Loop parallelization and pipelining implementation of AES algorithm using OpenMP and FPGA

2013 IEEE International Conference ON Emerging Trends in Computing, Communication and Nanotechnology (ICECCN) Pub Date : 2013-03-25 DOI:10.1109/ICE-CCN.2013.6528547

J. Banu, M. Vanitha, J. Vaideeswaran, S. Subha

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引用次数: 14

Abstract

AES (Advanced Encryption Standard) is an effective encryption algorithm in applications like Internet to provide cyber security and also in smart cards. Multi-core and Field-Programmable Gate Arrays (FPGAs) are the promising solution for the performance up gradation. The main focus of this paper is to increase the throughput of the AES algorithm through hardware and software techniques. Various approaches for efficient hardware implementation of the AES algorithm is based on architectural optimization techniques like pipelining, loop unrolling and iterative design. Here we have adopted pipelining technique to increase the speed of the algorithm by processing multiple rounds simultaneously. Software parallelization techniques with OpenMP standard is used to increase the speedup of the algorithm compared to its sequential version. A pipelined architecture AES-128 core is implemented using Xilinx xc5vlx110t-1 device can achieve a throughput of 31.25Gbps which is more effective than previous ASIC implementations. By implementing the AES algorithm using OpenMP we achieve speed up of 1.08 in the dual core processor.

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利用OpenMP和FPGA实现AES算法的循环并行化和流水线化

AES (Advanced Encryption Standard，高级加密标准)是一种有效的加密算法，在互联网和智能卡等应用中提供网络安全。多核和现场可编程门阵列(fpga)是性能提升的有前途的解决方案。本文的研究重点是通过硬件和软件技术来提高AES算法的吞吐量。AES算法的有效硬件实现的各种方法都是基于架构优化技术，如流水线、循环展开和迭代设计。这里我们采用流水线技术，通过同时处理多轮来提高算法的速度。采用OpenMP标准的软件并行化技术，提高了算法相对于顺序版本的加速速度。采用Xilinx xc5vlx110t-1器件实现的流水线架构AES-128内核可实现31.25Gbps的吞吐量，比以前的ASIC实现更有效。通过使用OpenMP实现AES算法，我们在双核处理器上实现了1.08的速度提升。

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

2013 IEEE International Conference ON Emerging Trends in Computing, Communication and Nanotechnology (ICECCN)

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