Abstract. As technology scales, transient faults have emerged as a key challenge for reliable embedded system design. This paper proposes a design methodology that incorporates reliability into hardware–software co-design paradigm for embedded systems. We introduce an allocation and scheduling algorithm that efficiently handles conditional execution in multi-rate embedded systems, and selectively duplicates critical tasks to detect or correct transient errors, such that the reliability of the system is improved. Two methods are proposed to insert duplicated tasks into the schedule. The improved reliability is achieved by utilizing the otherwise idle computation resources and taking advantage of the overlapping schedule for mutually exclusiv...
Abstract: Fault-tolerance is a crucial aspect of safety critical systems. When such systems need to ...
Embedded systems are becoming pervasive in diverse application domains such as automotive, avionic, ...
Abstract. Embedded systems increasingly encompass both dependability and responsiveness requirements...
As technology scales, transient faults due to single event upsets have emerged as a key challenge fo...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
This paper presents an approach for the reliability-aware design optimization of real-time systems o...
Abstract—This paper presents an approach for the reliability-aware design optimization of real-time ...
As the technology scales down and the number of circuits grows, the issue of soft errors and reliabi...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
This paper proposes a design methodology that enhances the classical system-level design flow for em...
We survey scheduling algorithms proposed for tolerating permanent and transient failures in real-tim...
This paper presents an approach to the synthesis of low-power fault-tolerant hard real-time applicat...
International audienceAs transistors scale down, systems are more vulnerable to faults. Their reliab...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
Abstract: Fault-tolerance is a crucial aspect of safety critical systems. When such systems need to ...
Embedded systems are becoming pervasive in diverse application domains such as automotive, avionic, ...
Abstract. Embedded systems increasingly encompass both dependability and responsiveness requirements...
As technology scales, transient faults due to single event upsets have emerged as a key challenge fo...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
This paper presents an approach for the reliability-aware design optimization of real-time systems o...
Abstract—This paper presents an approach for the reliability-aware design optimization of real-time ...
As the technology scales down and the number of circuits grows, the issue of soft errors and reliabi...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
This paper proposes a design methodology that enhances the classical system-level design flow for em...
We survey scheduling algorithms proposed for tolerating permanent and transient failures in real-tim...
This paper presents an approach to the synthesis of low-power fault-tolerant hard real-time applicat...
International audienceAs transistors scale down, systems are more vulnerable to faults. Their reliab...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
Abstract: Fault-tolerance is a crucial aspect of safety critical systems. When such systems need to ...
Embedded systems are becoming pervasive in diverse application domains such as automotive, avionic, ...
Abstract. Embedded systems increasingly encompass both dependability and responsiveness requirements...