Analytical Performance Estimations for Quantum Repeater Network Scenarios
Quantum repeater chains will form the backbone of future quantum networks that distribute entanglement between network nodes. Therefore, it is important to understand the entanglement distribution performance of quantum repeater chains, especially their throughput and latency. By using Markov chains...
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| Published in | 2024 IEEE International Conference on Quantum Computing and Engineering (QCE) Vol. 1; pp. 1960 - 1966 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
15.09.2024
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/QCE60285.2024.00226 |
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| Abstract | Quantum repeater chains will form the backbone of future quantum networks that distribute entanglement between network nodes. Therefore, it is important to understand the entanglement distribution performance of quantum repeater chains, especially their throughput and latency. By using Markov chains to model the stochastic dynamics in quantum repeater chains, we offer analytical estimations for long-run throughput and on-demand latency of continuous entanglement distribution. We first study single-link entanglement generation using general multiheralded protocols. We then model entanglement distribution with entanglement swapping over two links, using either a single- or a double-heralded entanglement generation protocol. We also demonstrate how the two-link results offer insights into the performance of general 2^{k} -link nested repeater chains. Our results enrich the quantitative understanding of quantum repeater network performance, especially the dependence on system parameters. The analytical formulae themselves are valuable reference resources for the quantum networking community. They can serve as benchmarks for quantum network simulation validation or as examples of quantum network dynamics modeling using the Markov chain formalism. |
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| AbstractList | Quantum repeater chains will form the backbone of future quantum networks that distribute entanglement between network nodes. Therefore, it is important to understand the entanglement distribution performance of quantum repeater chains, especially their throughput and latency. By using Markov chains to model the stochastic dynamics in quantum repeater chains, we offer analytical estimations for long-run throughput and on-demand latency of continuous entanglement distribution. We first study single-link entanglement generation using general multiheralded protocols. We then model entanglement distribution with entanglement swapping over two links, using either a single- or a double-heralded entanglement generation protocol. We also demonstrate how the two-link results offer insights into the performance of general 2^{k} -link nested repeater chains. Our results enrich the quantitative understanding of quantum repeater network performance, especially the dependence on system parameters. The analytical formulae themselves are valuable reference resources for the quantum networking community. They can serve as benchmarks for quantum network simulation validation or as examples of quantum network dynamics modeling using the Markov chain formalism. |
| Author | Zang, Allen Zhong, Tian Chung, Joaquin Suchara, Martin Kettimuthu, Rajkumar |
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| Snippet | Quantum repeater chains will form the backbone of future quantum networks that distribute entanglement between network nodes. Therefore, it is important to... |
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| StartPage | 1960 |
| SubjectTerms | Analytical models Benchmark testing Computational modeling Dynamic scheduling Entanglement distribution Entanglement generation Entanglement swapping Estimation Latency estimation Markov chain Protocols Quantum repeater network Quantum repeaters Repeaters Stochastic processes Throughput Throughput estimation |
| Title | Analytical Performance Estimations for Quantum Repeater Network Scenarios |
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