In this paper, we discuss the challenges in modeling of Noisy Intermediate Scale Quantum Computers, in particular, those implementations that rely on integrated interface and control electronics. We begin with an overview of the current state of quantum computers and highlight the emergence of quantum engineering and its relation to electrical and electronic engineering. We then discuss qubit modeling and existing solutions. The particular example we focus on in this paper is related to semiconductor CMOS charge qubits. For this reason, we overview the physical models and equivalent circuit model of this type of qubits.

Noisy intermediate scale quantum computers: On the co-simulation of qubits and control electronics

Bizzarri F.;Brambilla A.
2020-01-01

Abstract

In this paper, we discuss the challenges in modeling of Noisy Intermediate Scale Quantum Computers, in particular, those implementations that rely on integrated interface and control electronics. We begin with an overview of the current state of quantum computers and highlight the emergence of quantum engineering and its relation to electrical and electronic engineering. We then discuss qubit modeling and existing solutions. The particular example we focus on in this paper is related to semiconductor CMOS charge qubits. For this reason, we overview the physical models and equivalent circuit model of this type of qubits.
2020
ICECS 2020 - 27th IEEE International Conference on Electronics, Circuits and Systems, Proceedings
978-1-7281-6044-3
Charge qubit
Equivalent circuit models
Numerical simulations
Quantum computer
Qubit modeling
Semiconductor qubits
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1170516
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