Low-power and high-performance 1-bit CMOS full-adder cell

Navi, Keivan; Kavehei, Omid; Ruholamini, Mahnoush; Sahafi, Amir; Mehrabi, Shima; Dadkhahi, Nooshin

Low-power and high-performance 1-bit CMOS full-adder cell

journal contribution

posted on 2024-11-01, 15:47 authored by Keivan Navi, Omid Kavehei, Mahnoush Ruholamini, Amir Sahafi, Shima Mehrabi, Nooshin Dadkhahi

In this paper a new low power and high performance adder cell using a new design style called "Bridge" is proposed. The bridge design style enjoys a high degree of regularity, higher density than conventional CMOS design style as well as lower power consumption, by using some transistors, named bridge transistors. Simulation results illustrate the superiority of the resulting proposed adder against conventional CMOS 1-bit full-adder in terms of power, delay and PDP. We have performed simulations using HSPICE in a 90 nanometer (nm) standard CMOS technology at room temperature; with supply voltage variation from 0.65v to 1.5v with 0.05v steps.

History

Journal

Journal of Computers

Volume

3

Issue

2

Start page

48

End page

54

Total pages

7

Publisher

Academy Publisher

Place published

Finland

Language

English

Copyright

Former Identifier

2006048160

Esploro creation date

2020-06-22

Fedora creation date

2015-01-16

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Keywords

Bridge style CMOS Circuit Full adder VLSI

Low-power and high-performance 1-bit CMOS full-adder cell

History

Journal

Volume

Issue

Start page

End page

Total pages

Publisher

Place published

Language

Copyright

Former Identifier

Esploro creation date

Fedora creation date

Usage metrics

Categories

Keywords

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