基于90纳米门级特性的恶意组合硬件木马检测

Fifth International Conference on Computing, Communications and Networking Technologies (ICCCNT) Pub Date : 2014-07-11 DOI:10.1109/ICCCNT.2014.6963036

Dinesh Kumar Karunakaran, N. Mohankumar

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引用次数: 32

摘要

半导体行业集成电路(IC)的全球化使得它们很容易受到故意改变设计的影响。这些对设计的故意改变被称为硬件木马(Hardware trojan, HT)。由于许多设计都是外包制造的，因此有很多机会改变其功能。检测这些木马非常重要，因为它可能会引起对硬件信任的严重关注，特别是在军事和安全应用领域。本文考虑利用栅极电平特性(GLC)检测组合木马，并基于侧通道参数的测量，特别是泄漏功率。对每个输入矢量计算整个电路的漏功率。得到的测量值用线性规划(LP)中的线性方程表示，并用LP求解器求解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Malicious combinational Hardware Trojan detection by Gate Level Characterization in 90nm technology

Globalization of Integrated Circuits (IC's) in semiconductor industries has made them vulnerable to intentional alterations of the design. These intentional alterations to a design are called Hardware Trojans (HT's). Since many of the designs are outsourced for its fabrication, there is a lot of chance for altering its functionality. It is very important to detect these Trojans as it may raise serious concern about hardware trust, especially in the field of military and security applications. This paper considers the detection of combinational trojans using Gate Level Characterization (GLC) and is based on the measurement of side-channel parameters, especially leakage power. The leakage power for an entire circuit is being calculated for each input vector. The obtained measurements are formulated as linear equations in Linear Programming (LP) and are solved using LP solver.

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Fifth International Conference on Computing, Communications and Networking Technologies (ICCCNT)

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