This work explores the diagnosis capabilities of the enriched information provided by microprocessors trace subsystem combined with laser fault injection. Laser fault injection campaigns with delimited architectural regions have been accomplished on an ARM Cortex-A9 device. Experimental results demonstrate the capability of the presented technique to provide additional information of the various error mechanisms that can happen in a microprocessor. A comparison with radiation campaigns presented in previous work is also discussed, showing that laser fault injection results are in good agreement with neutron and proton radiation results
International audienceS. Skorobogatov and R. Anderson identified laser illumination as an effective ...
Laser fault attack platform constitutes a powerful tool for a precise injection of faults into the d...
Proceeding of: 32th European Symposium on Reliability of Electron Devices, Failure Physics and Analy...
This work explores the diagnosis capabilities of the enriched information provided by microprocessor...
This work proposes a methodology to diagnoseradiation-induced faults in a microprocessor using the h...
This paper presents a solution for error detection in ARM microprocessors based on the use of the tr...
The use of commercial-off-the-shelf (COTS), cutting-edge processing systems in space applications ha...
This article proposes a software error mitigation approach that uses the single instruction multiple...
The expanding application of computing systems and the continuing advances in semiconductor technolo...
This paper is aimed at emulating the errors in semiconductor memories by space radiation with a puls...
Statistical fault injection is widely used to estimate the reliability of mission-critical microproc...
Abstract—Historically, space-based processing systems have lagged behind their terrestrial counterpa...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
This work presents a hybrid error detection architecture that uses ARM PTM trace interface to observ...
The continuous scaling of electronic components has led to the development of high-performance micro...
International audienceS. Skorobogatov and R. Anderson identified laser illumination as an effective ...
Laser fault attack platform constitutes a powerful tool for a precise injection of faults into the d...
Proceeding of: 32th European Symposium on Reliability of Electron Devices, Failure Physics and Analy...
This work explores the diagnosis capabilities of the enriched information provided by microprocessor...
This work proposes a methodology to diagnoseradiation-induced faults in a microprocessor using the h...
This paper presents a solution for error detection in ARM microprocessors based on the use of the tr...
The use of commercial-off-the-shelf (COTS), cutting-edge processing systems in space applications ha...
This article proposes a software error mitigation approach that uses the single instruction multiple...
The expanding application of computing systems and the continuing advances in semiconductor technolo...
This paper is aimed at emulating the errors in semiconductor memories by space radiation with a puls...
Statistical fault injection is widely used to estimate the reliability of mission-critical microproc...
Abstract—Historically, space-based processing systems have lagged behind their terrestrial counterpa...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
This work presents a hybrid error detection architecture that uses ARM PTM trace interface to observ...
The continuous scaling of electronic components has led to the development of high-performance micro...
International audienceS. Skorobogatov and R. Anderson identified laser illumination as an effective ...
Laser fault attack platform constitutes a powerful tool for a precise injection of faults into the d...
Proceeding of: 32th European Symposium on Reliability of Electron Devices, Failure Physics and Analy...