Distributing circuits over heterogeneous, modular quantum computing network architectures
Andres-Martinez, Pablo and Forrer, Tim and Mills, Daniel and Wu, Jun-Yi and Henaut, Luciana and Yamamoto, Kentaro and Murao, Mio and Duncan, Ross (2024) Distributing circuits over heterogeneous, modular quantum computing network architectures. Quantum Science and Technology, 9 (4). 045021. ISSN 2058-9565 (https://doi.org/10.1088/2058-9565/ad6734)
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Abstract
We consider a heterogeneous network of quantum computing modules, sparsely connected via Bell states. Operations across these connections constitute a computational bottleneck and they are likely to add more noise to the computation than operations performed within a module. We introduce several techniques for transforming a given quantum circuit into one implementable on such a network, minimising the number of Bell states required to do so. We extend previous works on circuit distribution to the case of heterogeneous networks. On the one hand, we extend the hypergraph approach of Andres-Martinez and Heunen (2019 Phys. Rev. A 100 032308) to arbitrary network topologies, and we propose the use of Steiner trees to detect and reuse common connections, further reducing the cost of entanglement sharing within the network. On the other hand, we extend the embedding techniques of Wu et al (2023 Quantum 7 1196) to networks with more than two modules. We show that, with careful manipulation of trade-offs, these two new approaches can be combined into a single automated framework. Our proposal is implemented and benchmarked; the results confirm that our contributions make noticeable improvements upon the aforementioned works and complement their weaknesses.
ORCID iDs
Andres-Martinez, Pablo, Forrer, Tim, Mills, Daniel, Wu, Jun-Yi, Henaut, Luciana, Yamamoto, Kentaro, Murao, Mio and Duncan, Ross ORCID: https://orcid.org/0000-0001-6758-1573;-
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Item type: Article ID code: 90153 Dates: DateEvent1 October 2024Published6 August 2024Published Online24 July 2024Accepted15 January 2024SubmittedSubjects: Science > Mathematics > Electronic computers. Computer science Department: Faculty of Science > Computer and Information Sciences Depositing user: Pure Administrator Date deposited: 07 Aug 2024 08:49 Last modified: 25 Nov 2024 01:24 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/90153