Add to ORKGInternational audienceThis note describes laser fault experiments on an 8-bit 0.35µm microcontroller with no countermeasures. We show that reproducible single-byte faults, often considered unfeasible, can be obtained by careful beam-size and shot-instant tuning
Fault induction by means of a laser becomes more difficult due to the hardware protection and new te...
International audienceThe use of a laser to inject faults into SRAM memory cells is well known. Howe...
The last generation of 32-bit microprocessors seems `to ring the knell' of functional test methods. ...
International audienceThis note describes laser fault experiments on an 8-bit 0.35µm microcontroller...
International audienceThis note describes laser fault experiments on an 8-bit 0.35µm microcontroller...
International audienceS. Skorobogatov and R. Anderson identified laser illumination as an effective ...
International audiencePhysical attacks are a known threat posed against secure embedded systems. Not...
International audienceThe Flash memory of a Microcontroller Unit (MCU) is an important part of its a...
International audienceThis work explores the fault tolerance of successive approximation algorithms,...
Laser fault attack platform constitutes a powerful tool for a precise injection of faults into the d...
International audienceLaser fault injection through the front side (and consequently the metal-fills...
International audience—Laser fault injection into SRAM cells is a widely used technique to perform f...
The expanding application of computing systems and the continuing advances in semiconductor technolo...
Cryptographic circuits may be victims of fault attacks on their hardware implementations. fault atta...
International audienceI. IntroductionLaser fault injection – mechanism SRAM fault injection sensitiv...
Fault induction by means of a laser becomes more difficult due to the hardware protection and new te...
International audienceThe use of a laser to inject faults into SRAM memory cells is well known. Howe...
The last generation of 32-bit microprocessors seems `to ring the knell' of functional test methods. ...
International audienceThis note describes laser fault experiments on an 8-bit 0.35µm microcontroller...
International audienceThis note describes laser fault experiments on an 8-bit 0.35µm microcontroller...
International audienceS. Skorobogatov and R. Anderson identified laser illumination as an effective ...
International audiencePhysical attacks are a known threat posed against secure embedded systems. Not...
International audienceThe Flash memory of a Microcontroller Unit (MCU) is an important part of its a...
International audienceThis work explores the fault tolerance of successive approximation algorithms,...
Laser fault attack platform constitutes a powerful tool for a precise injection of faults into the d...
International audienceLaser fault injection through the front side (and consequently the metal-fills...
International audience—Laser fault injection into SRAM cells is a widely used technique to perform f...
The expanding application of computing systems and the continuing advances in semiconductor technolo...
Cryptographic circuits may be victims of fault attacks on their hardware implementations. fault atta...
International audienceI. IntroductionLaser fault injection – mechanism SRAM fault injection sensitiv...
Fault induction by means of a laser becomes more difficult due to the hardware protection and new te...
International audienceThe use of a laser to inject faults into SRAM memory cells is well known. Howe...
The last generation of 32-bit microprocessors seems `to ring the knell' of functional test methods. ...