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

• URL: http://arxiv.org/abs/2209.00678v1
• Date: Thu, 1 Sep 2022 18:27:41 GMT
• Title: An entanglement-based volumetric benchmark for near-term quantum hardware
• Authors: Kathleen E. Hamilton, Nouamane Laanait, Akhil Francis, Sophia E. Economou, George S. Barron, K\"ubra Yeter-Aydeniz, Titus Morris, Harrison Cooley, Muhun Kang, Alexander F. Kemper, and Raphael Pooser
• Abstract summary: We introduce a benchmark for near-term quantum platforms based on the generation and verification of genuine entanglement across n-qubits. Our benchmark evaluates the robustness of multipartite and bipartite n-qubit entanglement with respect to many sources of hardware noise.
• Score: 45.80648481065638
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: 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 $n<10$ qubits are used for graph state preparation and stabilizer measurement. Evaluation of genuine and biseparable entanglement witnesses we report observations of $5$ qubit genuine entanglement, but robust multipartite entanglement is difficult to generate for $n>4$ qubits and identify two-qubit gate noise as strongly correlated with the quality of genuine multipartite entanglement.

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