Avoiding barren plateaus in the variational determination of geometric entanglement
Zambrano, L., Muñoz-Moller, A. D., Muñoz, M., Pereira, L., & Delgado, A. (2024). Avoiding barren plateaus in the variational determination of geometric entanglement. Quantum Science and Technology, 9(2), Article 025016. https://doi.org/10.1088/2058-9565/ad2a16
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© 2024 the Authors
The barren plateau (BP) phenomenon is one of the main obstacles to implementing variational quantum algorithms in the current generation of quantum processors. Here, we introduce a method capable of avoiding the BP phenomenon in the variational determination of the geometric measure of entanglement for a large number of qubits. The method is based on measuring compatible two-qubit local functions whose optimization allows for achieving a well-suited initial condition from which a global function can be further optimized without encountering a BP. We analytically demonstrate that the local functions can be efficiently estimated and optimized. Numerical simulations up to 18 qubit GHZ and W states demonstrate that the method converges to the exact value. In particular, the method allows for escaping from BPs induced by hardware noise or global functions defined on high-dimensional systems. Numerical simulations with noise agree with experiments carried out on IBM's quantum processors for seven qubits.
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https://converis.jyu.fi/converis/portal/detail/Publication/215901295
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This work was supported by ANID—Millennium Science Initiative Program—ICN17-012. L Z was supported by the Government of Spain (Severo Ochoa CEX2019-000910-S, TRANQI, and European Union NextGenerationEU PRTR-C17.I1), Fundació Cellex, Fundació Mir-Puig and Generalitat de Catalunya (CERCA program). A D was supported by FONDECYT Grants 1231940 and 1230586. M M was supported by ANID-PFCHA/DOCTORADO-NACIONAL/2019-21190958. L P was supported by ANID-PFCHA/DOCTORADO-BECAS-CHILE/2019-772200275, the CSIC Interdisciplinary Thematic Platform (PTI+) on Quantum Technologies (PTI-QTEP+), the CAM/FEDER Project No. S2018/TCS-4342 (QUITEMAD-CM), and the Proyecto Sinérgico CAM 2020 Y2020/TCS-6545 (NanoQuCo-CM). ...License
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