Abstract
Abstract
Quantum devices with a large number of gate electrodes allow for precise control of device parameters. This capability is hard to fully exploit due to the complex dependence of these parameters on applied gate voltages. We experimentally demonstrate an algorithm capable of fine-tuning several device parameters at once. The algorithm acquires a measurement and assigns it a score using a variational auto-encoder. Gate voltage settings are set to optimize this score in real-time in an unsupervised fashion. We report fine-tuning times of a double quantum dot device within approximately 40 min.
Funder
Lockheed Martin
Swiss NSF
Royal Society
Templeton World Charity Foundation
Swiss Nanoscience Institute
Engineering and Physical Sciences Research Council
Nokia
EU H2020 European Microkelvin Platform EMP
John Templeton Foundation
Subject
General Physics and Astronomy
Cited by
18 articles.
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