EM SCA White-Box Analysis-Based Reduced Leakage Cell Design and Presilicon Evaluation

EM SCA White-Box Analysis-Based Reduced Leakage Cell Design and Presilicon Evaluation

This work presents a white-box modeling of the electromagnetic (EM) leakage from an integrated circuit (IC) to develop EM side-channel analysis (SCA)-aware design techniques. A new digital library cell layout design technique is proposed to minimize the EM leakage and is evaluated using a high-frequ...

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Veröffentlicht in:IEEE transactions on computer-aided design of integrated circuits and systems 2022-11, Vol.41 (11), p.4927-4938
Hauptverfasser: Das, Debayan, Nath, Mayukh, Chatterjee, Baibhab, Kumar, Raghavan, Liu, Xiaosen, Krishnamurthy, Harish, Sastry, Manoj, Mathew, Sanu, Ghosh, Santosh, Sen, Shreyas
Format: Artikel
Sprache:eng
Schlagworte:
Analytical models
Circuit design
Cryptography
Design analysis
Digital systems
Electromagnetic (EM) side-channel attack
Evaluation
Integrated circuit modeling
Integrated circuits
Layout
Layouts
Leakage
Logic circuits
logic gate layout design
Logic gates
power grid
Power grids
presilicon EM side-channel analysis (SCA) evaluation
Silicon
white-box modeling
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Zusammenfassung:This work presents a white-box modeling of the electromagnetic (EM) leakage from an integrated circuit (IC) to develop EM side-channel analysis (SCA)-aware design techniques. A new digital library cell layout design technique is proposed to minimize the EM leakage and is evaluated using a high-frequency structure simulator (HFSS)-based framework. Backed by our physics-based understanding of EM radiation, the proposed double-row power grid-based digital cell layout design shows >5\times reduction in the EM SCA leakage compared to the traditional digital logic gate layout design. Furthermore, exploiting the magneto-quasistatic (MQS) regime of operation of the EM leakage from the CMOS circuits, the HFSS-based framework is utilized to develop a pre-silicon (Si) EM SCA evaluation technique to assess the vulnerability of cryptographic implementations against such attacks during the design phase itself.
ISSN:0278-0070
1937-4151
DOI:10.1109/TCAD.2022.3144369