International audienceThis paper presents an approach for increasing the lifetime of systems implemented on SRAM-based FPGAs, by introducing fault tolerance properties enabling the system to autonomously manage the occurrence of both transient and permanent faults. On the basis of the foreseen mission time and application environment, the designer is supported in the implementation of a system able to reconfigure itself, either by reloading the correct configuration in case of transient faults, or by relocating part of the functionality in presence of permanent faults. The result is a system implementation offering good performance and correct functionality even when faults occur. The proposed approach is evaluated in a case study to highli...
International audienceIn order to increase reliability and availability of Static-RAM based field pr...
This paper presents an algorithm for the discrimination of faults in FPGAs based on their recovery p...
The new generations of SRAM-based FPGAdevices, built on nanometer technology, are thepreferred choic...
International audienceThis paper presents an approach for increasing the lifetime of systems impleme...
Abstract This paper presents an approach for increas-ing the lifetime of systems implemented on SRAM...
In this paper we propose an automated design flow for the implementation of autonomous fault-toleran...
Mission-critical applications such as space or avionics increasingly demand high fault tolerance cap...
This paper presents a novel design flow for the implementation of digital systems onto SRAM-based FP...
Nowadays Field-Programmable Gate Arrays (FP-GAs) are increasingly used in critical applications. In ...
Summarization: This paper proposes a novel SRAM based FPGA architecture that is suitable for mapping...
In the thesis, a methodology alternative to existing methods of digital systems design with increase...
Commercial SRAM-based FPGAs have the potential to provide aerospace applications with the necessary ...
International audienceIn order to increase reliability and availability of Static-RAM based field pr...
This paper presents an algorithm for the discrimination of faults in FPGAs based on their recovery p...
The new generations of SRAM-based FPGAdevices, built on nanometer technology, are thepreferred choic...
International audienceThis paper presents an approach for increasing the lifetime of systems impleme...
Abstract This paper presents an approach for increas-ing the lifetime of systems implemented on SRAM...
In this paper we propose an automated design flow for the implementation of autonomous fault-toleran...
Mission-critical applications such as space or avionics increasingly demand high fault tolerance cap...
This paper presents a novel design flow for the implementation of digital systems onto SRAM-based FP...
Nowadays Field-Programmable Gate Arrays (FP-GAs) are increasingly used in critical applications. In ...
Summarization: This paper proposes a novel SRAM based FPGA architecture that is suitable for mapping...
In the thesis, a methodology alternative to existing methods of digital systems design with increase...
Commercial SRAM-based FPGAs have the potential to provide aerospace applications with the necessary ...
International audienceIn order to increase reliability and availability of Static-RAM based field pr...
This paper presents an algorithm for the discrimination of faults in FPGAs based on their recovery p...
The new generations of SRAM-based FPGAdevices, built on nanometer technology, are thepreferred choic...