使用Verilog在Cadence中设计基于8x8 SFQ的乘法器

2021 IEEE International Conference on Mobile Networks and Wireless Communications (ICMNWC) Pub Date : 2021-12-03 DOI:10.1109/ICMNWC52512.2021.9688467

Ravi Hosamani, V. Patil, Rakesh H M, Manu T.M., Chetan Saraf, P. Y G

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引用次数: 2

摘要

对于任何数字信号处理应用，为任何滤波器设计一个有效的乘法器起着至关重要的作用。提出的方法是设计一个高效的8位SFQ乘法器。SFQ电路比半导体电路有更大的优势，即使半导体电路需要制冷系统。运算速度和功耗是SFQ逻辑的两个优点。为了实现这种SFR逻辑，设计了一个高效的进位选择加法器。采用改进的Booth编码器来减少计算量。采用45纳米CMOS工艺的节奏进行了ASIC设计，并对面积、延迟、功耗等参数进行了比较。

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8x8 SFQ based Multiplier design using Verilog in Cadence

For any Digital Signal Processing application, designing an efficient multiplier for any filter plays a vital role. The proposed methodology is to design an efficient 8-Bit SFQ multiplier. SFQ circuits have a larger advantage than semiconductor circuits, even though semiconductor circuits require a refrigeration system. The operation speed and power dissipation are two advantages of the SFQ logic. To implement this SFR logic an efficient carry select adder is designed. Modified Booth Encoder has been used to reduce the computations. The ASIC design procedure followed using cadence for 45nm CMOS technology as well comparison has made with parameters like area, delay, power dissipation.

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2021 IEEE International Conference on Mobile Networks and Wireless Communications (ICMNWC)

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