Optimized SM4 Hardware Implementations for Low Area Consumption

IF 1.3 4区计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

IET Information Security Pub Date : 2024-06-24 DOI:10.1049/2024/7047055

Ruolin Zhang, Zejun Xiang, Shasha Zhang, Xiangyong Zeng, Min Song

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引用次数: 0

Abstract

The SM4 block cipher is standardized in ISO/IEC, and it is also the national standard of commercial cryptography in China. In this paper, we propose two new techniques called “split-and-join” and “off-peak and stagger” to make SM4 more applicable to resource-constrained environments. The area optimization method uses a 1-bit data path while reducing the number of registers from 64 to 8 and the number of XOR gates from 194 to 8. As a result, we report a 1-bit-serial SM4 encryption circuit that occupies 1771 GE with a latency of 2,336 cycles. Additionally, the “off-peak and stagger” technique compresses all the operations within the state update and key schedule into 32 clock cycles to reduce the latency. In other words, it takes 32 clock cycles to complete one round encryption. The new circuit occupies 1861 GE with a latency of 1,344 cycles. Moreover, we also discuss how to further reduce the latency by increasing the data path with a small area overhead to provide wider area-latency tradeoffs for SM4. Our designs make SM4 competitive with many ciphers specifically designed for lightweight cryptography.

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优化 SM4 硬件实现，实现低面积消耗

SM4 嵌套密码是 ISO/IEC 标准，也是中国商用密码国家标准。本文提出了 "分割-连接 "和 "离峰-交错 "两种新技术，使 SM4 更适用于资源受限的环境。面积优化方法使用 1 位数据路径，同时将寄存器数量从 64 个减少到 8 个，将 XOR 门数量从 194 个减少到 8 个。因此，我们报告的 1 位串行 SM4 加密电路占用 1771 个 GE，延迟时间为 2336 个周期。此外，"离峰和错开 "技术将状态更新和密钥计划内的所有操作压缩到 32 个时钟周期内，以减少延迟。换句话说，完成一轮加密需要 32 个时钟周期。新电路占用 1861 个 GE，延迟时间为 1,344 个周期。此外，我们还讨论了如何通过增加小面积开销的数据路径来进一步降低延迟，从而为 SM4 提供更广泛的面积-延迟权衡。我们的设计使 SM4 能够与许多专为轻量级加密设计的密码相媲美。

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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来源期刊

IET Information Security 工程技术-计算机：理论方法

CiteScore

3.80

自引率

7.10%

发文量

审稿时长

8.6 months

期刊介绍： IET Information Security publishes original research papers in the following areas of information security and cryptography. Submitting authors should specify clearly in their covering statement the area into which their paper falls. Scope: Access Control and Database Security Ad-Hoc Network Aspects Anonymity and E-Voting Authentication Block Ciphers and Hash Functions Blockchain, Bitcoin (Technical aspects only) Broadcast Encryption and Traitor Tracing Combinatorial Aspects Covert Channels and Information Flow Critical Infrastructures Cryptanalysis Dependability Digital Rights Management Digital Signature Schemes Digital Steganography Economic Aspects of Information Security Elliptic Curve Cryptography and Number Theory Embedded Systems Aspects Embedded Systems Security and Forensics Financial Cryptography Firewall Security Formal Methods and Security Verification Human Aspects Information Warfare and Survivability Intrusion Detection Java and XML Security Key Distribution Key Management Malware Multi-Party Computation and Threshold Cryptography Peer-to-peer Security PKIs Public-Key and Hybrid Encryption Quantum Cryptography Risks of using Computers Robust Networks Secret Sharing Secure Electronic Commerce Software Obfuscation Stream Ciphers Trust Models Watermarking and Fingerprinting Special Issues. Current Call for Papers: Security on Mobile and IoT devices - https://digital-library.theiet.org/files/IET_IFS_SMID_CFP.pdf