Python framework for designing & analyzing superconducting quantum chips. Lite-by-default, headless-friendly, EDA-grade.
A validated design database and simulation workflow software for superconducting quantum hardware
Repository containing the Python scripts related to my Physics degree end-of-degree project at the University of Alicante. This end-of-degree project is supervised by Joaquín Fernández Rossier.
A simulator aim at simulating and solving Transmon based qubit-coupler-resonator system
💥 Helper library to conveniently run, save and analyze quantum experiments on QuTech's Quantum Inspire
Measurement scripts for the OCS QP project using `qua` and `labber` mostly
Continuous-wave spectroscopy simulator for transmon qubits using QuTiP
To generate an arbitrary quantum state of the magnetization coupled to a transmon
Parametric study of a superconducting transmon qubit coupled to a CPW meander resonator. Mapped pad geometry to qubit frequency and anharmonicity using Qiskit Metal + scqubits.
Carry any JoSIM current–phase relation to the quantum qubit spectrum — anharmonicity, Kerr, three-wave mixing, T1 — for graphene / TBG / Dirac Josephson junctions.
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