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Software implemented fault tolerance for microprocessor controllers

It is generally accepted that transient faults are a major cause of failure in micro processor systems. Industrial controllers with embedded microprocessors are particularly at risk from this type of failure because their working environments are prone to transient disturbances which can generate transient faults. In order to improve the reliability of processor systems for industrial applications within a limited budget, fault tolerant techniques for uniprocessors are implemented. These techniques aim to identify characteristics of processor operation which are attributed to erroneous behaviour. Once detection is achieved, a programme of restoration activity can be initiated. This thesis initially develops a previous model of erroneous microprocessor behaviour from which characteristics particular to mal-operation are identified. A new technique is proposed, based on software implemented fault tolerance which, by recognizing a particular behavioural characteristic, facilitates the self-detection of erroneous execution. The technique involves inserting detection mechanisms into the target software. This can be quite a complex process and so a prototype software tool called Post-programming Automated Recovery UTility (PARUT) is developed to automate the technique's application. The utility can be used to apply the proposed behavioural fault tolerant technique for a selection of target processors. Fault injection and emulation experiments assess the effectiveness of the proposed fault tolerant technique for three application programs implemented on an 8, 16, and 32- bit processors respectively. The modified application programs are shown to have an improved detection capability and hence reliability when the proposed fault tolerant technique is applied. General assessment of the technique cannot be made, however, because its effectiveness is application specific. The thesis concludes by considering methods of generating non-hazardous application programs at the compilation stage, and design features for incorporation into the architecture of a microprocessor which inherently reduce the hazard, and increase the detection capability of the target software. Particular suggestions are made to add a 'PARUT' phase to the translation process, and to orientate microprocessor design towards the instruction opcode map.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:305010
Date January 1992
CreatorsWingate, Guy A. S.
PublisherDurham University
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Sourcehttp://etheses.dur.ac.uk/5811/

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