An Architecture for Runtime State Restoration after Transient Hardware-Faults in Redundant Real-Time Systems

Author

Skambraks, Martin

Author_Institution

Dept. of Electr. & Comput. Eng., FernUniversitat in Hagen

fYear

2006

fDate

20-22 Sept. 2006

Firstpage

78

Lastpage

85

Abstract

Employing programmable electronic systems (PESs) in safety-critical real-time applications that cannot immediately be transferred to safe states requires especially high degrees of fault-tolerance. Conventionally, this demand is satisfied not only by configuring multiple PESs redundantly, but also by applying redundant processing structures inside each PES. Instead, it is also desirable to provide the capability to rehabilitate a PES´s faulty state by copying the internal state from its redundant counterparts at runtime. Thus, redundancy attrition due to transient faults is prevented, since failed channels can be brought back on line. Here, the problems concerned with state restoration at runtime are stated, the advantages and disadvantages of existing techniques are discussed, and a hardware-supported concept is introduced

Keywords

fault tolerance; real-time systems; safety-critical software; system recovery; programmable electronic system; redundant real-time system; runtime state restoration; safety-critical real-time application; transient hardware-fault; Availability; Circuit faults; Fault tolerance; Hardware; IEC standards; Integrated circuit noise; Real time systems; Redundancy; Runtime; Safety;

fLanguage

English

Publisher

ieee

Conference_Titel

Emerging Technologies and Factory Automation, 2006. ETFA '06. IEEE Conference on

Conference_Location

Prague

Print_ISBN

0-7803-9758-4

Type

conf

DOI

10.1109/ETFA.2006.355368

Filename

4178201