Multiple-Layer Candidate Sieves against Serial Cryptographic Implementations

Changhai Ou; Fan Zhang; Xinping Zhou; Kexin Qiao; Renjun Zhang

doi:10.29007/d3gt

Multiple-Layer Candidate Sieves against Serial Cryptographic Implementations

Changhai Ou, Fan Zhang^*, Xinping Zhou, Kexin Qiao, Renjun Zhang

^*此作品的通讯作者

网络空间安全学院

科研成果: 期刊稿件 › 会议文章 › 同行评审

摘要

The existing multiple-layer candidate sieve exploits collisions to filter the candidates to achieve a much smaller space for easier key recovery, and tries to recover the key ranking at very deep candidate space. However, it leads to enormous computation yet achieves very low success probability. In this paper, we build a novel Simple Multiple-Layer Sieve (SMLS) from Correlation Power Analysis (CPA) and achieve better performance than the existing one. Furthermore, we build two combined sieves named Two-Layer Stacking Sieve (TLSS) and Full-Layer Stacking Sieve (FLSS) since same operations in serial cryptographic implementation generate similar leakage. The experimental results verify their superiority.

源语言	英语
页（从-至）	34-48
页数	15
期刊	EPiC Series in Computing
卷	87
DOI	https://doi.org/10.29007/d3gt
出版状态	已出版 - 2022
活动	10th International Workshop on Security Proofs for Embedded Systems, PROOFS 2021 - Beijing, 中国期限: 17 9月 2021 → 17 9月 2021

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title = "Multiple-Layer Candidate Sieves against Serial Cryptographic Implementations",

abstract = "The existing multiple-layer candidate sieve exploits collisions to filter the candidates to achieve a much smaller space for easier key recovery, and tries to recover the key ranking at very deep candidate space. However, it leads to enormous computation yet achieves very low success probability. In this paper, we build a novel Simple Multiple-Layer Sieve (SMLS) from Correlation Power Analysis (CPA) and achieve better performance than the existing one. Furthermore, we build two combined sieves named Two-Layer Stacking Sieve (TLSS) and Full-Layer Stacking Sieve (FLSS) since same operations in serial cryptographic implementation generate similar leakage. The experimental results verify their superiority.",

author = "Changhai Ou and Fan Zhang and Xinping Zhou and Kexin Qiao and Renjun Zhang",

note = "Publisher Copyright: {\textcopyright} 2022, EasyChair. All rights reserved.; 10th International Workshop on Security Proofs for Embedded Systems, PROOFS 2021 ; Conference date: 17-09-2021 Through 17-09-2021",

year = "2022",

doi = "10.29007/d3gt",

language = "English",

volume = "87",

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journal = "EPiC Series in Computing",

issn = "2398-7340",

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TY - JOUR

T1 - Multiple-Layer Candidate Sieves against Serial Cryptographic Implementations

AU - Ou, Changhai

AU - Zhang, Fan

AU - Zhou, Xinping

AU - Qiao, Kexin

AU - Zhang, Renjun

PY - 2022

Y1 - 2022

N2 - The existing multiple-layer candidate sieve exploits collisions to filter the candidates to achieve a much smaller space for easier key recovery, and tries to recover the key ranking at very deep candidate space. However, it leads to enormous computation yet achieves very low success probability. In this paper, we build a novel Simple Multiple-Layer Sieve (SMLS) from Correlation Power Analysis (CPA) and achieve better performance than the existing one. Furthermore, we build two combined sieves named Two-Layer Stacking Sieve (TLSS) and Full-Layer Stacking Sieve (FLSS) since same operations in serial cryptographic implementation generate similar leakage. The experimental results verify their superiority.

AB - The existing multiple-layer candidate sieve exploits collisions to filter the candidates to achieve a much smaller space for easier key recovery, and tries to recover the key ranking at very deep candidate space. However, it leads to enormous computation yet achieves very low success probability. In this paper, we build a novel Simple Multiple-Layer Sieve (SMLS) from Correlation Power Analysis (CPA) and achieve better performance than the existing one. Furthermore, we build two combined sieves named Two-Layer Stacking Sieve (TLSS) and Full-Layer Stacking Sieve (FLSS) since same operations in serial cryptographic implementation generate similar leakage. The experimental results verify their superiority.

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U2 - 10.29007/d3gt

DO - 10.29007/d3gt

M3 - Conference article

AN - SCOPUS:85141828443

SN - 2398-7340

VL - 87

SP - 34

EP - 48

JO - EPiC Series in Computing

JF - EPiC Series in Computing

T2 - 10th International Workshop on Security Proofs for Embedded Systems, PROOFS 2021

Y2 - 17 September 2021 through 17 September 2021

ER -

Multiple-Layer Candidate Sieves against Serial Cryptographic Implementations

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