Title :
A design approach for ultrareliable real-time systems
Author :
Lala, Jaynarayan H. ; Harper, Richard E. ; Alger, Linda S.
Author_Institution :
Charles Stark Draper Lab., Cambridge, MA, USA
fDate :
5/1/1991 12:00:00 AM
Abstract :
A design approach developed over the past few years to formalize redundancy management and validation is described. Redundant elements are partitioned into individual fault-containment regions (FCRs). An FCR is a collection of components that operates correctly regardless of any arbitrary logical or electrical fault outside the region. Conversely, a fault in an FCR cannot cause hardware outside the region to fail. The outputs of all channels are required to agree bit-for-bit under no-fault conditions (exact bitwise consensus). Synchronization, input agreement, and input validity conditions are discussed. The Advanced Information Processing System (AIPS), which is a fault-tolerant distributed architecture based on this approach, is described. A brief overview of recent applications of these systems and current research is presented.<>
Keywords :
fault tolerant computing; real-time systems; redundancy; fault-containment regions; fault-tolerant distributed architecture; redundancy management; ultrareliable real-time systems; validation; Application software; Computer architecture; Costs; Fault tolerance; Fault tolerant systems; Information processing; Laboratories; Missiles; Real time systems; Redundancy;
