采用可逆门的高速高效倍增器设计

2018 International Conference on Computer Communication and Informatics (ICCCI) Pub Date : 1900-01-01 DOI:10.1109/ICCCI.2018.8441326

N. Radha, M. Maheswari

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引用次数: 9

摘要

现在-$ $ $天，可逆逻辑引起了IC设计者的极大兴趣，因为它消耗更少的功率。可逆逻辑已经在数字信号处理、DNA和量子计算以及高速VLSI设计等应用中被发现。可逆逻辑的实现包含若干个可逆逻辑门。在本工作中，利用HNG栅极设计了一个乘法器。提出了一种基于verilog编码的高效高速乘法器，并采用Cadence 180 nm技术实现。与现有的乘法器相比，所提出的乘法器功耗更低，量子成本相对更低。因此，所提出的乘法器在不牺牲速度的情况下降低了功耗。

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High Speed Efficient Multiplier Design using Reversible Gates

Now-$a$-days, reversible logic is getting huge interest among the IC designer because it consumes less power. Reversible logic has been found in applications like Digital signal processing, DNA and quantum computing and high speed VLSI design. The implementation of reversible logic contains number of reversible logic gates. In this work, a multiplier is designed using HNG gate. An efficient high speed multiplier has been proposed using verilog coding and Cadence 180 nm technology is used for its implementation. Compared to the existing multiplier, the proposed multiplier consumes less power and comparatively less quantum cost. Hence, the proposed multiplier results in less power consumption without sacrificing the speed.

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2018 International Conference on Computer Communication and Informatics (ICCCI)

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