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Applications of the qopt software for quantum simulation and optimal control.

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qopt-applications

Applications of the qopt software for quantum simulation and optimal control.

If you have any questions, comments or recommendations, please reach out to me via mail at j.teske@fz-juelich.de or julian.teske@rwth-aachen.de.

Documentation

The documentation of qopt can be found on readthedocs. It features an API documentation and an introduction in the form of jupyter notebooks demonstrating how to utilize the package. A complementary theoretical introduction is given in the qopt paper.

Purpose

Publishing the sourcecode of your research has multiple benefits to you and the scientific community as whole. You can increase the visibility of your work and increase the trust in your results by proving the reproducibility of your results. New researches entering the field can use your code as starting point for their own work, making it very likely that they will read and cite your publications.

The scientific community can advance faster as whole if cooperation is easy and widely applied. The use of qopt as shared platform and the ability to share the simulation code in a repository like this one facilitates the exchange of ideas and techniques.

Format Guideline

These guidelines should be seen as recommendations. If they cannot be applied to your sourcecode then you should rather upload your code in another structure than not sharing it at all. If you are unsure, then please contact me.

The guidelines are meant to facilitate the use of previous simulation code. They are set up as compromise between the effort made to document code while it is in use, and the effort to reuse or refactor old code.

Each project is stored in a separate folder, which contains a README, a SETUP, an execution script and further code in a subfolder.

README

This readme should contain a brief description of the physical contend of your simulation, such that others will know what is simulated. Then it also explains the structure of your simulations and any additional information you want to provide to fellow researchers (like citations, yours and the ones you used).

SETUP

This file should be a python (.py) file containing the setup of your simulations. It stores parameters, Hamiltonians, construction functions for qopt classes, additional simulation code etc. If your project is too large for a single file then add a folder for the files required for the setup. This file should be well documented following the numpy docstring format, as it is the core of your simulations, and the part that will be refactored the first.

Execution

This file is preferably an ipython notebook which executes the key simulation using the setup.py file. It does not need to cover your full investigations but just the most relevant ones, which are probable to be refactored in the future. This code should be well documented in the numpy format.

Further Code

This folder contains the parts of your code that are more specific to your own work. It should contain another README file explaining the structure, contend and interdependence of the remaining files. It is sufficient to write short document strings in these files, which describe the code roughly, but you are welcome to put more effort into the documentation if you deem it useful.

Citing

If you are using qopt for your work then please cite the qopt paper, as the funding of the development depends on the public impact.

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