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GSoC 2023 Projects
AiiDA is a python framework for managing computational science workflows, with roots in computational materials science. It helps researchers manage large numbers of simulations (10k, 100k, 1M, ...) and complex workflows involving multiple executables. At the same time, it records the provenance of the entire simulation pipeline with the aim to make it fully reproducible.
AiiDA is used in research projects at universities, research institutes and companies (see SciPy 2020 talk, SciPy 2022 talk, publications, and testimonials).
To be considered as a GSoC student, we ask you to make a small pull request to aiida-core
, or any active repositories in aiidateam and aiidalab organizations - could be a simple bug fix, improving the documentation, etc. See e.g. (for aiida-core
)
Say hi on our GSOC 2023 discussions page.
- Help accelerate the transition to open (computational) science
- Help fix the reproducibility crisis. Computational science is a good place to start.
- Work with a team of computational scientists (mostly physics backgrounds) who are passionate about both science and coding.
We have an active Slack workspace & biweekly developer meetings.
A background in materials science is not needed, but a basic interest in materials science topics will make things easier for you.
Level intermediate
Expected Size 350h
For beginners and even for the experienced AiiDA user, setting up computers and codes is still a tedious mission. If using the interactive mode, although it is good that options are prompted up and the user can set every option one by one carefully, it requires going through all options even if some are not necessary and time-consuming for a similar setup that have shared options with other code/computer setup.
The computer/code can be set up from a YAML file, and we provide a repository aiida-code-registry to store the YAML files for public computers and codes to share with others. Need to mention that the interactive setup command can accept a URL of a remote YAML file for setup. This makes it possible to not download/clone the aiida-code-registry
repo to use the YAML to set up the computer/code.
- Set up the computer/code from the template config file.
- Redesign the folder structure of
aiida-code-registry
repository and corresponding registry page for users to upload/change and fetch the computer/code config files.
We expect you to be familiar with python programming and have experience with the Jinja templating engine. It will be beneficial if students have experience in web development (REST API, HTML etc.)
Level intermediate
Expected Size 350h
AiiDA has a flexible plugin system that allows extending most aspects of the code, such as adding new calculations, parsers, workflows, data types, verdi commands, schedulers, and even transports (see video). The AiiDA plugin registry is a web page, where developers can register their plugins (via the connected GitHub repo), so others in the community can find them, use them and, collaborate on them.
The registry currently lists the development status, aiida-core
compatible version, and information about the extensions (entry points) each plugin provides, and links out to the plugin's source code, documentation, etc.
While this information is useful for finding plugins, it is currently not straightforward to understand what capabilities a plugin provides and how well maintained / popular it is, as plugins are simply listed in alphabetic order.
The long-term goal here is to transform the AiiDA plugin registry from a list of software packages into a list of capabilities (a user should be able to search for "geometry relaxation" and find plugins that provide calculations/workflows for this). In this project, we will take first steps, by taking advantage of existing capabilities in AiiDA to extract additional information about plugin entry points and collecting indicators of development/user activity, such as most recent release, number of downloads, etc.
We expect an overhaul of the AiiDA plugin registry web page that provides
- additional information about calculations, workflows, data types of the plugins
- a more useful sort order (e.g. based on most recent release / number of downloads / ...)
- (bonus) a search box to search the entire website, including sub pages
The current registry web page is created from a JSON document containing the plugin metadata via a home-built static HTML generator. We propose switching to the React javascript framework, but are open to alternative routes (to be discussed).
We expect you to be familiar with programming in python and know how GitHub action works. Some familiarity with web development such as HTML, Javascript and/or React will be helpful.
TBD
level advanced
Expected Size 350h
AiiDA automatically stores entities in its database and links them forming a directed graph. This directed graph automatically tracks the provenance of all data produced by calculations or returned by workflows. This project plan to provide a more intuitive tool for browsing AiiDA graphs using the interactive browser. We can use an open-source library for node graph (e.g. Rete) or build it from scratch. The node graph viewer will communicate with AiiDA with the REST API.
An AiiDA node graph viewer
- allows the user to explore the AiiDA provenance dynamically, e.g. forward and backward along the provenance graph.
- shows input and output nodes of a selected node.
- allows preview of the node
Python, REST API, HTML, Javascript, React, or Vue.
- Jusong Yu @unkcpz
- Xing Wang @superstar54
The mentors for GSOC 2023 are
- Jusong Yu @unkcpz
- Xing Wang @superstar54
- Marnik Bercx @mbercx
Please use the GSOC 2023 discussion thread to say hi and ask any questions you may have.