A novel approach to design a redundant binary signed digit adder cell using reversible logic gates

机译：一种使用可逆逻辑门设计冗余二进制有符号数字加法器单元的新颖方法

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Redundant Binary Signed Digit (RBSD) number system motivates the researchers to design high speed processing devices. RBSD adders can perform fast addition of two numbers due to the phenomenon of the absence of carry calculation and manipulation requirement. This paper presents a novel approach to design RBSD adder cell using some basic reversible logic gates such as feynman, BJN and peres gate. This adder cell design can be considered as an initial work for the low loss as well as high speed digital systems. Moreover, there is scope of further optimization of various performance parameters to enhance the efficiency of the designed adder circuit. This proposed designed is simulated using Modelsim tool and synthesised for Xilinx Spartan 3E with Device XC3S500E with 200 MHz frequency.

机译：冗余二进制签名数字（RBSD）编号系统促使研究人员设计高速处理设备。由于没有进位计算和操作要求的现象，RBSD加法器可以执行两个数的快速加法。本文提出了一种使用诸如feynman，BJN和peres门之类的基本可逆逻辑门设计RBSD加法器单元的新颖方法。这种加法器单元设计可以被视为低损耗以及高速数字系统的初始工作。此外，还有各种性能参数的进一步优化的范围，以提高设计的加法器电路的效率。该拟议的设计使用Modelsim工具进行了仿真，并针对Xilinx Spartan 3E和设备XC3S500E（频率为200 MHz）进行了综合。

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来源
《2015 IEEE UP Section Conference on Electrical Computer and Electronics》|2015年|1-6|共6页
会议地点 Allahabad(IN)
作者
Vandana Shukla; O. P. Singh; G. R. Mishra; R. K. Tiwari;
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作者单位

Amity School of Engineering Technology, Amity University Uttar Pradesh, Lucknow Campus, India;

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原文格式 PDF
正文语种 eng
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关键词
Fast Adder; Low loss high-speed Adder; RBSD adder; Reversible Circuit Design; Reversible Logic Gates;

机译：快速加法器;低损耗高速加法器; RBSD加法器;可逆电路设计;可逆逻辑门;

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专利

1. Frame of Reversible BCD Adder and Carry Skip BCD Adder and Optimization Using New Reversible Logic Gates for Quantum-Dot Cellular Automata [J] . Neeraj Kumar Misra, Subodh Wairya, V.K. Singh Australian Journal of Basic and Applied Sciences . 2015,第2015期

机译：可逆BCD加法器和跳过BCD加法器的框架以及使用新型可逆逻辑门的量子点元胞自动机的优化
2. Design of Prefix Adder Amalgamation Reversible Logic Gates using 16 Bit Kogge Stone Adder [J] . P. Michael Preetam Raj, Bhaskaruni Sandeep, D. Sai Mallik Reddy, Indian Journal of Science and Technology . 2016,第13期

机译：使用16位Kogge Stone加法器的前缀加法器合并可逆逻辑门的设计。
3. Design of Prefix Adder Amalgamation Reversible Logic Gates using 16 Bit Kogge Stone Adder [J] . P. Michael Preetam Raj, Bhaskaruni Sandeep, D. Sai Mallik Reddy, Indian Journal of Science and Technology . 2016,第13期

机译：使用16位Kogge Stone加法器的前缀加法器合并可逆逻辑门的设计。
4. A novel approach to design a redundant binary signed digit adder cell using reversible logic gates [C] . Vandana Shukla, O. P. Singh, G. R. Mishra, IEEE UP Section Conference on Electrical Computer and Electronics . 2015

机译：一种使用可逆逻辑门设计冗余二进制签名数字加法器单元的新方法
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. Design of optimal carry skip adder and carry skip BCD adder using reversible logic gates [O] . Praveena Murugesan 2014

机译：使用可逆逻辑门设计最佳进位跳过加法器和进位跳过BCD加法器

A novel approach to design a redundant binary signed digit adder cell using reversible logic gates

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