References¶
MQT Qudits has a strong foundation in peer‑reviewed research. Many of its built‑in algorithms are based on methods published in scientific journals and conferences. For an overview of MQT Qudits and its features, see [1]. If you want to cite this article, please use the following BibTeX entry:
@misc{mato2024mqtquditssoftwareframework,
title = {{{MQT Qudits}}: {{A}} Software Framework for Mixed-Dimensional Quantum Computing},
author = {Mato, Kevin and Ringbauer, Martin and Burgholzer, Lukas and Wille, Robert},
year = {2024},
url = {https://arxiv.org/abs/2410.02854},
eprint = {2410.02854},
eprinttype = {arXiv}
}
MQT Qudits is part of the Munich Quantum Toolkit, which is described in [2]. If you want to cite the Munich Quantum Toolkit, please use the following BibTeX entry:
@inproceedings{mqt,
title = {The {{MQT}} Handbook: {{A}} Summary of Design Automation Tools and Software for Quantum Computing},
shorttitle = {{The MQT Handbook}},
author = {Wille, Robert and Berent, Lucas and Forster, Tobias and Kunasaikaran, Jagatheesan and Mato, Kevin and Peham, Tom and Quetschlich, Nils and Rovara, Damian and Sander, Aaron and Schmid, Ludwig and Schoenberger, Daniel and Stade, Yannick and Burgholzer, Lukas},
year = 2024,
booktitle = {IEEE International Conference on Quantum Software (QSW)},
doi = {10.1109/QSW62656.2024.00013},
eprint = {2405.17543},
eprinttype = {arxiv},
addendum = {A live version of this document is available at \url{https://mqt.readthedocs.io}}
}
If you use MQT Qudits in your work, we would appreciate if you cited [3], [4], [5], [6], or [7].
A full list of references is given below.
Kevin Mato, Martin Ringbauer, Lukas Burgholzer, and Robert Wille. MQT Qudits: A software framework for mixed-dimensional quantum computing. 2024. [PDF], arXiv:2410.02854.
Robert Wille, Lucas Berent, Tobias Forster, Jagatheesan Kunasaikaran, Kevin Mato, Tom Peham, Nils Quetschlich, Damian Rovara, Aaron Sander, Ludwig Schmid, Daniel Schoenberger, Yannick Stade, and Lukas Burgholzer. The MQT handbook: A summary of design automation tools and software for quantum computing. In qsw. 2024. arXiv:2405.17543, doi:10.1109/QSW62656.2024.00013.
Kevin Mato, Stefan Hillmich, and Robert Wille. Mixed-dimensional qudit state preparation using edge-weighted decision diagrams. In Design Automation Conference (DAC). 2024.
Kevin Mato, Stefan Hillmich, and Robert Wille. Mixed-dimensional quantum circuit simulation with decision diagrams. In International Conference on Quantum Computing and Engineering (QCE). 2023. doi:10.1109/QCE57702.2023.00112.
Kevin Mato, Stefan Hillmich, and Robert Wille. Compression of qubit circuits: Mapping to mixed-dimensional quantum systems. In International Conference on Quantum Software (QSW). 2023. doi:10.1109/QSW59989.2023.00027.
Kevin Mato, Martin Ringbauer, Stefan Hillmich, and Robert Wille. Compilation of entangling gates for high-dimensional quantum systems. In Asia and South Pacific Design Automation Conference (ASP-DAC). 2023. doi:10.1145/3566097.3567930.
Kevin Mato, Martin Ringbauer, Stefan Hillmich, and Robert Wille. Adaptive compilation of multi-level quantum operations. In International Conference on Quantum Computing and Engineering (QCE). 2022. doi:10.1109/QCE53715.2022.00070.