Zobrazeno 1 - 10
of 10
pro vyhledávání: '"Josef Danial"'
Publikováno v:
IEEE Access, Vol 8, Pp 173414-173427 (2020)
Electromagnetic (EM) side-channel analysis (SCA) is a prominent tool to break mathematically-secure cryptographic engines, especially on resource-constrained devices. Presently, to perform EM SCA on an embedded device, the entire chip is manually sca
Externí odkaz:
https://doaj.org/article/bcfa896f6eb84d33ba0fe9bde416414d
Publikováno v:
IEEE Journal of Solid-State Circuits. 57:167-181
Mathematically secure cryptographic algorithms leak meaningful side-channel information in the form of correlated power and electromagnetic (EM) signals, leading to physical side-channel analysis (SCA) attacks. Circuit-level countermeasures against p
Autor:
Parikha Mehrotra, Josef Danial, David Yang, Shitij Avlani, Shovan Maity, Shreyas Sen, Nirmoy Modak, Debayan Das, Mayukh Nath
Publikováno v:
IEEE Journal of Solid-State Circuits. 56:788-802
Low-power secure communication is one of the key enablers of applications, such as secure authentication and remote health monitoring. Radio wave-based communication method, such as Bluetooth, suffers from high-power requirements and physical signal
Autor:
Arijit Raychowdhury, Muya Chang, Shovan Maity, Dong-Hyun Seo, Josef Danial, Sanu Mathew, Harish K. Krishnamurthy, Anupam Golder, Shreyas Sen, Avinash L. Varna, Nirmoy Modak, Debayan Das, Santosh Ghosh, Baibhab Chatterjee
Publikováno v:
IEEE Journal of Solid-State Circuits. 56:136-150
Mathematically secure cryptographic algorithms, when implemented on a physical substrate, leak critical “side-channel” information, leading to power and electromagnetic (EM) analysis attacks. Circuit-level protections involve switched capacitor,
Publikováno v:
IEEE Access, Vol 8, Pp 173414-173427 (2020)
Electromagnetic (EM) side-channel analysis (SCA) is a prominent tool to break mathematically-secure cryptographic engines, especially on resource-constrained devices. Presently, to perform EM SCA on an embedded device, the entire chip is manually sca
Publikováno v:
ISSCC
Mathematically secure cryptographic algorithms leak side-channel information in the form of correlated power and electromagnetic (EM) signals, leading to physical side-channel analysis (SCA) attacks. Circuit-level countermeasures against power/EM SCA
Autor:
Josef Danial, Shovan Maity, Shreyas Sen, Shitij Avlani, Nirmoy Modak, Debayan Das, Mayukh Nath, David Yang, Parikha Mehrotra
Publikováno v:
CICC
Applications such as secure authentication, remote health monitoring require secure, low power communication between devices around the body. Radio wave communication protocols, such as Bluetooth, suffer from the problem of signal leakage and high po
Publikováno v:
CICC
This article, for the first time, demonstrates an efficient circuit-level countermeasure to prevent deep-learning based side-channel analysis (DLSCA) attacks on encryption devices. Machine learning (ML) SCA, particularly DLSCA attacks have been shown
Autor:
Arijit Raychowdhury, Josef Danial, Debayan Das, Muya Chang, Harish K. Krishnamurthy, Baibhab Chatterjee, Dong-Hyun Seo, Anupam Golder, Avinash L. Varna, Santosh Ghosh, Sanu Mathew, Shreyas Sen, Nirmoy Modak, Shovan Maity
Publikováno v:
ISSCC
Computationally-secure cryptographic algorithms when implemented on physical platforms leak critical physical signals correlated with the secret key in the form of power consumption and electromagnetic (EM) emanations. This can be exploited by an adv
This work presents a Cross-device Deep-Learning based Electromagnetic (EM-X-DL) side-channel analysis (SCA) on AES-128, in the presence of a significantly lower signal-to-noise ratio (SNR) compared to previous works. Using a novel algorithm to intell
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::c34e333d4ba34966c666c81deabe79ed