Lightweight and flexible hardware implementation of authenticated encryption algorithm SIMON‐Galois/Counter Mode

Summary This brief proposes a new lightweight authenticated encryption algorithm SIMON‐GCM for Internet of Things (IoT) security, which realizes the combination of SIMON block cipher and Galois/Counter Mode (GCM). The designed SIMON circuit supports 128/192/256‐bit key size, which improves the flexi...

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Vydáno v:International journal of circuit theory and applications Ročník 51; číslo 12; s. 5951 - 5961
Hlavní autoři: Cheng, Xin, Xu, Yixuan, Wang, Kefan, Zhang, Yongqiang, Li, Bin, Zhang, Zhang
Médium: Journal Article
Jazyk:angličtina
Vydáno: Bognor Regis Wiley Subscription Services, Inc 01.12.2023
Témata:
Algorithms
authenticated encryption
Authentication
Circuit design
Encryption
Field programmable gate arrays
Finite state machines
Flexibility
Galois/Counter Mode
GHASH function
Hardware
Internet of Things
Lightweight
SIMON block cipher
ISSN:0098-9886, 1097-007X
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Shrnutí:Summary This brief proposes a new lightweight authenticated encryption algorithm SIMON‐GCM for Internet of Things (IoT) security, which realizes the combination of SIMON block cipher and Galois/Counter Mode (GCM). The designed SIMON circuit supports 128/192/256‐bit key size, which improves the flexibility and enlarges the range of applications. Moreover, the scheme of 32‐cycle Galois field (GF) multiplier in GF(2128) is adopted to effectively reduce the hardware cost of the Galois Hash (GHASH) function in GCM. At the same time, a finite state machine (FSM) is used to run the SIMON and GHASH modules in parallel, thus shortening the authenticated encryption time. The whole circuit is designed and implemented in field programmable gate array (FPGA) platforms. It is measured to yield a throughput of 32.4 Gbps when consuming 331 slices in Artix‐7. Compared with the existing authenticated encryption algorithms, the proposed algorithm achieves lower resource consumption and better flexibility. This paper proposes a new lightweight authenticated encryption algorithm SIMON‐GCM, which realizes the combination of SIMON block cipher and Galois/Counter Mode (GCM). The designed SIMON circuit supports multi‐key size with flexibility, the scheme of 32‐cycle Galois field (GF) multiplier in GF(2128) is adopted to reduce the hardware cost, and a finite state machine (FSM) is used to run the SIMON and GHASH modules in parallel to shorten the authenticated encryption time.
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ISSN:0098-9886
1097-007X
DOI:10.1002/cta.3724