Academic Publication Distributed quantum computing across an optical network link
Research Abstract & Technology Focus
Distributed quantum computing (DQC) combines the computing power of multiple networked quantum processing modules, ideally enabling the execution of large quantum circuits without compromising performance or qubit connectivity1,2. Photonic networks are well suited as a versatile and reconfigurable interconnect layer for DQC; remote entanglement shared between matter qubits across the network enables all-to-all logical connectivity through quantum gate teleportation (QGT)3,4. For a scalable DQC architecture, the QGT implementation must be deterministic and repeatable; until now, no demonstration has satisfied these requirements. Here we experimentally demonstrate the distribution of quantum computations between two photonically interconnected trapped-ion modules. The modules, separated by about two metres, each contain dedicated network and circuit qubits. By using heralded remote entanglement between the network qubits, we deterministically teleport a controlled-Z (CZ) gate between two circuit qubits in separate modules, achieving 86% fidelity. We then execute Grover’s search algorithm5—to our knowledge, the first implementation of a distributed quantum algorithm comprising several non-local two-qubit gates—and measure a 71% success rate. Furthermore, we implement distributed iSWAP and SWAP circuits, compiled with two and three instances of QGT, respectively, demonstrating the ability to distribute arbitrary two-qubit operations6. As photons can be interfaced with a variety of systems, the versatile DQC architecture demonstrated here provides a viable pathway towards large-scale quantum computing for a range of physical platforms.
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Frequently Asked Questions (FAQ)
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What is the core focus of the research titled 'Distributed quantum computing across an optical network link'?
This literature focuses on: Abstract Distributed quantum computing (DQC) combines the computing power of multiple networked quantum processing modules, ideally enabling the execution of large quantum circuits without compromising performance or qubit connectivity1,...
Are there open-source GitHub repositories related to Distributed quantum computing across an optical network link?
Yes, open-source projects like QuipNetwork/xq-rs (A rust implementation of the Quip Network's quantum virtual machine.) are actively building upon these concepts.
What other academic literature is closely related to 'Distributed quantum computing across an optical network link'?
Yes, highly correlated activity was mapped. An entry titled 'Entanglement of nanophotonic quantum memory nodes in a telecom network' discusses this: AbstractA key challenge in realizing practical quantum networks for long-distance quantum communication involves robust entanglement between quantu...
How is the concept of 'Distributed quantum computing across an optical network link' being discussed by engineers on Hacker News?
Yes, highly correlated activity was mapped. An entry titled 'Show HN: Open-source distributed quantum compute network' discusses this: What does it mean to have a distributed quantum computer? Because if these distributed quantum computers are connected by classical communication c...
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Commercial Realization
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GitHubQuipNetwork/xq-rs
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GitHubQuipNetwork/xq-py
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