We present an open-source database of superconducting quantum device designs that may be used as the starting point for customized devices. Each design can be generated programmatically using the open-source Qiskit Metal package, and simulated using finite-element electromagnetic solvers. We present a robust workflow for achieving high accuracy on design simulations. Many designs in the database are experimentally validated, showing excellent agreement between simulated and measured parameters. Our database includes a front-end interface that allows users to generate ``best-guess'' designs based on desired circuit parameters. This project lowers the barrier to entry for research groups seeking to make a new class of devices by providing them a well-characterized starting point from which to refine their designs.
@article{arxiv.2312.13483,
title = {SQuADDS: A validated design database and simulation workflow for superconducting qubit design},
author = {Sadman Shanto and Andre Kuo and Clark Miyamoto and Haimeng Zhang and Vivek Maurya and Evangelos Vlachos and Malida Hecht and Chung Wa Shum and Eli Levenson-Falk},
journal= {arXiv preprint arXiv:2312.13483},
year = {2024}
}