A. Pitchford, C. Granade, A. Grimsmo, N. Shammah, S. Ahmed, N. Lambert, E. Giguère, B. Li, J. Lishman, S. Cross, P. D. Nation, and J. R. Johansson
QuTiP is open-source software for simulating the dynamics of closed and open quantum systems. It uses the excellent Numpy, Scipy, and Cython packages as numerical backends, and graphical output is provided by Matplotlib. QuTiP aims to provide user-friendly and efficient numerical simulations of a wide variety of quantum mechanical problems, including those with Hamiltonians and/or collapse operators with arbitrary time-dependence, commonly found in a wide range of physics applications. QuTiP is freely available for use and/or modification, and it can be used on all Unix-based platforms and on Windows. Being free of any licensing fees, QuTiP is ideal for exploring quantum mechanics in research as well as in the classroom.
We are proud to be affiliated with Unitary Fund and numFOCUS. QuTiP development is supported by Nori's lab at RIKEN, by the University of Sherbrooke, and by Aberystwyth University, among other supporting organizations.
QuTiP is available on both pip
and conda
(the latter in the conda-forge
channel).
You can install QuTiP from pip
by doing
pip install qutip
to get the minimal installation.
You can instead use the target qutip[full]
to install QuTiP with all its optional dependencies.
For more details, including instructions on how to build from source, see the detailed installation guide in the documentation.
All back releases are also available for download in the releases section of this repository, where you can also find per-version changelogs. For the most complete set of release notes and changelogs for historic versions, see the changelog section in the documentation.
The documentation for official releases, in HTML and PDF formats, can be found in the documentation section of the QuTiP website.
The latest development documentation is available in this repository in the doc
folder.
A selection of demonstration notebooks is available, which demonstrate some of the many features of QuTiP. These are stored in the qutip/qutip-notebooks repository here on GitHub. You can run the notebooks online using myBinder:
You are most welcome to contribute to QuTiP development by forking this repository and sending pull requests, or filing bug reports at the issues page. You can also help out with users' questions, or discuss proposed changes in the QuTiP discussion group. All code contributions are acknowledged in the contributors section in the documentation.
For more information, including technical advice, please see the "contributing to QuTiP development" section of the documentation.
If you use QuTiP in your research, please cite the original QuTiP papers that are available here.