Implementation of Combinational and Sequential Logic Circuits using Quantum Computing
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Published:2023-06-01
Issue:
Volume:
Page:430-439
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ISSN:2456-3307
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Container-title:International Journal of Scientific Research in Computer Science, Engineering and Information Technology
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language:en
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Short-container-title:IJSRCSEIT
Author:
Neha M Harapanhalli 1, Kavipriya M 1, Ishwari Jigajinni 1, Dr. Keerti Kulkarni 2
Affiliation:
1. ECE Department,BNM Institute of Technology, Bangalore, India 2. Associate Professor, ECE Department, BNM Institute of Technology, Bangalore, India
Abstract
Quantum computing is an area of computer science that uses the principles of quantum theory. Quantum computing is a booming field and could lead significant advances in various fields, from chemistry to material science to nuclear physics and machine learning. Quantum computing uses quantum bits as a fundamental building block of computations. The power of quantum bits is their ability to scale exponentially, which makes complex computations faster and efficient. The objective of this paper is to design Flip Flops and combinational logic circuits using quantum computing. Flip Flops and combinational circuits assist in complex computations with reduced delay, and high efficiency when designed using quantum computing. The flip flops and adders can henceforth be used in several applications.
Publisher
Technoscience Academy
Subject
General Earth and Planetary Sciences,General Environmental Science
Reference16 articles.
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