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qutipqip 0.3.1
qutip-qip
The qutip-qip package used to be a module qutip.qip under QuTiP (Quantum Toolbox in Python).
From QuTiP 5.0, the community has decided to decrease the size of the core QuTiP package by reducing the external dependencies, in order to simplify maintenance.
Hence a few modules are separated from the core QuTiP and will become QuTiP family packages.
They are still maintained by the QuTiP team but hosted under different repositories in the QuTiP organization.
The qutip-qip package, QuTiP quantum information processing, aims at providing basic tools for quantum computing simulation both for simple quantum algorithm design and for experimental realization.
Compared to other libraries for quantum information processing, qutip-qip puts additional emphasis on the physics layer and the interaction with the QuTiP package.
The package offers two different approaches for simulating quantum circuits, one with QubitCircuit calculating unitary evolution under quantum gates by matrix product, another called Processor using open system solvers in QuTiP to simulate noisy quantum device.
If you would like to know the future development plan and ideas, have a look at the discussion panel as well as the qutip documentation for ideas.
Quick start
To install the package, use
pip install qutip-qip
Migrating from qutip.qip
As the introduction suggested, this package is based on a module in the QuTiP package qutip.qip.
If you were using the qutip package and now want to try out the new features included in this package, you can simply install this package and replace all the qutip.qip in your import statement with qutip_qip. Everything should work smoothly as usual.
Documentation and tutorials
The documentation of qutip-qip updated to the latest development version is hosted at qutip-qip.readthedocs.io/.
Tutorials related to using quantum gates and circuits in qutip-qip can be found here and those related to using noise simulators areavailable at this link.
Code examples used in the article Pulse-level noisy quantum circuits with QuTiP, updated for the latest code version, are hosted in this folder.
Installation from source
If you want to edit the source code, please download the source code and run the following command under the root qutip-qip folder,
pip install --upgrade pip
pip install -e .
which makes sure that you are up to date with the latest pip version. Contribution guidelines are available here.
To build and test the documentation, additional packages need to be installed:
pip install pytest matplotlib sphinx numpydoc sphinx_rtd_theme
Under the doc directory, use
make html
to build the documentation, or
make doctest
to test the code in the documentation.
Testing
To test the installation, choose the correct branch that matches with the version, e.g., qutip-qip-0.2.X for version 0.2. Then download the source code and run from the qutip-qip directory
pytest tests
Citing qutip-qip
If you use qutip-qip in your research, please cite the article as
@article{Li2022pulselevelnoisy,
doi = {10.22331/q-2022-01-24-630},
url = {https://doi.org/10.22331/q-2022-01-24-630},
title = {Pulse-level noisy quantum circuits with {Q}u{T}i{P}},
author = {Li, Boxi and Ahmed, Shahnawaz and Saraogi, Sidhant and Lambert, Neill and Nori, Franco and Pitchford, Alexander and Shammah, Nathan},
journal = {{Quantum}},
issn = {2521-327X},
publisher = {{Verein zur F{\"{o}}rderung des Open Access Publizierens in den Quantenwissenschaften}},
volume = {6},
pages = {630},
month = jan,
year = {2022}
}
Support
This package is supported and maintained by the same developers group as QuTiP.
QuTiP development is supported by Nori's lab
at RIKEN, by the University of Sherbrooke, by Chalmers University of Technology, by Macquarie University and by Aberystwyth University,
among other supporting organizations.
License
You are free to use this software, with or without modification, provided that the conditions listed in the LICENSE.txt file are satisfied.
For personal and professional use. You cannot resell or redistribute these repositories in their original state.
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