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Boter, J.M. (author), Dehollain Lorenzana, J.P. (author), van Dijk, J.P.G. (author), Xu, Yuanxing (author), Hensgens, T. (author), Versluis, R. (author), Naus, H.W.L. (author), Veldhorst, M. (author), Sebastiano, F. (author), Vandersypen, L.M.K. (author)One of the main bottlenecks in the pursuit of a large-scale-chip-based quantum computer is the large number of control signals needed to operate qubit systems. As system sizes scale up, the number of terminals required to connect to off-chip control electronics quickly becomes unmanageable. Here, we discuss a quantum-dot spin-qubit...journal article 2022
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Xue, X. (author), Patra, B (author), van Dijk, J.P.G. (author), Samkharadze, Nodar (author), Corna, A. (author), Paquelet Wuetz, B. (author), Sammak, A. (author), Scappucci, G. (author), Veldhorst, M. (author), Sebastiano, F. (author), Babaie, M. (author), Charbon-Iwasaki-Charbon, E. (author), Vandersypen, L.M.K. (author)The most promising quantum algorithms require quantum processors that host millions of quantum bits when targeting practical applications<sup>1</sup>. A key challenge towards large-scale quantum computation is the interconnect complexity. In current solid-state qubit implementations, an important interconnect bottleneck appears between the...journal article 2021
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Sebastiano, F. (author), van Dijk, J.P.G. (author), Thart, P. A. (author), Patra, B (author), van Staveren, J. (author), Xue, X. (author), Almudever, Carmen G. (author), Scappucci, G. (author), Veldhorst, M. (author), Vandersypen, L.M.K. (author), Vladimirescu, A. (author), Babaie, M. (author), Charbon-Iwasaki-Charbon, E. (author)Cryogenic CMOS (cryo-CMOS) is a viable technology for the control interface of the large-scale quantum computers able to address non-trivial problems. In this paper, we demonstrate state-of-the-art cryo-CMOS circuits and systems for such application and we discuss the challenges still to be faced on the path towards practical quantum...conference paper 2020
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Patra, B (author), van Dijk, J.P.G. (author), Corna, A. (author), Xue, X. (author), Samkharadze, Nodar (author), Sammak, A. (author), Scappucci, G. (author), Veldhorst, M. (author), Vandersypen, L.M.K. (author), Babaie, M. (author), Sebastiano, F. (author), Charbon-Iwasaki-Charbon, E. (author)Quantum computers (QC), comprising qubits and a classical controller, can provide exponential speed-up in solving certain problems. Among solid-state qubits, transmons and spin-qubits are the most promising, operating « 1K. A qubit can be implemented in a physical system with two distinct energy levels representing the |0) and |1) states, e.g...conference paper 2020
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Boter, J.M. (author), Dehollain Lorenzana, J.P. (author), van Dijk, J.P.G. (author), Hensgens, T. (author), Versluis, R. (author), Clarke, J. S. (author), Veldhorst, M. (author), Sebastiano, F. (author), Vandersypen, L.M.K. (author)Current implementations of quantum computers suffer from large numbers of control lines per qubit, becoming unmanageable with system scale up. Here, we discuss a sparse spin-qubit architecture featuring integrated control electronics significantly reducing the off-chip wire count. This quantum-classical hardware integration closes the...conference paper 2019
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van Dijk, J.P.G. (author), Kawakami, E. (author), Schouten, R.N. (author), Veldhorst, M. (author), Vandersypen, L.M.K. (author), Babaie, M. (author), Charbon-Iwasaki-Charbon, E. (author), Sebastiano, F. (author)Quantum processors rely on classical electronic controllers to manipulate and read out the state of quantum bits (qubits). As the performance of the quantum processor improves, nonidealities in the classical controller can become the performance bottleneck for the whole quantum computer. To prevent such limitation, this paper presents a...journal article 2019