High Throughput/Gate FN-based Hardware Architectures for AES-OTR

被引:0
|
作者
Ueno, Rei [1 ]
Homma, Naofumi [1 ]
Iida, Tomonori [2 ]
Minematsu, Kazuhiko [3 ]
机构
[1] Tohoku Univ, RIEC, Sendai, Miyagi, Japan
[2] YDK CO LTD, Tokyo, Japan
[3] NEC Corp Ltd, Kawasaki, Kanagawa, Japan
来源
2019 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS (ISCAS) | 2019年
关键词
Cryptographic hardware architecture; AES-OTR; Authenticated encryption;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
This paper presents high throughput/gates Feistel network (FN)-based AES-OTR hardware architectures. AES-OTR is an authenticated encryption (AE) scheme as a block cipher mode of operation using AES. While AES-OTR is one of the most theoretically efficient AEs using AES and has superior features, its practical efficiency in hardware is unclear due to no known reports of its hardware implementation. In this paper, we present efficient AES-OTR hardware architectures. In contrast to conventional AE architectures, our architecture forms the 2-round FN of OTR, which makes it easy to integrate the peripheral into hardware for OTR operations. The proposed architectures had 2.4 and 13.5 times higher throughput/gates than the de facto standard AE (i.e., AES-GCM) core on FPGA and ASIC, respectively, through logic syntheses.
引用
收藏
页数:4
相关论文
共 50 条
  • [1] High Throughput/Gate AES Hardware Architectures Based on Datapath Compression
    Ueno, Rei
    Homma, Naofumi
    Morioka, Sumio
    Miura, Noriyuki
    Matsuda, Kohei
    Nagata, Makoto
    Bhasin, Shivam
    Mathieu, Yves
    Graba, Tarik
    Danger, Jean-Luc
    IEEE TRANSACTIONS ON COMPUTERS, 2020, 69 (04) : 534 - 548
  • [2] Low-Area Hardware Implementations of CLOC, SILC and AES-OTR
    Banik, Subhadeep
    Bogdanov, Andrey
    Minematsu, Kazuhiko
    PROCEEDINGS OF THE 2016 IEEE INTERNATIONAL SYMPOSIUM ON HARDWARE ORIENTED SECURITY AND TRUST (HOST), 2016, : 71 - 74
  • [3] Hardware Efficient AES for Image Processing with High Throughput
    Delakoti, Neha
    Gaur, Nidhi
    Mehra, Anu
    2015 1ST INTERNATIONAL CONFERENCE ON NEXT GENERATION COMPUTING TECHNOLOGIES (NGCT), 2015, : 932 - 935
  • [4] Unified Hardware for High-Throughput AES-Based Authenticated Encryptions
    Sawataishi, Shotaro
    Ueno, Rei
    Homma, Naofumi
    IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS, 2020, 67 (09) : 1604 - 1608
  • [5] A High Throughput/Gate AES Hardware Architecture by Compressing Encryption and Decryption Datapaths - Toward Efficient CBC-Mode Implementation
    Ueno, Rei
    Morioka, Sumio
    Homma, Naofumi
    Aoki, Takafumi
    CRYPTOGRAPHIC HARDWARE AND EMBEDDED SYSTEMS - CHES 2016, 2016, 9813 : 538 - 558
  • [6] Efficient and High-Performance Parallel Hardware Architectures for the AES-GCM
    Mozaffari-Kermani, Mehran
    Reyhani-Masoleh, Arash
    IEEE TRANSACTIONS ON COMPUTERS, 2012, 61 (08) : 1165 - 1178
  • [7] High Throughput Hardware Architectures for Asymmetric Numeral Systems Entropy Coding
    Najmabadi, Seyyed Mahdi
    Wang, Zhe
    Baroud, Yousef
    Simon, Sven
    ISPA 2015 9TH INTERNATIONAL SYMPOSIUM ON IMAGE AND SIGNAL PROCESSING AND ANALYSIS, 2015, : 256 - 259
  • [8] Iterative and Fully Pipelined High Throughput Efficient Architectures of AES in FPGA and ASIC
    Sharma, Vijay K.
    Kumar, Saurabh
    Mahapatra, K. K.
    JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS, 2016, 25 (05)
  • [9] The Design of a High-Throughput Hardware Architecture for the AES-GCM Algorithm
    Lin, Ming-Bo
    Chuang, Jen-Hua
    IEEE TRANSACTIONS ON CONSUMER ELECTRONICS, 2024, 70 (01) : 425 - 432
  • [10] Low power high throughput reconfigurable stream cipher hardware VLSI architectures
    Sakthivel, R. (rsakthivel@vit.ac.in), 1600, Inderscience Enterprises Ltd., 29, route de Pre-Bois, Case Postale 856, CH-1215 Geneva 15, CH-1215, Switzerland (06):
12345