Secured CAD back-end flow for power-analysis-resistant cryptoprocessors

Sylvain Guilley; Florent Flament; Philippe Hoogvorst; Renaud Pacalet; Yves Mathieu

doi:10.1109/MDT.2007.202

Secured CAD back-end flow for power-analysis-resistant cryptoprocessors

Sylvain Guilley
, Florent Flament
, Philippe Hoogvorst
, Renaud Pacalet
, Yves Mathieu

Telecom Paris
Hewlett Packard
CNRS

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

This article presents a comprehensive back-end design flow that enables the realization of constant-power cryptoprocessors, natively protected against side-channel attacks exploiting the instant power consumption. The proposed methodology is based on a fully custom-balanced cell library and an innovative place-and-route method. This article shows that it is indeed possible to implement hardware that is robust against all known power attacks. All the design steps involved in this methodology take place at the layout level. The described flow has been applied to the quasi-delay-insensitive SecLib library with a shielded routing method derived from back-end duplication, using legacy CAD tools for the back-end steps. The authors evaluate the cost of the secured methodology through an example of a multimode DES datapath.

langue originale	Anglais
Pages (de - à)	546-555
Nombre de pages	10
journal	IEEE Design and Test of Computers
Volume	24
Numéro de publication	6
Les DOIs	https://doi.org/10.1109/MDT.2007.202
état	Publié - 1 nov. 2007

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10.1109/MDT.2007.202

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title = "Secured CAD back-end flow for power-analysis-resistant cryptoprocessors",

abstract = "This article presents a comprehensive back-end design flow that enables the realization of constant-power cryptoprocessors, natively protected against side-channel attacks exploiting the instant power consumption. The proposed methodology is based on a fully custom-balanced cell library and an innovative place-and-route method. This article shows that it is indeed possible to implement hardware that is robust against all known power attacks. All the design steps involved in this methodology take place at the layout level. The described flow has been applied to the quasi-delay-insensitive SecLib library with a shielded routing method derived from back-end duplication, using legacy CAD tools for the back-end steps. The authors evaluate the cost of the secured methodology through an example of a multimode DES datapath.",

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author = "Sylvain Guilley and Florent Flament and Philippe Hoogvorst and Renaud Pacalet and Yves Mathieu",

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AU - Flament, Florent

AU - Hoogvorst, Philippe

AU - Pacalet, Renaud

AU - Mathieu, Yves

PY - 2007/11/1

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ER -

Secured CAD back-end flow for power-analysis-resistant cryptoprocessors

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