Machine learning enables completely automatic tuning of a quantum device faster than human experts
Moon, H., Lennon, D. T., Kirkpatrick, J., van Esbroeck, N. M., Camenzind, L. C., Yu, Liuqi, Vigneau, F., Zumbühl, D. M., Briggs, G. A. D., Osborne, M. A., Sejdinovic, D., Laird, E. A., Ares, N.
Published in Nature communications (19.08.2020)
Published in Nature communications (19.08.2020)
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Journal Article
Quantum device fine-tuning using unsupervised embedding learning
van Esbroeck, N M, Lennon, D T, Moon, H, Nguyen, V, Vigneau, F, Camenzind, L C, Yu, L, Zumbühl, D M, Briggs, G A D, Sejdinovic, D, Ares, N
Published in New journal of physics (01.09.2020)
Published in New journal of physics (01.09.2020)
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Journal Article
Quantum device fine-tuning using unsupervised embedding learning
van Esbroeck, N M, Lennon, D T, Moon, H, Nguyen, V, Vigneau, F, Camenzind, L C, L Yu, Zumbühl, D M, Briggs, G A D, Sejdinovic, D, Ares, N
Published in arXiv.org (13.01.2020)
Published in arXiv.org (13.01.2020)
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Paper
Journal Article
Machine learning enables completely automatic tuning of a quantum device faster than human experts
Moon, H, Lennon, D T, Kirkpatrick, J, van Esbroeck, N M, Camenzind, L C, Yu, Liuqi, Vigneau, F, Zumbühl, D M, Briggs, G A D, Osborne, M A, Sejdinovic, D, Laird, E A, Ares, N
Published in arXiv.org (08.01.2020)
Published in arXiv.org (08.01.2020)
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Paper
Journal Article