This paper presents an approach to the synthesis of low-power fault-tolerant hard real-time applications mapped on distributed heterogeneous embedded systems. Our synthesis approach decides the mapping of tasks to processing elements, as well as the voltage and frequency levels for executing each task, such that transient faults are tolerated, the timing constraints of the application are satisfied, and the energy consumed is minimized. Tasks are scheduled using fixed-priority preemptive scheduling, while replication is used for recovery from multiple transient faults. Addressing energy and reliability simultaneously is especially challenging, since lowering the voltage to reduce the energy consumption has been shown to increase the transie...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
Abstract The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art ener...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
Abstract — This paper presents an approach to the synthesis of low-power fault-tolerant hard real-ti...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art energy managem...
Over the past several decades, we have experienced tremendous growth of real-time systems in both sc...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
In this paper we investigate fault tolerance and Dynamic Voltage Scaling (DVS) in hard real time sys...
Distributed computers systems are increasingly being embedded in complex products such as automobile...
Abstract- Energy consumption of electronic devices has become a serious concern in recent years. Ene...
International audienceFor autonomous critical real-time embedded systems (e.g., satellite), guarante...
Abstract—In this paper we are interested in mixed hard/soft real-time fault-tolerant applications ma...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
Recent studies show that, voltage scaling, which is an efficient energy management technique, has a ...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
Abstract The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art ener...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...
Abstract — This paper presents an approach to the synthesis of low-power fault-tolerant hard real-ti...
In this paper we present an approach to the scheduling and voltage scal-ing of low-power fault-toler...
The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art energy managem...
Over the past several decades, we have experienced tremendous growth of real-time systems in both sc...
Abstract—We present an approach to the synthesis of fault-tol-erant hard real-time systems for safet...
In this paper we investigate fault tolerance and Dynamic Voltage Scaling (DVS) in hard real time sys...
Distributed computers systems are increasingly being embedded in complex products such as automobile...
Abstract- Energy consumption of electronic devices has become a serious concern in recent years. Ene...
International audienceFor autonomous critical real-time embedded systems (e.g., satellite), guarante...
Abstract—In this paper we are interested in mixed hard/soft real-time fault-tolerant applications ma...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
Recent studies show that, voltage scaling, which is an efficient energy management technique, has a ...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
Abstract The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art ener...
Safety-critical applications have to function correctly even in presence of faults. This thesis deal...