Design and Analysis of 8-bit ripple Carry Adder using nine Transistor Full Adder

This paper uses a nine-transistor full adder model to design an eight-bit ripple carry adder for less power consumption. The conventional full adder design consists of 28 transistors which constitute high power consumption. Decreasing the transistor count decreases the power consumption in the circu...

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Bibliographic Details
Main Authors: Padmini, G. R., Rajesh, O., Raghu, K., Sree, N. Megha, Apurva, C., saikumar, K
Format: Conference Proceeding
Language:English
Subjects:
Adder
Computer architecture
Conventional CMOS
multiplexer
Power demand
Power dissipation
Ripple carry adder
Semiconductor device modeling
Transistors
Very large scale integration
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Summary:This paper uses a nine-transistor full adder model to design an eight-bit ripple carry adder for less power consumption. The conventional full adder design consists of 28 transistors which constitute high power consumption. Decreasing the transistor count decreases the power consumption in the circuit. A single bit full adder using a nine-transistor is implemented and using this adder, an eight-bit ripple carries adder is designed. A conventional CMOS adder, both single bit and 8-bit ripple carry adder remain also designed to compare the power outputs. Microwind-2.6a and DSCH 2.6 are used to acquire the power outputs of each circuit. To conclude, power comparisons for both single and eight-bit adders using the 9-transistor and conventional CMOS models are made.
ISSN:2575-7288
DOI:10.1109/ICACCS51430.2021.9441928