Visible to the public SIMULATION OF QUANTUM ENCODER DECODER WITH FLIP BIT ERROR CORRECTION USING REVERSIBLE QUANTUM GATES

Submitted by grigby1 on Tue, 10/08/2019 - 4:42pm
TitleSIMULATION OF QUANTUM ENCODER DECODER WITH FLIP BIT ERROR CORRECTION USING REVERSIBLE QUANTUM GATES
Publication TypeConference Paper
Year of Publication2018
AuthorsAnitha, R., Vijayalakshmi, B.
Conference Name2018 International Conference on Recent Trends in Electrical, Control and Communication (RTECC)
ISBN Number978-1-5386-4310-5
Keywordscomposability, computation process, Computational modeling, Decoding, error correction, error correction codes, fault-tolerant quantum computation, faulty quantum gates, flip bit error correction, Integrated circuit modeling, logic circuits, Logic gates, Metrics, pubcrawl, QCAD, QEC, Quantum circuit, quantum computing, quantum computing security, quantum cryptography, quantum encoder & decoder, Quantum error correction, quantum gates, quantum information, quantum noise, Quantum technology, resilience, Resiliency, reversible quantum gates, Scalability, security
Abstract

Quantum technology is a new field of physics and engineering. In emerging areas like Quantum Cryptography, Quantum Computing etc, Quantum circuits play a key role. Quantum circuit is a model for Quantum computation, the computation process of Quantum gates are based on reversible logic. Encoder and Decoder are designed using Quantum gates, and synthesized in the QCAD simulator. Quantum error correction (QEC) is essential to protect quantum information from errors due to quantum noise and decoherence. It is also use to achieve fault-tolerant quantum computation that deals with noise on stored information, faulty quantum gates and faulty measurements.
URLhttps://ieeexplore.ieee.org/document/8625693
DOI10.1109/RTECC.2018.8625693
Citation Keyanitha_simulation_2018
Groups: