This package provides a number of tools and fully-packaged programs for usage in the Quantum Technologies Teaching and Test-Bed (QT3) lab at the University of Washington.
The QT3 lab confocal microscope utilizes the following hardware to perform various spin-control experiments on quantum systems, such as NV centers in diamond:
- TTL pulsers
- Quantum Composer Sapphire
- Spin Core PulseBlaster
- Excelitas SPCM for photon detection
- NI-DAQ card (PCIx 6363) for data acquisition and control
- Jena System's Piezo Actuator Stage Control Amplifier
- [Future] spectrometer
The code in this package facilitates usages of these devices to perform experiments.
The utilities in this package depend on publicly available Python packages found on PyPI and drivers built by National Instruments for DAQmx and SpinCore for the PulseBlaster. These libraries must be installed separately.
Once the prerequisite packages have been installed, qt3utils can be installed from pip.
This is especially helpful for development on Mac OS Sonoma. Upgrading Tcl/Tk via Anaconda overcomes some GUI bugs
conda install 'tk>=8.6.13'
pip install qt3utils
The qt3utils
package depends on a handful of other qt3 packages and will be installed for you by default.
Additional information may also be found here.
This package provides GUI applications and a Python API for controlling the hardware and running experiments.
For instructions on using the python API, the simplest way to get started is to see one of the example Jupyter notebooks.
The following notebooks demonstrate usage of their respective experiment classes and the necessary hardware control objects for those experiments
- CWODMR
- Pulsed ODMR
- Rabi Oscillations
- Ramsey (similar usage for spin/Hahn echo and dynamical decoupling)
Additionally, there are two notebooks that demonstrate some basic hardware tests
Most classes and methods contain docstrings that describe functionality, which you can discover through the python help() function.
Details of how the experiment classes work and how you can modify them are found in ExperimentsDoc.md
Help to automatically generate documentation would be appreciated.
The console program qt3scope
comes with this package. It allows you to run
a simple program from the command-line that reads the count rate on a particular
digital input terminal on the NI DAQ.
Review the available command line options for the program. Pay special attention
to the --signal-terminal
option, ensuring that terminal value matches the current
hardware setup.
> qt3scope --help
If default settings are correct, then should be able to run without options
> qt3scope
The console program qt3scan
comes with this package. This program launches
a GUI applications that will perform a confocal scan using the Jena system
piezo actuator.
The run-time options available are very similar to qt3scope
.
Review the available command line options for the program. Pay special attention
to the --signal-terminal
option, ensuring that terminal value matches the current
hardware setup.
> qt3scan --help
If default settings are correct, then should be able to run without options
> qt3scan
The console program qt3piezo
comes installed via the 'nipiezojenapy' package, and may be launched from the command line.
> qt3piezo
Similarly, this applications can be configured via command line options to match the haredware setup.
If you wish you make changes to qt3-utils (and hopefully merge those improvements into this repository), here are some brief instructions to get started. These instructions assume you are a member of the QT3 development team and have permission to push branches to this repo. If you are not, you can instead fork this repo into your own GitHub account, perform development and then issue a pull-request from your forked repo to this repo through GitHub. Alternatively, reach out to a maintainer of this repo to be added as a developer.
Use Conda, venv or virtualenv with Python = 3.9.
> conda create --name qt3utilsdev python=3.9
As of this writing, we have primarily tested and used Python 3.9. Reach out to a Maintainer to discuss moving to newer versions of Python if this is needed.
> conda activate qt3utilsdev
> git clone https://github.com/qt3uw/qt3-utils.git
> cd qt3-utils
> pip install -e .
The pip install -e .
command installs the package in editor mode.
This allows you to make changes to the source code and immediately
see the effects of those changes in a Python interpreter. It saves
you from having to call "pip install" each time you make a change and
want to test it.
It's generally good practice to first create an Issue in this GitHub repository which describes the problem that needs to be addressed. It's also a good idea to be familiar with the current Issues that already exist. The change you want to make may already be reported by another user. In that case, you could collaborate with that person.
> git checkout -b X-add-my-fancy-new-feature
where it's good practice to use X to refer to a specific Issue to fix in this repository.
