Neutral atom quantum computing hardware: performance and end-user perspective
We present an industrial end-user perspective on the current state of quantum computing hardware for one specific technological approach, the neutral atom platform. Our aim is to assist developers in understanding the impact of the specific properties of these devices on the effectiveness of algorit...
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| Published in | EPJ quantum technology Vol. 10; no. 1; p. 32 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.12.2023
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | We present an industrial end-user perspective on the current state of quantum computing hardware for one specific technological approach, the neutral atom platform. Our aim is to assist developers in understanding the impact of the specific properties of these devices on the effectiveness of algorithm execution. Based on discussions with different vendors and recent literature, we discuss the performance data of the neutral atom platform. Specifically, we focus on the physical qubit architecture, which affects state preparation, qubit-to-qubit connectivity, gate fidelities, native gate instruction set, and individual qubit stability. These factors determine both the quantum-part execution time and the end-to-end wall clock time relevant for end-users, but also the ability to perform fault-tolerant quantum computation in the future. We end with an overview of which applications have been shown to be well suited for the peculiar properties of neutral atom-based quantum computers. |
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| AbstractList | We present an industrial end-user perspective on the current state of quantum computing hardware for one specific technological approach, the neutral atom platform. Our aim is to assist developers in understanding the impact of the specific properties of these devices on the effectiveness of algorithm execution. Based on discussions with different vendors and recent literature, we discuss the performance data of the neutral atom platform. Specifically, we focus on the physical qubit architecture, which affects state preparation, qubit-to-qubit connectivity, gate fidelities, native gate instruction set, and individual qubit stability. These factors determine both the quantum-part execution time and the end-to-end wall clock time relevant for end-users, but also the ability to perform fault-tolerant quantum computation in the future. We end with an overview of which applications have been shown to be well suited for the peculiar properties of neutral atom-based quantum computers. |
| ArticleNumber | 32 |
| Author | Wintersperger, Karen Ehmer, Thomas Hoursanov, Andrey Dommert, Florian Klepsch, Johannes Yin, Ming Mauerer, Wolfgang Reuber, Georg Luber, Sebastian Strohm, Thomas |
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| SubjectTerms | Algorithms Atoms & subatomic particles Benchmarks Circuits Computers Connectivity Entropy Fault tolerance Hardware High performance computing Lasers Nanotechnology and Microengineering Neutral atoms Physics Physics and Astronomy Quantum computers Quantum computing Quantum Information Technology Quantum Physics Qubits (quantum computing) R&D Research & development Review Special Issue on Quantum Industry Spintronics |
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| Title | Neutral atom quantum computing hardware: performance and end-user perspective |
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