id: 37662
Title: The impact of quantum computing on the development of algorithms and software
Authors: Lemesheva N., Antonenko H., Halachev P., Suprun O., Tytarchuk Y.
Keywords: Quantum Computing; Software Engineering; Algorithm Development; Quantum Algorithms.
Date of publication: 2024-11-14 09:43:55
Last changes: 2024-11-14 09:43:55
Year of publication: 2024
Summary: Introduction: there is a great potential that the quantum computing can change the way of algorithms and software development more than classical computers. Thus, this article will try to focus on how algorithm design and software development can be affected by quantum computing as well as what possibilities could appear when quantum principles are implemented into traditional paradigms. This paper aims at identifying the impact of quantum computing on algorithm and software advancement, through a discussion of essential quantum algorithms, quantum languages, as well as the opportunities and challenges of quantum technologies. Method: an extensive literature review and theoretical investigation was also performed to investigate the foundational concepts of quantum computing and subsequent effects on algorithm and software engineering. Some of the research questions included exploring the contrast between classical and quantum algorithms, reviewing current literature on quantum programming languages, and delving into examples of real-life deployments of quantum algorithms cross numerous domains. Results: this paper shows that quantum computing brings qualitatively new paradigms in the algorithm design and function while the quantum algorithms such as Shor’s and Grover’s perform exponentially faster certain problems. Software development for quantum has brought the need to devise new frameworks of coding in light of probability in quantum circuit. It is also comforting to note that there is still effort being made although in its most embryonic form to create quantum programming languages like Qiskit and Cirq. Some of challenges include quantum decoherence; limited number of quantum hardware; and need for strong error correction processes. Conclusion: while there are currently relatively few quantum algorithms it is believed that the findings in this field have the ability to revolutionize algorithm and software design and subjects like cryptography, optimization and AI. However, trends in quantum computing show that the constraints to computational capabilities are likely to be lifted to allow creativity to develop the most powerful software solutions.
URI: http://socrates.vsau.org/repository/getfile.php/37662.pdf
Publication type: Статті Scopus
Publication: Data and Metadata. 2024. Vol. 3, № 242. DOI: https://doi.org/10.56294/dm2024.242
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Published by: Адміністратор
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