Design of a Power Efficient ALU Using Reversible Logic Gates

机译：使用可逆逻辑门的高效ALU设计

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Today's VLSI design technology is moving very quickly into low power, high speed and micro areas of development. Reversible logic has played an important role in this, notably in quantum computing and DNA computing, and presently moving into optical computing also. It is also found that under some ideal conditions it can produce zero power dissipation. A known fact that an arithmetic logic unit (ALU) is one of the core components of a the CPU in a computer. The design of an ALU using different reversible logic gates is proposed. The proposed reversible logic-based ALU is implemented using a Mentor Graphics tool in 130 nm technology for power efficiency. The power dissipation of two proposed ALU designs and a conventional area-based ALU have been compared. The conventional ALU dissipates the power 10% reversible logic-based ALU.

机译：当今的VLSI设计技术正在迅速向低功耗，高速和微型开发领域发展。可逆逻辑在其中发挥了重要作用，特别是在量子计算和DNA计算中，目前也正在向光学计算发展。还发现在某些理想条件下，它可以产生零功耗。算术逻辑单元（ALU）是计算机中CPU的核心组件之一的已知事实。提出了使用不同可逆逻辑门的ALU设计。拟议的基于可逆逻辑的ALU使用Mentor Graphics工具以130 nm技术实现，以提高功率效率。比较了两种建议的ALU设计和传统的基于面积的ALU的功耗。常规ALU耗散功率为10％的基于可逆逻辑的ALU。

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来源
《Proceedings of the international conference on communications and cyber physical engineering 2018》|2018年|469-479|共11页
会议地点 Hyderabad(IN)
作者
B. Abdul Rahim; B. Dhananjaya; S. Fahimuddin; N. Bala Dastagiri;
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作者单位

Department of Electronics and Communication Engineering, Annamacharya Institute of Technology and Sciences, Rajampet, A.P., India;

Department of Electronics and Communication Engineering, Bheema Institute of Technology and Sciences, Adoni, A.P., India;

Department of Electronics and Communication Engineering, Annamacharya Institute of Technology and Sciences, Rajampet, A.P., India;

Department of Electronics and Communication Engineering, Annamacharya Institute of Technology and Sciences, Rajampet, A.P., India;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Quantum computing; Arithmetic logic unit; CMOS 130 nm technology;

机译：量子计算；算术逻辑单元； CMOS 130 nm技术;

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专利

1. Toward Efficient Design of Reversible Logic Gates in Quantum-Dot Cellular Automata with Power Dissipation Analysis [J] . Sasamal Trailokya Nath, Singh Ashutosh Kumar, Ghanekar Umesh International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics . 2018,第4期

机译：功耗分析Quantum-Dot蜂窝自动机中可逆逻辑门的高效设计
2. Power efficient optimum design of the Reversible Plessey Logic Block of a field-programmable gate array [J] . Nazma Tara, Hafiz Md. Hasan Babu, Lafifa Jamal Sustainable Computing . 2017,第deca期

机译：现场可编程门阵列的可逆Plessey逻辑模块的节能优化设计
3. Efficient Design of Reversible Logic ALU Using Coplanar Quantum-Dot Cellular Automata [J] . Sasamal Trailokya Nath, Mohan Anand, Singh Ashutosh Kumar Journal of circuits, systems and computers . 2018,第2期

机译：使用共面量子点元胞自动机的可逆逻辑ALU的高效设计
4. Design of a Power Efficient ALU Using Reversible Logic Gates [C] . B. Abdul Rahim, B. Dhananjaya, S. Fahimuddin, International communications conference . 2019

机译：使用可逆逻辑门设计功率高效ALU
5. Design, analysis, and synthesis of 16 bit arithmetic logic unit using reversible logic gate. [D] . Midde, Bharath Reddy. 2016

机译：使用可逆逻辑门设计，分析和综合16位算术逻辑单元。
6. A novel reversible logic gate and its systematic approach to implement cost-efficient arithmetic logic circuits using QCA [O] . Peer Zahoor Ahmad, S.M.K. Quadri, Firdous Ahmad, 2017

机译：一种使用QCA实现具有成本效益的算术逻辑电路的新型可逆逻辑门及其系统方法
7. Efficient Reversible ALU based on Logic Gate Structure [O] . Aanchal Shukla, Minal Saxena 2016

机译：基于逻辑栅极结构的高效可逆ALU

Design of a Power Efficient ALU Using Reversible Logic Gates

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