Title :
Assessing the reliability and safety of fault tolerant designs
Author_Institution :
Fac. of Electron. & Telecommun., Tech. Univ. Cluj-Napoca, Romania
Abstract :
Present-day fault-tolerant systems are increasingly used in critical applications such as aircraft control systems and industrial controllers. Dependability considerations require that in addition to high reliability, the system must have a high level of safety. Briefly, the reliability R(t) is the probability that the system produces correct output. Safety S(t) is defined as the probability that the system output is either correct or the error in the output is detectable. Fault tolerance is implemented through hardware redundancy. In this architecture, a functional unit is replicated N times, forming an N modular redundant system. Each unit produces a single bit output and the results are applied to a majority voter. This paper presents a framework for considering both reliability and safety of NMR systems, estimations of R(t) and S(t) functions and trade-off considerations
Keywords :
design engineering; fault tolerance; majority logic; redundancy; safety; N modular redundant system; NMR systems; aircraft control systems; critical applications; dependability; detectable output error; fault tolerance; fault tolerant designs; fault-tolerant systems; functional unit replication; hardware redundancy; industrial controllers; majority voter; probability; reliability; reliability function; safety; safety function; single bit output; system output; Aerospace control; Aerospace industry; Control systems; Electrical equipment industry; Error correction; Fault tolerance; Fault tolerant systems; Hardware; Industrial control; Safety;
Conference_Titel :
Electronics Technology: Concurrent Engineering in Electronic Packaging, 2001. 24th International Spring Seminar on
Conference_Location :
Calimanesti-Caciulata
Print_ISBN :
0-7803-7111-9
DOI :
10.1109/ISSE.2001.931010
