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引用次数: 3

摘要

本文首次提出了一种新的混沌映射算法,用于实时嵌入式系统的硬件片上安全。其目的是通过改变原始数据的内容和位置来加密原始程序,以禁止提取安全ip的设计。众所周知,许多强密码得到了广泛的应用,如DES、AES和RSA。但由于加密速度不够快且计算量大,大多数加密算法不能直接用于实时嵌入式系统的加密。因此,本文提出了一种在性能、面积和功耗方面都适合于实时嵌入式系统的基于混沌的快速加密算法。为了说明该算法的有效性,给出了数值模拟。此外,混沌算法采用rtl设计实现。提出的加密每个时钟周期提供64位加密数据。硬件实现结果表明,在低面积下,合成时钟频率为400 MHz,吞吐量为3.2 Gbps。这使得该算法适用于嵌入式系统。RTL实现结果与Matlab仿真结果吻合。该算法具有较强的结构复杂性,使得密钥难以预测,并能抵抗穷举攻击、统计攻击和差分攻击。所有这些特征表明我们提出的算法非常适合用于实时嵌入式系统的硬件片上安全。详尽的密码分析已经完成,我们可以断定系统是安全的。此外,它是一种经济高效的解决方案。
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Real time embedded system IPs protection using chaotic maps
In this paper and for the first time, a novel chaotic maps algorithm is proposed to be used in hardware on-chip security for real-time embedded systems. The aim is to cipher the original program rom by changing the contents and the locations of the original data to ban extracting designs of secure IPs. As we know, many strong ciphers have been applied widely, such as DES, AES and RSA. But most of them cannot be directly used to encrypt real-time embedded systems because their encryption speed is not fast enough and they are computationally intensive. So, in this work we present a fast chaotic-based encryption algorithm which is suitable for real-time embedded systems in terms of performance, area and power efficiency. To illustrate the effectiveness of the proposed algorithm, numerical simulations are presented. Moreover, the proposed chaotic algorithm is implemented using RTL-design. The proposed encryption gives 64 bits of encrypted data per clock cycle. The hardware implementation results give a synthesis clock frequency of 400 MHz and a throughput of 3.2 Gbps while using low area. This makes the proposed algorithm suitable for embedded systems. The RTL implementation results match the Matlab simulation results. The strong structural complexity of our proposed algorithm makes it difficult to predict the key and make it able to resist exhaustive attack, statistical attack and differential attack. All these features show that our proposed algorithm is very suitable for hardware on-chip security for real-time embedded systems. An exhaustive cryptanalysis was completed, allowing us to conclude that the system is secure. Moreover, it is cost-effective solution.
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