Evolving Quantum Logic Gate Circuits in Qiskit

Created by W.Langdon from gp-bibliography.bib Revision:1.8010

@InProceedings{newbold:2024:GECCOcomp,

• author = "Thomas Newbold and Alberto Moraglio",
• title = "Evolving Quantum Logic Gate Circuits in Qiskit",
• booktitle = "GECCO Student Workshop",
• year = "2024",
• editor = "Amir H Gandomi",
• pages = "2111--2114",
• address = "Melbourne, Australia",
• series = "GECCO '24",
• month = "14-18 " # jul,
• organisation = "SIGEVO",
• publisher = "Association for Computing Machinery",
• publisher_address = "New York, NY, USA",
• keywords = "genetic algorithms, genetic programming, evolutionary algorithms, quantum logic gates, quantum fourier transform, qiskit",
• isbn13 = "979-8-4007-0495-6",
• DOI = "doi:10.1145/3638530.3664108",
• size = "4 pages",
• abstract = "The emergence of quantum computers represents a crucial leap forward in practical computability, when compared to classical architectures. Harnessing that power effectively is an exercise of increasing importance. Despite research in this field expanding rapidly, little headway has been made towards new quantum algorithms. The complexity of quantum systems makes them conceptually inaccessible to non-experts; therefore, programs are hard to design, hindering advancement. This paper presents a method for genetically encoding and designing arbitrary circuits in Qiskit, a software library developed by IBM for simulating quantum logic gates. The effectiveness of the system is verified by evolving solutions to the Toffoli gate and Quantum Fourier Transform problems.",
• notes = "GECCO-2024 Student Workshop A Recombination of the 33rd International Conference on Genetic Algorithms (ICGA) and the 29th Annual Genetic Programming Conference (GP)",

}

Genetic Programming entries for Thomas Robert Newbold Alberto Moraglio

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