一种新的用于AES加密算法的流水线线程架构

Proceedings IEEE International Conference on Application- Specific Systems, Architectures, and Processors Pub Date : 2002-07-17 DOI:10.1109/ASAP.2002.1030728

Mehboob Alam, Wael Badawy, G. Jullien

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引用次数: 24

摘要

提出了一种高级加密标准(AES)的单芯片并行架构。所提出的架构使用线程方法，它集成了完全流水线的并行单元，每周期处理128位，数据吞吐量提高了四倍。线程架构允许将时钟速率降低四分之一，同时保持数据吞吐量，并且消耗更少的功率。该原型在Xilinx xc2V1500 Virtex-II FPGA上以7.68 Gbps的数据速率运行。数据速率表明，所提出的线程方法产生了目前可用的最快的单芯片FPGA实现之一。此外，所提出的架构可扩展到192、256和更高位。

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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A novel pipelined threads architecture for AES encryption algorithm

This paper presents a single-chip parallel architecture for advanced encryption standard (AES). The proposed architecture uses the thread approach, which integrates fully pipelined parallel units, that process 128 bits/cycle and quadruples the data throughput. The threads architecture allows a reduction of the clock rate by a factor of four, while maintaining the data throughput, and consumes less power. The prototype runs at a data rate of 7.68 Gbps on a Xilinx xc2V1500 Virtex-II FPGA. The data rate shows that the proposed thread approach produces one of the fastest single-chip FPGA implementations currently available. In addition, the proposed architecture is scalable to 192, 256 and higher bits.

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