A New Keeper Domino Logic Based Full Adder for High-Speed Arithmetic Circuits

Title:A New Keeper Domino Logic Based Full Adder for High-Speed Arithmetic Circuits

Volume: 13 Issue: 2

Author(s): Deepika Bansal*, Bal Chand Nagar, Brahamdeo Prasad Singh and Ajay Kumar

Affiliation:

• Department of Electronics and Communication Engineering, Manipal University Jaipur, Rajasthan,India

Keywords: Carbon nanotube MOSFET, dynamic logic, keeper circuits, silicon MOSFET, stack effect, transistor.

Abstract:

Objective: A new efficient keeper circuit has been proposed in this article for achieving low leakage power consumption and to improve the power delay product of the dynamic logic using carbon nanotube MOSFET.

Methods: As a benchmark, a one-bit adder has been designed and characterized with both technologies Si-MOSFET and CN-MOSFET using proposed and existing dynamic circuits. Furthermore, a comparison has been made to demonstrate the superiority of CN-MOSFET technology with Synopsys HSPICE tool for multiple bit adders available in the literature.

Results: The simulation results show that the proposed keeper circuit provides lower static and dynamic power consumption up to 57 and 40%, respectively, as compared to the domino circuits using 32nm CN-MOSFET technology provided by Stanford University. Moreover, the proposed keeper configuration provides better performance using Si-MOSFET and CN-MOSFET technologies.

Conclusion: A comparison of the proposed keeper with previously published designs is also given in terms of power consumption, delay and power delay product with the improvement up to 75, 18 and 50%, respectively. The proposed circuit uses only two transistors, so it requires less area and gives high efficiency.

Cite this article as:

Bansal Deepika *, Nagar Chand Bal , Singh Prasad Brahamdeo and Kumar Ajay , A New Keeper Domino Logic Based Full Adder for High-Speed Arithmetic Circuits, Micro and Nanosystems 2021; 13 (2) . https://dx.doi.org/10.2174/1876402912999200723153358