Title :
Distributed reconfiguration and recovery in the advanced architecture on-board processor
Author :
Iacoponi, M.J. ; McDonald, S.F.
Author_Institution :
Harris Corp., Melbourne, FL, USA
Abstract :
The reconfiguration and recovery approach employed in the advanced architecture on-board processor (AAOP), a fault-tolerant multiprocessor for space applications, is presented. The AAOP is designed to accommodate large numbers of processing elements organized in a distributed fault-tolerant system. The operation of distributed reconfiguration is discussed, and the recovery time is analyzed. Performance of the reconfiguration algorithm under inconsistent observer conditions and against multiple faults is considered. the chordal skiplink ring topology employed in the AAOP is analyzed with respect to its node-pair distance distribution as a function of the number of faults injected. Extensions of this topology are also considered. These would reduce the network diameter and increase fault robustness but also increase the network management overhead.<>
Keywords :
aerospace computing; fault tolerant computing; multiprocessing systems; real-time systems; advanced architecture on-board processor; chordal skiplink ring topology; distributed reconfiguration; distributed recovery; fault-tolerant multiprocessor; network diameter; network management; node-pair distance distribution; performance evaluation; processing elements; space applications; Aerospace electronics; Computer architecture; Contracts; Fault detection; Fault tolerance; Fault tolerant systems; Government; History; Network topology; Parallel processing;
Conference_Titel :
Fault-Tolerant Computing, 1991. FTCS-21. Digest of Papers., Twenty-First International Symposium
Conference_Location :
Montreal, Quebec, Canada
Print_ISBN :
0-8186-2150-8
DOI :
10.1109/FTCS.1991.146698
