Microprocessors, Safety Implication for Industry: Conference Transcript, 19 March 1982, London |
Contents
CONTENTS | 3 |
DISCUSSION | 11 |
MICROPROCESSOR HARDWARE RELIABILITY | 17 |
Copyright | |
7 other sections not shown
Common terms and phrases
achieved applications areas aspects assembly language assessment methodology based system burn-in bytes CEGB Code of Practice common mode failures compilers complexity components computer software computer systems control system datastructure detected devices DIEGO UNIVERSITY documentation electrical electronic ensure error factor failure modes failure rate fault tolerance hardware reliability high level languages identified implementation industrial instruction set integrated circuits interface logic LSI/VLSI machine maintenance micro microcomputer microprocessor modules multiplexer Musa NCSR nuclear number of faults operation ORNIA output overall parameters PESS Phase plant problem procedures processor quantified reactor protection systems real-time reliability analysis reliability assessment reliability data reliability models reliability performance reliability prediction requirements risk robot RSITY safe safety functions safety integrity safety system SAN DIEGO screening shutdown Software Engineering software fault software reliability software system specification standards structure target task test inputs trip algorithms UNIV UNIVERSITY CALIFORNIA ware