, University of New-castle-upon-Tyne
Real-time systems often have very high reliability requirements and are therefore prime candidates for the inclusion of fault tolerance techniques. In order to provide tolerance to software faults, some form of state restoration is usually advocated as a means of recovery. State restoration can be expensive and the cost is exacerbated for systems which utilize concurrent processes. The concurrency present in most real-time systems and the further difficulties introduced by timing constraints suggest that providing tolerance for software faults may be inordinately expensive or complex. We believe that this need not be the case, and propose a straightforward pragmatic approach to software fault tolerance'which is believed to be applicable to many real-time systems. The approach takes advantage of the structure of real-time systems to simplify error recovery, and a classification scheme for errors is introduced. Responses to each type of error are proposed which allow service to be maintained.
Index Terms:
software reliability, Concurrency, error classification, real-time systems, software fault tolerance
Citation:
T. Anderson, J.C. Knight, "A Framework for Software Fault Tolerance in Real-Time Systems," IEEE Transactions on Software Engineering, vol. 9, no. 3, pp. 355-364, May 1983, doi:10.1109/TSE.1983.237017
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