Six shades lighter: a bit-serial implementation of the AES family.

IF 1.5 4区 计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS
Journal of Cryptographic Engineering Pub Date : 2021-01-01 Epub Date: 2021-06-01 DOI:10.1007/s13389-021-00265-8
Sergio Roldán Lombardía, Fatih Balli, Subhadeep Banik
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引用次数: 1

Abstract

Recently, cryptographic literature has seen new block cipher designs such as PRESENT, GIFT or SKINNY that aim to be more lightweight than the current standard, i.e., AES. Even though AES family of block ciphers were designed two decades ago, they still remain as the de facto encryption standard, with AES-128 being the most widely deployed variant. In this work, we revisit the combined one-in-all implementation of the AES family, namely both encryption and decryption of each AES-128/192/256 as a single ASIC circuit. A preliminary version appeared in Africacrypt 2019 by Balli and Banik, where the authors design a byte-serial circuit with such functionality. We improve on their work by reducing the size of the compact circuit to 2268 GE through 1-bit-serial implementation, which achieves 38% reduction in area. We also report stand-alone bit-serial versions of the circuit, targeting only a subset of modes and versions, e.g., AES-192 and AES-256. Our results imply that, in terms of area, AES-192 and AES-256 can easily compete with the larger members of recently designed SKINNY family, e.g., SKINNY-128-256, SKINNY-128-384. Thus, our implementations can be used interchangeably inside authenticated encryption candidates such as SKINNY-AEAD/-HASH, ForkAE or Romulus in place of SKINNY.

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轻六色:AES系列的位串行实现。
最近,密码学文献中出现了新的分组密码设计,如PRESENT、GIFT或SKINNY,它们的目标是比当前的标准(即AES)更轻量级。尽管AES组密码家族是在20年前设计的,但它们仍然是事实上的加密标准,其中AES-128是部署最广泛的变体。在这项工作中,我们重新审视AES家族的一体化实现,即每个AES-128/192/256的加密和解密都作为单个ASIC电路。bali和Banik在Africacrypt 2019上发表了一个初步版本,其中作者设计了一个具有这种功能的字节串行电路。我们通过1位串行实现将紧凑电路的尺寸减小到2268 GE,从而实现了38%的面积减少,从而改进了他们的工作。我们还报告了该电路的独立位串行版本,仅针对模式和版本的子集,例如AES-192和AES-256。我们的结果表明,就面积而言,AES-192和AES-256可以轻松地与最近设计的SKINNY家族中较大的成员(例如SKINNY-128-256, SKINNY-128-384)竞争。因此,我们的实现可以在经过身份验证的加密候选中互换使用,例如代替SKINNY的SKINNY- aead /-HASH、ForkAE或Romulus。
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来源期刊
Journal of Cryptographic Engineering
Journal of Cryptographic Engineering COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
4.70
自引率
0.00%
发文量
26
期刊介绍: The Journal of Cryptographic Engineering (JCEN) presents high-quality scientific research on architectures, algorithms, techniques, tools, implementations and applications in cryptographic engineering, including cryptographic hardware, cryptographic embedded systems, side-channel attacks and countermeasures, and embedded security. JCEN serves the academic and corporate R&D community interested in cryptographic hardware and embedded security.JCEN publishes essential research on broad and varied topics including:Public-key cryptography, secret-key cryptography and post-quantum cryptographyCryptographic implementations include cryptographic processors, physical unclonable functions, true and deterministic random number generators, efficient software and hardware architecturesAttacks on implementations and their countermeasures, such as side-channel attacks, fault attacks, hardware tampering and reverse engineering techniquesSecurity evaluation of real-world cryptographic systems, formal methods and verification tools for secure embedded design that offer provable security, and metrics for measuring securityApplications of state-of-the-art cryptography, such as IoTs, RFIDs, IP protection, cyber-physical systems composed of analog and digital components, automotive security and trusted computing
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