Black Opal Quantum Computing Training System Capabilities

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Abstract

Currently, hundreds of companies and research institutes, thousands of scientists and dozens of investment institutions are focused on bringing practical and widespread use of quantum computing to the market. However, there is a need for personnel, since there are simply not enough trained quantum workers to support the growth of the industry. When a powerful quantum computing industry is formed, companies and organizations will need trained quantum scientists, physicists and engineers. In this regard, it is necessary to have online courses or textbooks that would fill the gap in knowledge of quantum procedures for a large number of people. The article considers the capabilities of one of the educational platforms for quantum computing - Black Opal, using the example of a detailed analysis of a simple quantum operation X. The description of the corresponding operations is presented in several formats: mathematical, graphical and text, which will allow an unprepared listener to quickly master the basic material without additional professional education. When considering each of the operations, special attention was paid to the behavior of the phase. Thus, the proposed level of clarity and explanation will allow one to quickly master basic single-qubit operations, which will increase digital literacy and the ability to use quantum technologies and algorithms for various tasks.

General Information

Keywords: qubit, quantum computing, online course, Q-CTRL

Publication rubric: Digital Transformation and Online Education: Technologies, Tools & Models

Article type: theses

For citation: Cherkasova O.A., Churochkina S.V., Dmitry C.V. Black Opal Quantum Computing Training System Capabilities. Digital Humanities and Technology in Education (DHTE 2024): Collection of Articles of the V International Scientific and Practical Conference. November 14-15, 2024 / V.V. Rubtsov, M.G. Sorokova, N.P. Radchikova (Eds). Moscow: Publishing house MSUPE, 2024., pp. 232–248.

Information About the Authors

Olga A. Cherkasova, PhD in Physics and Matematics, Associate Professor, Chair of Radio Engineering and Electrodynamics, Saratov State University, Saratov, Russia, ORCID: https://orcid.org/0000-0002-3031-7477, e-mail: cherkasovaoa@sgu.ru

Svetlana V. Churochkina, PhD in Physics and Matematics, Associate Professor, Department of Solid State Physics, Institute of Physics, Saratov State University, Saratov, Russia, ORCID: https://orcid.org/0000-0002-2028-195X, e-mail: klechshevskaya@mail.ru

Churochkin V. Dmitry, PhD in Physics and Matematics, Associate Professor, Department of Solid State Physics, Institute of Physics, Saratov State University, Saratov, Russia, ORCID: https://orcid.org/0000-0002-9575-6729, e-mail: churd2000@mail.ru

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