Deconstructing Shor’s Algorithm Using Quantum Fourier Transform

Dushyant Kumar; Balwinder Raj; Gurmohan Singh

doi:10.56042/ijpap.v64i4.27189

Authors

Dushyant Kumar Department of Electronics and Communication Engineering, Dr B R Ambedkar National Institute of Technology Jalandhar, Punjab 144 008, India
Balwinder Raj Department of Electronics and Communication Engineering, Dr B R Ambedkar National Institute of Technology Jalandhar, Punjab 144 008, India
Gurmohan Singh Quantum Technologies Lab, Centre for Development of Advanced Computing, Mohali, Punjab 160 071 India

DOI:

https://doi.org/10.56042/ijpap.v64i4.27189

Keywords:

Quantum fourier’s transform, Shor’s algorithm, Cryptography, Superposition

Abstract

Shor's algorithm proved a significant milestone in quantum computing since it promises an exponential speedup over conventional algorithms for integer factorization, a problem critical to modern cryptography systems. This work covers implementation steps of Shor’s algorithm and analyzes Quantum Fourier Transform (QFT) usage for extracting periodicity from quantum superpositions. Firstly, theoretical foundations of algorithm are illustrated concentrating on QFT construction and operation within the setting of the quantum circuit. Thereafter, each implementation step such as qubit optimization, modular exponentiation, and circuit design is discussed. Our findings validate the theoretical effectiveness of the QFT in solving the period-finding subroutine, while also highlighting the practical difficulties and scaling constraints presented by existing quantum hardware. The paper ends with a summary of possible advancements and future paths for error mitigation strategies and quantum algorithm design.

Deconstructing Shor’s Algorithm Using Quantum Fourier Transform

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