Electromagnetic injection (EMI) is a powerful and precise technique for fault injection in modern ICs. This intentional fault can be utilized to steal secret information hidden inside of ICs. Unlike laser fault injection, tedious package decapsulation is not needed for EMI, which reduces an attacker's cost and thus causes a serious information security threat. In this paper, a PLL-based sensor circuit is proposed to detect EMI reactively on chip. A fully automatic design flow is devised to integrate the proposed sensor together with a cryptographic processor. A high fault detection coverage and a small hardware overhead are demonstrated experimentally on an FPGA platform.Accepted versio
International audienceElectromagnetic fault injections are produced on secured ICs aiming to break c...
With the increasing popularity of embedded systems, security and privacy concerns poses a huge threa...
Special Issue: Trustworthy Manufacturing and Utilization of Secure DevicesInternational audienceTh...
Fault injection attack against embedded devices has attracted much attention in recent years. As a h...
Abstract. This paper presents a standard-cell-based semi-automatic design methodology of a new conce...
International audienceFault Attacks methods like Electro-Magnetic PulseInjection or Body Biasing Inj...
Security is acknowledged as one of the main challenges in the design and deployment of embedded circ...
International audienceElectroMagnetic Pulse Injection (EMPI) has recently been demonstrated to be an...
© 2017 IEEE. Security is acknowledged as one of the main challenges in the design and deployment of ...
Abstract—This paper presents a new type of fault injec-tion method based on intentional electromagne...
© 2018 IEEE. A threat to intentionally induce electromagnetic waves inside the cryptographic integra...
International audienceImplementation attacks are a major threat to hardware cryptographic implementa...
International audienceElectroMagnetic Fault Injection requires two main devices, a pulse generator a...
<p>Fault injection using electromagnetic pulse is a promising technique for extracting secrets from ...
Laser fault injection (LFI) attack on cryptographic processors is a serious threat to information se...
International audienceElectromagnetic fault injections are produced on secured ICs aiming to break c...
With the increasing popularity of embedded systems, security and privacy concerns poses a huge threa...
Special Issue: Trustworthy Manufacturing and Utilization of Secure DevicesInternational audienceTh...
Fault injection attack against embedded devices has attracted much attention in recent years. As a h...
Abstract. This paper presents a standard-cell-based semi-automatic design methodology of a new conce...
International audienceFault Attacks methods like Electro-Magnetic PulseInjection or Body Biasing Inj...
Security is acknowledged as one of the main challenges in the design and deployment of embedded circ...
International audienceElectroMagnetic Pulse Injection (EMPI) has recently been demonstrated to be an...
© 2017 IEEE. Security is acknowledged as one of the main challenges in the design and deployment of ...
Abstract—This paper presents a new type of fault injec-tion method based on intentional electromagne...
© 2018 IEEE. A threat to intentionally induce electromagnetic waves inside the cryptographic integra...
International audienceImplementation attacks are a major threat to hardware cryptographic implementa...
International audienceElectroMagnetic Fault Injection requires two main devices, a pulse generator a...
<p>Fault injection using electromagnetic pulse is a promising technique for extracting secrets from ...
Laser fault injection (LFI) attack on cryptographic processors is a serious threat to information se...
International audienceElectromagnetic fault injections are produced on secured ICs aiming to break c...
With the increasing popularity of embedded systems, security and privacy concerns poses a huge threa...
Special Issue: Trustworthy Manufacturing and Utilization of Secure DevicesInternational audienceTh...