Differential power analysis on countermeasures using binary signed digit representations

Tae Hyun Kim; Dong Guk Han; Katsuyuki Okeya; Jongin Lim

doi:10.4218/etrij.07.0106.0220

Differential power analysis on countermeasures using binary signed digit representations

Tae Hyun Kim, Dong Guk Han, Katsuyuki Okeya, Jongin Lim

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Side channel attacks are a very serious menace to embedded devices with cryptographic applications. To counteract such attacks many randomization techniques have been proposed. One efficient technique in elliptic curve cryptosystems randomizes addition chains with binary signed digit (BSD) representations of the secret key. However, when such countermeasures have been used alone, most of them have been broken by various simple power analysis attacks. In this paper, we consider combinations which can enhance the security of countermeasures using BSD representations by adding additional countermeasures. First, we propose several ways the improved countermeasures based on BSD representations can be attacked. In an actual statistical power analysis attack, the number of samples plays an important role. Therefore, we estimate the number of samples needed in the proposed attack.

Original language	English
Pages (from-to)	619-632
Number of pages	14
Journal	ETRI Journal
Volume	29
Issue number	5
DOIs	https://doi.org/10.4218/etrij.07.0106.0220
Publication status	Published - 2007 Oct

Keywords

Binary signed digit representation
Elliptic curve cryptosystems
Side channel attacks
Signal-to-noise ratio (SNR)
Smart card

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
General Computer Science
Electrical and Electronic Engineering

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10.4218/etrij.07.0106.0220

Cite this

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title = "Differential power analysis on countermeasures using binary signed digit representations",

abstract = "Side channel attacks are a very serious menace to embedded devices with cryptographic applications. To counteract such attacks many randomization techniques have been proposed. One efficient technique in elliptic curve cryptosystems randomizes addition chains with binary signed digit (BSD) representations of the secret key. However, when such countermeasures have been used alone, most of them have been broken by various simple power analysis attacks. In this paper, we consider combinations which can enhance the security of countermeasures using BSD representations by adding additional countermeasures. First, we propose several ways the improved countermeasures based on BSD representations can be attacked. In an actual statistical power analysis attack, the number of samples plays an important role. Therefore, we estimate the number of samples needed in the proposed attack.",

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author = "Kim, {Tae Hyun} and Han, {Dong Guk} and Katsuyuki Okeya and Jongin Lim",

year = "2007",

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language = "English",

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AU - Kim, Tae Hyun

AU - Han, Dong Guk

AU - Okeya, Katsuyuki

AU - Lim, Jongin

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N2 - Side channel attacks are a very serious menace to embedded devices with cryptographic applications. To counteract such attacks many randomization techniques have been proposed. One efficient technique in elliptic curve cryptosystems randomizes addition chains with binary signed digit (BSD) representations of the secret key. However, when such countermeasures have been used alone, most of them have been broken by various simple power analysis attacks. In this paper, we consider combinations which can enhance the security of countermeasures using BSD representations by adding additional countermeasures. First, we propose several ways the improved countermeasures based on BSD representations can be attacked. In an actual statistical power analysis attack, the number of samples plays an important role. Therefore, we estimate the number of samples needed in the proposed attack.

AB - Side channel attacks are a very serious menace to embedded devices with cryptographic applications. To counteract such attacks many randomization techniques have been proposed. One efficient technique in elliptic curve cryptosystems randomizes addition chains with binary signed digit (BSD) representations of the secret key. However, when such countermeasures have been used alone, most of them have been broken by various simple power analysis attacks. In this paper, we consider combinations which can enhance the security of countermeasures using BSD representations by adding additional countermeasures. First, we propose several ways the improved countermeasures based on BSD representations can be attacked. In an actual statistical power analysis attack, the number of samples plays an important role. Therefore, we estimate the number of samples needed in the proposed attack.

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KW - Elliptic curve cryptosystems

KW - Side channel attacks

KW - Signal-to-noise ratio (SNR)

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Differential power analysis on countermeasures using binary signed digit representations

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