You should create a new branch only for a specific piece of new work
that will be added to this repository. It is highly discouraged to create
a separate branch for your microscope only and to use that branch
to perform version control for Python scripts or Jupyter notebooks
that run experiments.
If you need version control for your exerpiment scripts and notebooks, you
should create a separate git repository and install qt3utils
in the normal way (pip install -U qt3utils
) in a Python environment
for your experimental work. If you need to have recent changes to qt3utils
published to PyPI for your work, reach out to a Maintainer of this
repo to ask them to release a new version.
We do not have an official style convention, unfortunately. However please try to follow best-practices as outlined either in PEP 8 styleguide or Google's styleguide. There are other resources online, of course, that provide "best-practices" advice. Having said that, you will certainly find places where I've broken those guides. (Ideally, somebody would go through with a linter and fix all of these.). Please heavily document your source code.
We do not have an automatic test rig. This could be added by somebody if desired. But that could be complicated given that this code requires specific local hardware and the setup for each experiment is likely to be different. So, be sure to test your code rigorously and make sure there are no unintended side-effects.
Historically, documentation for this project has been "just okay". Please
help this by adding any documentation for your changes where appropriate.
There is now a docs
folder that you can use to include any major
additions or changes.
Once development and testing are complete you will want to push your branch to Github in order to merge it into the rest of the code-base.
When you first push a branch to Github, you will need to issue this command.
> git push -u origin X-add-my-fancy-new-feature
As you add more commits to your branch, you'll still want to push those changes every once in a while with a simple
> git push
(assuming that X-add-my-fancy-new-feature is your current local working branch)
Finally, before you issue a pull request, you will want to synchrononize your branch with any other changes made in 'main' to ensure there are no conflicting changes.
This is the following "flow" that has been used successfully in various development projects. However, there are other ways to do this.
> git checkout main
> git pull
> git checkout X-add-my-fancy-new-feature
> git rebase main
> git push -f
The series of commands above will pull down new changes from
Github's main branch to your local working copy. The rebase
command will then "replay" your changes on top of the
most recent HEAD of the main branch. If there are conflicts,
git will notify you and you will be forced to fix those
conflicts before continuing with the rebase. If it seems too
complicated, you can git rebase --abort
to recover and
then figure out what to do next. Reach out to a more experienced
colleague, perhaps, for help.
The final git push -f
is necessary (if there were indeed new
commits on the main branch) and will "force" push your branch
to Github. This is necessary due to the way git works.
You should then test your local branch with your hardware again!
This particular flow has the benefit of making a very clear git history that shows all the commits for each branch being merged in logical order.
Instead of following the instructions above, you may consider trying GitHub's "rebase" option when issuing a pull request. It will attempt the same set of operations. However, you may not have the opportunity to test the changes locally.
At the top of this qt3-utils GitHub repository is a 'pull-request' tab, from where you can create a request to merge your branch to another branch (usually you merge to main)
When you issue a pull request, be very clear and verbose about the changes you are making. New code must be reviewed by another colleague before it gets merged to master. Your pull request should include things like
- a statement describing what is changed or new
- a reference to the Issue being fixed here (Github will automatically generate a handy link)
- a statement describing why you chose your specific implementation
- results of tests on your hardware setup, which could be data, screenshots, etc. There should be a clear record demonstrating functionality.
- a Jupyter notebook in the "examples" folder that demonstrate usage and changes
- documentation
Before asking a colleague to review your changes, it's generally a good idea to review the changes yourself in Github. When you see your updates from this perspective you may find typos and changes that you wish to address first.
Due to our lack of a test rig, merging should be done with care and code reviews should be taken seriously. If you are asked by a colleague to review their code, make sure to ask a lot of questions as you read through it. You may even want to test the branch on your own setup to ensure it doesn't break anything.
If you and your reviewer decide changes are needed, go back to your branch, make changes and push new commits. Repeat steps 7, 8, 10, 11 and 12 until you are satisfied.
If you are satisfied and confident that your changes are ready, and your reviewer has approved the changes, press the green Merge button.