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Article Dans Une Revue Machine Learning: Science and Technology Année : 2021

Miniaturizing neural networks for charge state autotuning in quantum dots

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Abstract A key challenge in scaling quantum computers is the calibration and control of multiple qubits. In solid-state quantum dots (QDs), the gate voltages required to stabilize quantized charges are unique for each individual qubit, resulting in a high-dimensional control parameter space that must be tuned automatically. Machine learning techniques are capable of processing high-dimensional data—provided that an appropriate training set is available—and have been successfully used for autotuning in the past. In this paper, we develop extremely small feed-forward neural networks that can be used to detect charge-state transitions in QD stability diagrams. We demonstrate that these neural networks can be trained on synthetic data produced by computer simulations, and robustly transferred to the task of tuning an experimental device into a desired charge state. The neural networks required for this task are sufficiently small as to enable an implementation in existing memristor crossbar arrays in the near future. This opens up the possibility of miniaturizing powerful control elements on low-power hardware, a significant step towards on-chip autotuning in future QD computers.
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hal-04642527 , version 1 (09-07-2024)

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Stefanie Czischek, Victor Yon, Marc-Antoine Genest, Marc-Antoine Roux, Sophie Rochette, et al.. Miniaturizing neural networks for charge state autotuning in quantum dots. Machine Learning: Science and Technology, 2021, 3 (1), pp.015001. ⟨10.1088/2632-2153/ac34db⟩. ⟨hal-04642527⟩
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