QDW 2026 features a 4-day hands-on workshop on how to effectively design, simulate and work with superconducting qubits.
Next week we will have the pleasure and honor to attend the Quantum Design Workshop (QDW) from Monday through Thursday with exciting sessions and we will give 2 very interesting training courses about innovative modeling topics using our software QTCAD®: Josephson Junction and Hybrid Systems Simulations!
Date & Time: Thursday, June 18th at 3:30 PM PST
Speaker: Dr. Félix Beaudoin
Summary: This session introduces an end-to-end co-design workflow that explicitly incorporates microscopic junction physics directly into multi-scale superconducting circuit modeling. We will demonstrate a seamless transition from GDS layout to Maxwell eigenmode and EPR analysis, using statistical distributions of Josephson energy to accurately simulate a coupled transmon-resonator system.
Date & Time: Thursday, June 18th at 2:15 PM
Speaker: Dr. Fadime Bekmambetova
Summary: In this session, we will introduce the attendees to QTCAD® and its application to modeling hybrid systems involving spin qubit devices and superconducting components. The discussion will revolve around a multi-gate FinFET double quantum dot coupled to a meandered resonator. The system will be analyzed using QTCAD®’s non-linear Poisson, Schrödinger, and Maxwell equation solvers to extract the effective orbit-resonator coupling strength.
More about QTCAD®:
>> on the conference website: https://qdc-qcsa.org/design-tools#qtcad
>> about version 2.2: QTCAD® v2.2 brochure (General: semiconductor spin and superconducting qubit design)
>> online documentation: Link to QTCAD® v2.2 brochure: focus on Superconducting qubit design features
Thank you very much to the organizing committee UCLA & University of Southern California, we are looking forward to it!
See you there.
