最大冗余高基数符号加法器:新算法与实现

S. Timarchi, K. Navi, O. Kavehei
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引用次数: 8

摘要

冗余数系统在快速算术电路设计中得到了广泛的应用。符号数字(SD)或高基数SD (HRSD)数字系统是最重要的冗余数字系统之一。HRSD加法作为基本运算在许多算术函数中使用。因此,改进加法特性将提高几乎所有算术模块的性能。文献中介绍了几种HRSD加法器。本文提出了一种新的最大冗余HRSD加法器。将此加法器与以前发布的一些最有效的HRSD加法器进行比较。所提出的加法器采用标准台积电65nm CMOS技术在1伏电源电压下制造。该加法器的功耗比之前发布的最佳HRSD设计低2.5%。这些实现也在Xilinx Virtex2上用FPGA流程进行了合成。实验结果表明,该算法的面积和时延分别降低了5%和6%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maximally Redundant High-Radix Signed-Digit Adder: New Algorithm and Implementation
Redundant Number Systems have been widely used in fast arithmetic circuits design. Signed-Digit (SD) or generally High-Radix SD (HRSD) number system is one of the most important redundant number systems. HRSD additions are used in many arithmetic functions as basic operations. Hence, improving the additions characteristics will improve the performance of almost all arithmetic modules. Several HRSD adders have been introduced in literatures. In this paper a new maximally redundant HRSD adder is proposed. This adder is compared to some most efficient HRSD adders previously published. The proposed adder is fabricated using a standard TSMC 65nm CMOS technology at 1volt supply voltage. The adder consumes 2.5% less power than the best previous published HRSD design. These implementations are also synthesized with FPGA flow on Xilinx Virtex2. The experimental result shows 5% and 6% decreases in the area and delay, respectively.
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