Collaborative Research: OAC Core: An Integrated Framework for Enabling Temporal-Reliable Q — NSF Award to Kent State University (O
As quantum computers consistently scale up with more qubits, the development of practical and real-world applications using quantum computing has become a crucial frontier for quantum information scientists and technologists, which benefits other scientists and end-users across a wide range of disciplines. Quantum lear
| Award title | Collaborative Research: OAC Core: An Integrated Framework for Enabling Temporal-Reliable Q |
|---|---|
| Award ID | 2311950 |
| Awardee | Kent State University |
| City | KENT |
| State | OH |
| Amount obligated | $270,000 |
| Principal investigator | Qiang Guan |
| Program | OAC-Advanced Cyberinfrast Core |
| Start date | 08/01/2023 |
| Abstract | As quantum computers consistently scale up with more qubits, the development of practical and real-world applications using quantum computing has become a crucial frontier for quantum information scientists and technologists, which benefits other scientists and end-users across a wide range of disciplines. Quantum learning, a combination of quantum computing and machine learning and also known as Variational Quantum Algorithm (VQA), is one of the most promising approaches to be applied to a vari |
| Source | NSF Awards |
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