High-performance and high-speed implementation of polynomial basis Itoh-Tsujii inversion algorithm over GF(2 m )

Bahram Rashidi, R. R. Farashahi, S. Sayedi
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引用次数: 23

Abstract

In this study high-performance and high-speed field-programmable gate array (FPGA) implementations of polynomial basis Itoh–Tsujii inversion algorithm (ITA) over GF(2 m ) constructed by irreducible trinomials and pentanomials are presented. The proposed structures are designed by one field multiplier and k -times squarer blocks or exponentiation by 2 k , where k is a small positive integer. The k -times squarer blocks have an efficient tree structure with low critical path delay, and the multiplier is based on a proposed high-speed digit-serial architecture with minimum hardware resources. Furthermore, to reduce the computation time of ITA, the critical path of the circuit is broken to finer path using several registers. The computation times of the structure on Virtex-4 FPGA family are 0.262, 0.192 and 0.271 µs for GF(2163), GF(2193) and GF(2233), respectively. The comparison results with other implementations of the polynomial basis Itoh–Tsujii inversion algorithm verify the improvement in the proposed architecture in terms of speed and performance.
GF(2m)上多项式基Itoh-Tsujii反演算法的高性能高速实现
本文提出了一种基于不可约三项式和五反常构造的GF(2 m)上的多项式基Itoh-Tsujii反演算法(ITA)的高性能、高速现场可编程门阵列(FPGA)实现。所提出的结构由一个场乘法器和k倍平方块或2 k的幂设计,其中k是一个小正整数。k倍方块具有有效的树形结构,具有较低的关键路径延迟,乘法器基于所提出的高速数字串行架构,硬件资源最少。此外,为了减少ITA的计算时间,使用多个寄存器将电路的关键路径分割成更细的路径。该结构在Virtex-4 FPGA家族上对GF(2163)、GF(2193)和GF(2233)的计算时间分别为0.262、0.192和0.271µs。与多项式基Itoh-Tsujii反演算法的其他实现的比较结果验证了该架构在速度和性能方面的改进。
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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