A reliable computer system needs to provide its normal level of service in the presence of hardware and software faults [Avi86, Lap92]. There are two philosophies of achieving this reliability: fault avoidance, wherein techniques prevent the occurrence of faults in the first place, and fault tolerance, wherein techniques allow the system to continue execution despite the occurrence o
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
Embedded systems are increasingly deployed in harsh environments that their components were not nece...
Unpredictable hardware faults and software bugs lead to application crashes, incorrect computations,...
this paper, we focus on methods of fault tolerance, and investigate the differences between hardware...
Hardware techniques to improve the robustness of a computing system can be very expensive, difficult...
According to Moore’s law, technology scaling is continuously providing smaller and faster devices. T...
With continued CMOS scaling, future shipped hardware will be increasingly vulnerable to in-the-field...
This paper discusses the detection of Fault Tolerance in computers. It outlines the present techniqu...
Abstract: For embedded systems, the use of software-based error detection and correction approaches ...
Intermittent hardware faults are hard to diagnose as they occur non-deterministically. Hardware-only...
Fault tolerance is the characteristic of a system that tolerates the class of failures. It will anal...
Hardware errors are projected to increase in modern computer systems due to shrinking feature sizes ...
Traditional reliability-related models for fault-tolerant systems are used to predict system reliabi...
With continued CMOS scaling, future shipped hardware will be increasingly vulnerable to in-the-field...
Human reliability in computer programming can be improved by reducing human errors. The traditional ...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
Embedded systems are increasingly deployed in harsh environments that their components were not nece...
Unpredictable hardware faults and software bugs lead to application crashes, incorrect computations,...
this paper, we focus on methods of fault tolerance, and investigate the differences between hardware...
Hardware techniques to improve the robustness of a computing system can be very expensive, difficult...
According to Moore’s law, technology scaling is continuously providing smaller and faster devices. T...
With continued CMOS scaling, future shipped hardware will be increasingly vulnerable to in-the-field...
This paper discusses the detection of Fault Tolerance in computers. It outlines the present techniqu...
Abstract: For embedded systems, the use of software-based error detection and correction approaches ...
Intermittent hardware faults are hard to diagnose as they occur non-deterministically. Hardware-only...
Fault tolerance is the characteristic of a system that tolerates the class of failures. It will anal...
Hardware errors are projected to increase in modern computer systems due to shrinking feature sizes ...
Traditional reliability-related models for fault-tolerant systems are used to predict system reliabi...
With continued CMOS scaling, future shipped hardware will be increasingly vulnerable to in-the-field...
Human reliability in computer programming can be improved by reducing human errors. The traditional ...
Software-based fault tolerance techniques are a low-cost way to protect processors against soft erro...
Embedded systems are increasingly deployed in harsh environments that their components were not nece...
Unpredictable hardware faults and software bugs lead to application crashes, incorrect computations,...