This Artifact support the µArchiFI tool submission to FMCAD23. The abstract is reproduced below: This paper introduces µArchiFI, an open-source tool dedicated to the formal modeling and verification of microarchitecture-level fault injections and their effects on complex hardware/software systems. First, we address a system-level modeling problem, including an attacker model, which is automatically integrated into the Yosys toolchain. Second, we introduce verification strategies to evaluate the fault effects for software-level security. The practical use of µArchiFI is demonstrated on RISC-V use cases using state-of-the-art model-checking tools for hardware verification
International audienceWith the widespread use of embedded system devices, hardware designers and sof...
Fault Injection Analysis is seen as a powerful attack against implementations of cryptographic algor...
Verification of the security of software artifacts is a challenging task. An integrated approach tha...
see also https://zenodo.org/record/7958412International audienceThis paper introduces µArchiFI, an o...
International audienceThis paper introduces a formal workflow for modeling software/hardware systems...
This is the artifact of our paper "Pensieve: Microarchitectural Modeling for Security Evaluation". ...
International audienceFault injection attacks represent an effective threatto embedded systems. Rece...
The adoption of Microprocessors is increasingly diversifying to several embedded and mo- bile device...
Faults attacks are a serious threat to secure devices, because they are powerful and they can be per...
International audienceFault injection attacks are considered one of the major threats to cyber-physi...
This paper presents a formal verification framework and tool that evaluates the robustness of softwa...
Recent research has uncovered a broad class of security vulnerabilities in which confidential data i...
Interrupt behaviors, especially the external ones, are diffi-cult to verify in a microprocessor desi...
We describe a technique for verifying that a hardware design correctly implements a protocol-level f...
This article reports the results of fault injection on a microcontroller based on the RISC-V (Riscy)...
International audienceWith the widespread use of embedded system devices, hardware designers and sof...
Fault Injection Analysis is seen as a powerful attack against implementations of cryptographic algor...
Verification of the security of software artifacts is a challenging task. An integrated approach tha...
see also https://zenodo.org/record/7958412International audienceThis paper introduces µArchiFI, an o...
International audienceThis paper introduces a formal workflow for modeling software/hardware systems...
This is the artifact of our paper "Pensieve: Microarchitectural Modeling for Security Evaluation". ...
International audienceFault injection attacks represent an effective threatto embedded systems. Rece...
The adoption of Microprocessors is increasingly diversifying to several embedded and mo- bile device...
Faults attacks are a serious threat to secure devices, because they are powerful and they can be per...
International audienceFault injection attacks are considered one of the major threats to cyber-physi...
This paper presents a formal verification framework and tool that evaluates the robustness of softwa...
Recent research has uncovered a broad class of security vulnerabilities in which confidential data i...
Interrupt behaviors, especially the external ones, are diffi-cult to verify in a microprocessor desi...
We describe a technique for verifying that a hardware design correctly implements a protocol-level f...
This article reports the results of fault injection on a microcontroller based on the RISC-V (Riscy)...
International audienceWith the widespread use of embedded system devices, hardware designers and sof...
Fault Injection Analysis is seen as a powerful attack against implementations of cryptographic algor...
Verification of the security of software artifacts is a challenging task. An integrated approach tha...