Design of Swing Dependent XOR-XNOR Gates based Hybrid Full Adder

This paper presents an effective logical approach low power full adder, which reduces power consumption by implementing full adder using EXOR-EXNOR circuit. The advanced new hybrid FA modules are more efficient in terms of the energy and postponement, these are because of the low yield capability an...

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Bibliographic Details
Main Authors: Malini, P., Balaji, G. Naveen, Boopathiraja, K., Gautami, A., Shanmugavadivu, P., Pandian, S. Chenthur
Format: Conference Proceeding
Language:English
Subjects:
Adders
Communication systems
delay estimation of power
Delays
E-xnor
E-xor
Full swing
Logic circuits
Logic gates
Metals
Non full swing
Transistors
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Summary:This paper presents an effective logical approach low power full adder, which reduces power consumption by implementing full adder using EXOR-EXNOR circuit. The advanced new hybrid FA modules are more efficient in terms of the energy and postponement, these are because of the low yield capability and low power consumption. These proposed circuits are planned dependent on the full-swing EXOR-EXNOR or EXOR/EXNOR gates. Every one of the new designs has their very own preferences regarding speed, energy consumption, delay product, capacity of driving, and soon. To examine the execution of the new structures, broad Tanner simulation tools are utilized. By utilizing the transistor measuring (W/L) technique, the optimization of the PDP gained for every hybrid adder circuit.
ISSN:2575-7288
DOI:10.1109/ICACCS.2019.8728480