QCSHQD: Quantum Computing as a Service for Hybrid Classical-Quantum Software Development: A Vision
Sabzevari, Maryam Tavassoli; Esposito, Matteo; Taibi, Davide; Khan, Arif Ali (2024-07-16)
Sabzevari, Maryam Tavassoli
Esposito, Matteo
Taibi, Davide
Khan, Arif Ali
ACM
16.07.2024
Maryam Tavassoli Sabzevari, Matteo Esposito, Davide Taibi, and Arif Ali Khan. 2024. QCSHQD: Quantum Computing as a Service for Hybrid Classical-Quantum Software Development: A Vision. In Proceedings of the 1st ACM International Workshop on Quantum Software Engineering: The Next Evolution (QSE-NE 2024). Association for Computing Machinery, New York, NY, USA, 7–10. https://doi.org/10.1145/3663531.3664751
https://creativecommons.org/licenses/by-nd/4.0/
© 2024 Owner/Author. This work is licensed under a Creative Commons Attribution-NoDerivs International 4.0 License.
https://creativecommons.org/licenses/by-nd/4.0/
© 2024 Owner/Author. This work is licensed under a Creative Commons Attribution-NoDerivs International 4.0 License.
https://creativecommons.org/licenses/by-nd/4.0/
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:oulu-202410316526
https://urn.fi/URN:NBN:fi:oulu-202410316526
Tiivistelmä
Abstract
Quantum Computing (QC) is transitioning from theoretical frameworks to an indispensable powerhouse of computational capability, resulting in extensive adoption across both industrial and academic domains. QC presents exceptional advantages, including unparalleled processing speed and the potential to solve complex problems beyond the capabilities of classical computers. Nevertheless, academic researchers and industry practitioners encounter various challenges in harnessing the benefits of this technology. The limited accessibility of QC resources for classical developers, and a general lack of domain knowledge and expertise, represent insurmountable barrier, hence to address these challenges, we introduce a framework- Quantum Computing as a Service for Hybrid Classical-Quantum Software Development (QCSHQD), which leverages service-oriented strategies. Our framework comprises three principal components: an Integrated Development Environment (IDE) for user interaction, an abstraction layer dedicated to orchestrating quantum services, and a service provider responsible for executing services on quantum computer. This study presents a blueprint for QCSHQD, designed to democratize access to QC resources for classical developers who want to seamless harness QC power. The vision of QCSHQD paves the way for groundbreaking innovations by addressing key challenges of hybridization between classical and quantum computers.
Quantum Computing (QC) is transitioning from theoretical frameworks to an indispensable powerhouse of computational capability, resulting in extensive adoption across both industrial and academic domains. QC presents exceptional advantages, including unparalleled processing speed and the potential to solve complex problems beyond the capabilities of classical computers. Nevertheless, academic researchers and industry practitioners encounter various challenges in harnessing the benefits of this technology. The limited accessibility of QC resources for classical developers, and a general lack of domain knowledge and expertise, represent insurmountable barrier, hence to address these challenges, we introduce a framework- Quantum Computing as a Service for Hybrid Classical-Quantum Software Development (QCSHQD), which leverages service-oriented strategies. Our framework comprises three principal components: an Integrated Development Environment (IDE) for user interaction, an abstraction layer dedicated to orchestrating quantum services, and a service provider responsible for executing services on quantum computer. This study presents a blueprint for QCSHQD, designed to democratize access to QC resources for classical developers who want to seamless harness QC power. The vision of QCSHQD paves the way for groundbreaking innovations by addressing key challenges of hybridization between classical and quantum computers.
Kokoelmat
- Avoin saatavuus [34966]
Samankaltainen aineisto
Näytetään aineisto, joilla on samankaltaisia nimekkeitä, tekijöitä tai asiasanoja.
-
Agile meets quantum: a novel genetic algorithm model for predicting the success of quantum software development project
Khan, Arif Ali; Akbar, Muhammad Azeem; Lahtinen, Valtteri; Paavola, Marko; Niazi, Mahmood; Alatawi, Mohammed Naif; Alotaibi, Shoayee Dlaim
Automated software engineering (Springer, 04.04.2024) -
Simulation of resources for quantum algorithms and quantum communication protocols based on a novel framework
Pham, Giao N.; Nguyen, Binh A.; Tran, Viet Q.; Ta, Khoa D.; Nguyen, Phong H.; Nguyen, Duc M.
International journal of advanced trends in computer science and engineering : 3 (The World Academy of Research in Science and Engineering, 20.06.2020) -
Quantum error correction under numerically exact open-quantum-system dynamics
Babu, Aravind P.; Orell, Tuure; Vadimov, Vasilii; Teixeira, Wallace; Möttönen, Mikko; Silveri, Matti
Physical review research : 4 (American physical society, 20.11.2023)