Title :
Fail-safe interfaces for VLSI: theoretical foundations and implementation
Author :
Nicolaidis, Michael
Author_Institution :
Reliable Integrated Syst. Group, Grenoble, France
fDate :
1/1/1998 12:00:00 AM
Abstract :
This paper presents the design of strongly fail-safe interfaces which transform binary signals, generated by a system with error detection capabilities and eventually with fault-tolerant capabilities, into fail-safe signals, that is to say, into signals which, in the presence of failures, will be either correct or safe. The strongly fail-safe property is achieved by means of concurrent checking techniques. The interest of these interfaces is that they can be implemented in VLSI, while the conventional fail-safe interfaces require using discrete components. A formal theory of fail-safe systems is developed to guide the implementation of the new solutions
Keywords :
circuit reliability; fault tolerant computing; logic testing; VLSI; binary signals; fail-safe circuits; fail-safe comparators; fail-safe interfaces; fail-safe property; fail-safe voters; fault-tolerant capabilities; formal theor; self-checking circuits; Actuators; Circuit faults; Computer Society; Computer errors; Control systems; Fault detection; Logic; Signal design; Signal generators; Very large scale integration;
Journal_Title :
Computers, IEEE Transactions on
