Design of Low Power Counters Using Reversible Logic

Asima Jamal; Jai Prakash Prasad

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Design of Low Power Counters Using Reversible Logic

机译：利用可逆逻辑设计低功耗计数器

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In today’s world, the complexity of the chip is increasing as more and more devices are being connected on a single chip. Due to the high density of the chip, the power dissipation increases demanding better power optimization methods. One of the methods to achieve power optimization is by using reversible logic. It can be used in low power CMOS designs, quantum computing, nanotechnology and optical computing. This paper presents an optimized sixteen-bit binary sequential counter based on reversible logic using Feynman, and Fredkin gates. Optimization of the sequential circuit is achieved on the basis of total number of gates used in the circuit and total number of garbage outputs generated. Circuits have been designed using Cadence Virtuoso Schematic Editor.

机译：在当今世界，随着越来越多的设备连接在单个芯片上，芯片的复杂性也在增加。由于芯片的高密度，功耗增加，需要更好的功耗优化方法。实现功率优化的方法之一是使用可逆逻辑。它可以用于低功耗CMOS设计，量子计算，纳米技术和光学计算。本文介绍了一种基于可逆逻辑的优化16位二进制顺序计数器，该逻辑使用了Feynman和Fredkin门。时序电路的优化是基于电路中使用的门总数和生成的垃圾输出总数实现的。已使用Cadence Virtuoso原理图编辑器设计了电路。

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《International Journal of Innovative Research in Science, Engineering and Technology 》 |2014年第5期| 共8页
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Asima Jamal; Jai Prakash Prasad;
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1. Low Voltage and Low Power Divide-By-2/3 Counter Design Using Pass Transistor Logic Circuit Technique [J] . Hwang Y.-T., Lin J.-F. Very Large Scale Integration (VLSI) Systems, IEEE Transactions on . 2012 ,第9期

机译：采用传输晶体管逻辑电路技术的低压低功耗按2/3分频计数器设计
2. Design of low power 16-bit counter with Programmable Combinational Logic and Integrated Clock Gating using 16-nm technology [J] . Mohamed Sulaiman S., Jaison B., Anto Bennet M. International journal of electronics . 2021 ,第1a3期

机译：使用16-NM技术与可编程组合逻辑和集成时钟门控的低功率16位计数器的设计
3. Design of up/down counter based on dual mode logic and Low power Hybrid dual mode dynamic flip-flop [J] . Sandhya Venugopal, Sunil Jacob, Praveena.S.Kammath American Journal of Engineering Research . 2014 ,第9期

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5. Design, analysis, and synthesis of 16 bit arithmetic logic unit using reversible logic gate. [D] . Midde, Bharath Reddy. 2016

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6. Average output polarization dataset for signifying the temperature influence for QCA designed reversible logic circuits [O] . Md. Abdullah-Al-Shafi, Ali Newaz Bahar, Mohammad Maksudur Rahman Bhuiyan, 2018

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7. Design and analysis of High-Speed Low-Power Vedic Multiplier with 3-1-1-2 compressor Using Reversible Logic gates [O] . S Ms.Dharani, Mr.Abin Satheesan, M A Asuvanti, 2021

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Design of Low Power Counters Using Reversible Logic

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