具有统一ENC/DEC路径的分组密码的有效配置

2017 IEEE International Symposium on Hardware Oriented Security and Trust (HOST) Pub Date : 2017-05-01 DOI:10.1109/HST.2017.7951795

S. Banik, A. Bogdanov, F. Regazzoni

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引用次数: 4

摘要

块密码需要提供加密和解密的组合功能，才能在CBC和ELmD等操作模式下运行。因此，这样的体系结构构成了安全加密实现的关键构建块。根据给定密码的代数结构，可能有多种构建组合加密/解密电路的方法，每种方法都旨在优化轻量级设计指标，如面积或功率等。在本文中，我们将研究电路配置的选择如何影响执行一次加密/解密所需的能量。我们首先分析了高级加密标准(AES-128)密码的12种电路配置，并建立了一些节能的设计规则。然后，我们将分析扩展到几个轻量级分组密码。在论文的第二部分，我们还研究了这些密码组合实现的区域优化电路。

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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Efficient configurations for block ciphers with unified ENC/DEC paths

Block Ciphers providing the combined functionalities of encryption and decryption are required to operate in modes of operation like CBC and ELmD. Hence such architectures form critical building blocks for secure cryptographic implementations. Depending on the algebraic structure of a given cipher, there may be multiple ways of constructing the combined encryption/decryption circuit, each targeted at optimizing lightweight design metrics like area or power etc. In this paper we look at how the choice of circuit configuration affects the energy required to perform one encryption/decryption. We begin by analyzing 12 circuit configurations for the Advanced Encryption Standard (AES-128) cipher and establish some design rules for energy efficiency. We then extend our analysis to several lightweight block ciphers. In the second part of the paper we also investigate area optimized circuits for combined implementations of these ciphers.

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来源期刊

2017 IEEE International Symposium on Hardware Oriented Security and Trust (HOST)

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