一种基于随机延迟插入的抗sca处理器结构

2015 International Conference on Computing and Communications Technologies (ICCCT) Pub Date : 2015-02-01 DOI:10.1109/ICCCT2.2015.7292760

Zhangqing He, B. Yang, X. Deng, Kui Dai, X. Zou

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引用次数: 6

摘要

随机延迟插入是对抗侧信道攻击的一种简单有效的方法，但现有方法的防护效果并不理想。本文提出了一种基于随机延迟插入的有效的抗侧信道攻击的处理器结构。它结合了随机调度、随机指令插入和随机管道延迟来抵御侧信道攻击。在ARM7处理器的基础上，我们实现了该架构，实现结果表明，该处理器的硬件面积比原来的ARM7处理器增加了约24.3%。CPA攻击实验结果表明，新型安全处理器具有较高的抗侧信道攻击能力，可用于USBKEY、智能卡等对安全等级要求极高的应用场景。

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A SCA-resistant processor architecture based on random delay insertion

Random delay insertion is a simple and efficient approach to counter side-channel attacks, but previous methods do not have the ideal protective effect. In this article, based on random delay insertion, an effective processor architecture resistant to side-channel attacks was proposed. It used a combination of randomized scheduling, randomized instruction insertion and randomized pipeline-delay to resist side-channel attacks. On the base of ARM7 processor, we implemented this architecture and the implementation results showed that this processor has increased approximate 24.3% in hardware area than the original ARM7 processor. The CPA attack experiment results suggested that our new secure processor have high capacity to resist side-channel attacks and thus could be used in USBKEY, Smart CARD and other application scenarios which require extremely high security level.

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来源期刊

2015 International Conference on Computing and Communications Technologies (ICCCT)

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