Result: $Classi|Q\rangle$ Towards a Translation Framework To Bridge The Classical-Quantum Programming Gap

Title:
$Classi|Q\rangle$ Towards a Translation Framework To Bridge The Classical-Quantum Programming Gap
Authors:
Esposito, Matteo, Sabzevari, Maryam Tavassoli, Ye, Boshuai, Falessi, Davide, Khan, Arif Ali, Taibi, Davide
Publisher Information:
2024-06-10 2024-07-01
Document Type:
Electronic Resource Electronic Resource
Index Terms:
Computer Science - Software Engineering, Computer Science - Computation and Language, Computer Science - Emerging Technologies, Computer Science - Programming Languages, text
DOI:
10.1145.3663531.3664752
URL:
http://arxiv.org/abs/2406.06764
Availability:
Open access content. Open access content
Other Numbers:
COO oai:arXiv.org:2406.06764
doi:10.1145/3663531.3664752
1504840077
Contributing Source:
CORNELL UNIV
From OAIsterĀ®, provided by the OCLC Cooperative.
Accession Number:
edsoai.on1504840077
Database:
OAIster

Further Information

Quantum computing, albeit readily available as hardware or emulated on the cloud, is still far from being available in general regarding complex programming paradigms and learning curves. This vision paper introduces $Classi|Q\rangle$, a translation framework idea to bridge Classical and Quantum Computing by translating high-level programming languages, e.g., Python or C++, into a low-level language, e.g., Quantum Assembly. Our idea paper serves as a blueprint for ongoing efforts in quantum software engineering, offering a roadmap for further $Classi|Q\rangle$ development to meet the diverse needs of researchers and practitioners. $Classi|Q\rangle$ is designed to empower researchers and practitioners with no prior quantum experience to harness the potential of hybrid quantum computation. We also discuss future enhancements to $Classi|Q\rangle$, including support for additional quantum languages, improved optimization strategies, and integration with emerging quantum computing platforms.