We describe a simulation-based fault injection technique for failure probability and fault observability assessment of SRAM-FPGA systems. Our approach relies on a model of FPGA netlists realised with the Stochastic Activity Networks formalism. Faults can be injected into the model either stochastically or exhaustively one at a time. Fault propagation is traced to the output pins, using a four-valued logic that enables faulty signals to be tagged and recognized. We considered some of the ITC'99 benchmarks as examples
We describe a model of Field Programmable Gate Array based systems realised with the Stochastic Acti...
Predicting soft errors on SRAM-based FPGAs without a wasteful time-consuming or a high-cost has alwa...
Abstract. Designers of safety-critical VLSI systems are asking for effective tools for evaluating an...
We describe a simulation-based fault injection technique for calculating the probability of failures...
SRAM-FPGA systems are simulated with a model based on the Stochastic Activity Networks (SAN) formali...
In this paper a simulator of soft errors (SEUs) in the configuration memory of SRAM-based FPGAs is p...
In this paper a simulator of soft errors (SEUs) in the configuration memory of SRAM-based FPGAs is p...
International audienceA new method for injecting faults in the configuration bits of SRAM-based FPGA...
Various formal approaches can be used to study FPGA-based systems in relationships to faults, in par...
Various formal approaches can be used to study FPGA-based systems in relationships to faults, in par...
The SRAM cells that form the configuration memory of an SRAM-based FPGA make such FPGAs particularly...
Abstract — As the feature size shrinks to the nanometer scale, SRAM-based FPGAs will become increasi...
Predicting soft errors on SRAM-based FPGAs without a wasteful time-consuming or a high-cost has alwa...
SRAM-based FPGAs are more and more relevant in a growing number of applications, ranging from the au...
Abstract—We describe a model of FPGA based systems re-alised with the Stochastic Activity Networks (...
We describe a model of Field Programmable Gate Array based systems realised with the Stochastic Acti...
Predicting soft errors on SRAM-based FPGAs without a wasteful time-consuming or a high-cost has alwa...
Abstract. Designers of safety-critical VLSI systems are asking for effective tools for evaluating an...
We describe a simulation-based fault injection technique for calculating the probability of failures...
SRAM-FPGA systems are simulated with a model based on the Stochastic Activity Networks (SAN) formali...
In this paper a simulator of soft errors (SEUs) in the configuration memory of SRAM-based FPGAs is p...
In this paper a simulator of soft errors (SEUs) in the configuration memory of SRAM-based FPGAs is p...
International audienceA new method for injecting faults in the configuration bits of SRAM-based FPGA...
Various formal approaches can be used to study FPGA-based systems in relationships to faults, in par...
Various formal approaches can be used to study FPGA-based systems in relationships to faults, in par...
The SRAM cells that form the configuration memory of an SRAM-based FPGA make such FPGAs particularly...
Abstract — As the feature size shrinks to the nanometer scale, SRAM-based FPGAs will become increasi...
Predicting soft errors on SRAM-based FPGAs without a wasteful time-consuming or a high-cost has alwa...
SRAM-based FPGAs are more and more relevant in a growing number of applications, ranging from the au...
Abstract—We describe a model of FPGA based systems re-alised with the Stochastic Activity Networks (...
We describe a model of Field Programmable Gate Array based systems realised with the Stochastic Acti...
Predicting soft errors on SRAM-based FPGAs without a wasteful time-consuming or a high-cost has alwa...
Abstract. Designers of safety-critical VLSI systems are asking for effective tools for evaluating an...