Chiraz Massoud, Anissa Sghaier, M. Zeghid, Mohsen Machhout
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引用次数: 0
摘要
在公钥加密中,最昂贵的算术运算首先是反转,然后是乘法。模反演目前研究不多,有两种著名的算法:费马算法和扩展欧几里得算法。所有的研究都是针对模乘法器的,存在大量的计算方法。本文的目标是提出一种256位乘法器设计,以计算128位安全级别的配对。我们的硬件架构利用FPGA功能(快速携带链和DSP),因此,它在内存和功耗方面的限制较少。这些表现证明了约束环境的局限性。本设计采用VHDL语言编码,并在Virtex 6 FPGA XC6VLX240T器件上使用Xilinx ISE 14.5进行合成。我们的乘法器仅使用1665片和3个DSP,它运行在149.8 MHz时钟频率。
Efficient hardware multiplier design for pairing computation
In Public Key Cryptography, the most costly arithmetic operation is first inversion then multiplication. There aren't big researches concerning modular inversion, it exist two famous algorithms which are Fermat and Extended Euclid algorithms. All researches are oriented to the modular multiplier, it exist a big number of methods to compute it. The goal of our paper is to present a of a 256-bits multiplier design, to compute pairings at security level of 128-bits. Our hardware architecture exploits FPGA features (Fast Carry Chain and DSP), for this reason, it's less constrained in memory and power consumption. These performances prove the limitations of the restrained environment. Our design is coded in VHDL language and synthesized using Xilinx ISE 14.5 on Virtex 6 FPGA XC6VLX240T devices. Our multiplier used only 1665 slices and 3 DSP, it runs at 149.8 MHz clock frequency.
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