Silent Simon: A threshold implementation under 100 slices

Aria  Shahverdi; Mostafa  Taha; Thomas Eisenbarth

doi:10.1109/HST.2015.7140227

Silent Simon: A threshold implementation under 100 slices

Aria Shahverdi, Mostafa Taha, Thomas Eisenbarth

Institut für IT-Sicherheit

20 Zitate (Scopus)

Abstract

Lightweight Cryptography aims at achieving security comparable to conventional cryptography at a much lower cost. Simon is a lightweight alternative to AES, as it shares same cryptographic parameters, but has been shown to be extremely area-efficient on FPGAs. However, in the embedded setting, protection against side channel analysis is often required. In this work we present a threshold implementation of Simon. The proposed core splits the information between three shares and achieves provable security against first order side-channel attacks. The core can be implemented in less than 100 slices of a low-cost FPGA, making it the world smallest threshold implementation of a block-cipher. Hence, the proposed core perfectly suits highly-constrained embedded systems including sensor nodes and RFIDs. Security of the proposed core is validated by provable arguments as well as practical DPA attacks and tests for leakage quantification.

Originalsprache	Englisch
Titel	2015 IEEE International Symposium on Hardware Oriented Security and Trust (HOST)
Seitenumfang	6
Herausgeber (Verlag)	IEEE
Erscheinungsdatum	02.07.2015
Seiten	1-6
ISBN (elektronisch)	978-1-4673-7421-7
DOIs	https://doi.org/10.1109/HST.2015.7140227
Publikationsstatus	Veröffentlicht - 02.07.2015
Veranstaltung	2015 IEEE International Symposium on Hardware Oriented Security and Trust (HOST) - Washington, USA / Vereinigte Staaten Dauer: 05.05.2015 → 07.05.2015

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Dokumente

10.1109/HST.2015.7140227

https://eprint.iacr.org/2015/172.pdf

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https://www.researchgate.net/publication/283469980_Silent_Simon_A_threshold_implementation_under_100_slices

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title = "Silent Simon: A threshold implementation under 100 slices",

abstract = "Lightweight Cryptography aims at achieving security comparable to conventional cryptography at a much lower cost. Simon is a lightweight alternative to AES, as it shares same cryptographic parameters, but has been shown to be extremely area-efficient on FPGAs. However, in the embedded setting, protection against side channel analysis is often required. In this work we present a threshold implementation of Simon. The proposed core splits the information between three shares and achieves provable security against first order side-channel attacks. The core can be implemented in less than 100 slices of a low-cost FPGA, making it the world smallest threshold implementation of a block-cipher. Hence, the proposed core perfectly suits highly-constrained embedded systems including sensor nodes and RFIDs. Security of the proposed core is validated by provable arguments as well as practical DPA attacks and tests for leakage quantification.",

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Shahverdi, A, Taha, M & Eisenbarth, T 2015, Silent Simon: A threshold implementation under 100 slices. in 2015 IEEE International Symposium on Hardware Oriented Security and Trust (HOST). Authorized distributor of all IEEE proceedings, IEEE, S. 1-6, 2015 IEEE International Symposium on Hardware Oriented Security and Trust (HOST), Washington, Washington, USA / Vereinigte Staaten, 05.05.15. https://doi.org/10.1109/HST.2015.7140227

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AB - Lightweight Cryptography aims at achieving security comparable to conventional cryptography at a much lower cost. Simon is a lightweight alternative to AES, as it shares same cryptographic parameters, but has been shown to be extremely area-efficient on FPGAs. However, in the embedded setting, protection against side channel analysis is often required. In this work we present a threshold implementation of Simon. The proposed core splits the information between three shares and achieves provable security against first order side-channel attacks. The core can be implemented in less than 100 slices of a low-cost FPGA, making it the world smallest threshold implementation of a block-cipher. Hence, the proposed core perfectly suits highly-constrained embedded systems including sensor nodes and RFIDs. Security of the proposed core is validated by provable arguments as well as practical DPA attacks and tests for leakage quantification.

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Silent Simon: A threshold implementation under 100 slices

Abstract

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Dokumente

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