An entanglement-based volumetric benchmark for near-term quantum hardware

An entanglement-based volumetric benchmark for near-term quantum hardware

We introduce a volumetric benchmark for near-term quantum platforms based on the generation and verification of genuine entanglement across n-qubits using graph states and direct stabilizer measurements. Our benchmark evaluates the robustness of multipartite and bipartite n-qubit entanglement with r...

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Veröffentlicht in:arXiv.org 2022-09
Hauptverfasser: Hamilton, Kathleen E, Laanait, Nouamane, Francis, Akhil, Economou, Sophia E, Barron, George S, Yeter-Aydeniz, Kübra, Morris, Titus, Cooley, Harrison, Kang, Muhun, Kemper, Alexander F, Pooser, Raphael
Format: Artikel
Sprache:eng
Schlagworte:
Benchmarks
Evaluation
Hardware
Platforms
Quantum entanglement
Qubits (quantum computing)
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Zusammenfassung:We introduce a volumetric benchmark for near-term quantum platforms based on the generation and verification of genuine entanglement across n-qubits using graph states and direct stabilizer measurements. Our benchmark evaluates the robustness of multipartite and bipartite n-qubit entanglement with respect to many sources of hardware noise: qubit decoherence, CNOT and swap gate noise, and readout error. We demonstrate our benchmark on multiple superconducting qubit platforms available from IBM (ibmq_belem, ibmq_toronto, ibmq_guadalupe and ibmq_jakarta). Subsets of \(n4\) qubits and identify two-qubit gate noise as strongly correlated with the quality of genuine multipartite entanglement.
ISSN:2331-8422