In this article, we propose a strategy for the synthesis of fault-tolerant schedules and for the mapping of fault-tolerant applications. Our techniques handle transparency/performance trade-offs and use the fault-occurrence information to reduce the overhead due to fault tolerance. Processes and messages are statically scheduled, and we use process reexecution for recovering from multiple transient faults. We propose a fine-grained transparent recovery, where the property of transparency can be selectively applied to processes and messages. Transparency hides the recovery actions in a selected part of the application so that they do not affect the schedule of other processes and messages. While leading to longer schedules, transparent recov...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
We survey scheduling algorithms proposed for tolerating permanent and transient failures in real-tim...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
International audienceThis paper is aimed at studying fault-tolerant design of the realtime multi-pr...
We present a formal approach to implement fault-tolerance in real-time embedded systems. The initial...
Distributed computers systems are increasingly being embedded in complex products such as automobile...
This report provides an introduction to the design of scheduling algorithms to cope with faults on l...
Our goal is to automatically obtain a distributed and fault-tolerant embedded system: distributed be...
In this paper, we devise a new method for transparent fault tolerance of distributed programs runnin...
This report explores algorithms aiming at reducing the algorithm run-time and rejection rate when on...
In this paper we are interested in mixed-criticality embed-ded applications implemented on distribut...
International audienceParallel execution time is expected to decrease as the number of processors in...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
We survey scheduling algorithms proposed for tolerating permanent and transient failures in real-tim...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
International audienceThis paper is aimed at studying fault-tolerant design of the realtime multi-pr...
We present a formal approach to implement fault-tolerance in real-time embedded systems. The initial...
Distributed computers systems are increasingly being embedded in complex products such as automobile...
This report provides an introduction to the design of scheduling algorithms to cope with faults on l...
Our goal is to automatically obtain a distributed and fault-tolerant embedded system: distributed be...
In this paper, we devise a new method for transparent fault tolerance of distributed programs runnin...
This report explores algorithms aiming at reducing the algorithm run-time and rejection rate when on...
In this paper we are interested in mixed-criticality embed-ded applications implemented on distribut...
International audienceParallel execution time is expected to decrease as the number of processors in...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
Reliability is a major requirement for most safety-related systems. To meet this requirement, fault-...