ENHANCING QUANTUM ERROR CORRECTION: OPTIMIZING  NOISE REDUCTION TECHNIQUES FOR RELIABLE QUANTUM  COMPUTATION

Ms. Priya D. Milke; Ms.Riya V. Shende; Ms.Rewati G. Patil; Kirti R. Kakad; Mr.Karan S. Dhanbhar; Mr.Siddhant V. Dongare; Mr.Prathamesh G. Pawar; Mr.Amit Wankhede

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Published: Aug 14, 2024

Keywords:

Open-Source Quantum Research., Deep Learning for Quantum Computing, Quantum Computing

Ms. Priya D. Milke

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Ms.Riya V. Shende

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Ms.Rewati G. Patil

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Kirti R. Kakad

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Mr.Karan S. Dhanbhar

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Mr.Siddhant V. Dongare

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Mr.Prathamesh G. Pawar

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Mr.Amit Wankhede

Undergraduate Student, Dr. Rajendra Gode Institute of Technology & Research, Amravati (Maharashtra), India

Abstract

Quantum computing holds the potential to revolutionize computation by solving complex problems that classical
computers cannot. However, quantum systems are highly susceptible to errors due to noise and decoherence. In this paper, we
propose a novel hybrid AI-Quantum approach for Quantum Error Correction (QEC) to optimize noise reduction techniques.
By leveraging deep learning and reinforcement learning, we develop a method to predict and correct quantum noise in real time.
Our experiments, conducted on IBM Qiskit simulators and actual quantum processors, demonstrate a significant reduction in
quantum gate errors compared to traditional QEC codes. Our method achieves improved fault tolerance with reduced qubit
overhead, paving the way for scalable and reliable quantum computation. Furthermore, we make our research publicly available
with open-source Python code and an interactive Jupyter notebook, enabling others to replicate and extend our work.

How to Cite

Milke, M. P. D., Shende, M. V., Patil, M. G., Kakad, K. R., Dhanbhar, M. S., Dongare, M. V., … Wankhede, M. (2024). ENHANCING QUANTUM ERROR CORRECTION: OPTIMIZING NOISE REDUCTION TECHNIQUES FOR RELIABLE QUANTUM COMPUTATION . International Journal of Advanced Scientific Research and Engineering Trends, 8(11), 40–41. Retrieved from https://journals.mriindia.com/index.php/ijasret/article/view/2286

Issue

Vol. 8 No. 11 (2024): Volume 8 Issue 11 2024

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