This repo provides the file juliapkgs.bib
(WIP) that contains several entries for many popular and personally useful Julia packages. The repo was inspired by Miles Cranmer python repo.
Note that if a peer-reviewed publication is available for a given Julia package, this is choosen as the default work to cite. Otherwise the github repo or other sources are used.
All keys use lowercase for the package name and contain the .jl
extension, the only exception is the julia language itself which is just \cite{julia}
. The year and author have been excluded.
Citation Key | Package | Use |
---|---|---|
\cite{julia} |
Julia Language | Programming Language |
\cite{chemistryfeaturization.jl} |
ChemistryFeaturization.jl | Featurization schema |
\cite{dataframes.jl} |
DataFrames.jl | Data structures |
\cite{dftk.jl} |
DFTK.jl | Electronic structure |
\cite{differentialequations.jl} |
DifferentialEquations.jl | Solver library |
\cite{distributions.jl} |
Distributions.jl | Probability |
\cite{drwatson.jl} |
DrWatson.jl | Workflow mangement |
\cite{flux.jl} |
Flux.jl | Deep learning framework |
\cite{franklin.jl} |
Franklin.jl | Static websites |
\cite{geometricflux.jl} |
GeometricFlux.jl | Graph neural networks |
\cite{jump.jl} |
JuMP.jl | Optimization |
\cite{latexify.jl} |
Latexify.jl | Latex representations |
\cite{luxor.jl} |
Luxor.jl | Drawing graphics |
\cite{makie.jl} |
Makie.jl | Plotting and visualization |
\cite{measurements.jl} |
Measurements.jl | Uncertainty propagation |
\cite{metaheuristics.jl} |
Metaheuristics.jl | Advanced optimization |
\cite{mlj.jl} |
MLJ.jl | Machine learning framework |
\cite{ohmyrepl.jl} |
OhMyREPL.jl | REPL enhancement |
\cite{plots.jl} |
Plots.jl | High-level plotting |
\cite{pluto.jl} |
Pluto.jl | Notebook environment |
\cite{pptx.jl} |
PPTX.jl | Presentation slides |
\cite{revise.jl} |
Revise.jl | Julia REPL tool |
\cite{scikitlearn.jl} |
ScikitLearn.jl | API for scikit-learn1 |
\cite{symbolics.jl} |
Symbolics.jl | Symbolic programming |
\cite{symbolicregression.jl} |
SymbolicRegression.jl | Symbolic expression search |
\cite{taylorseries.jl} |
TaylorSeries.jl | Polynomial expansion |
\cite{turing.jl} |
Turing.jl | Probablistic programming |
\cite{unitful.jl} |
Unitful.jl | Physical units |
\cite{zygote.jl} |
Zygote.jl | Automatic differentiation |
- The
bib
entries contain unicode so its recommended to useLuaLaTeX
orXeLaTeX
when compiling. - Many
\bibliographystyle
settings/styles won't handle@misc
or@software
entries very well (#1), therefore, I suggest usingBibLaTeX
.
Here is an example on Overleaf.
The following will cite all packages:
\cite{julia, chemistryfeaturization.jl, dataframes.jl, dftk.jl, differentialequations.jl, distributions.jl, drwatson.jl, flux.jl, franklin.jl, geometricflux.jl, jump.jl, latexify.jl, luxor.jl, makie.jl, measurements.jl, metaheuristics.jl, mlj.jl, ohmyrepl.jl, plots.jl, pluto.jl, pptx.jl, scikitlearn.jl, symbolics.jl, symbolicregression.jl, taylorseries.jl, turing.jl, unitful.jl, zygote.jl}
There are four classes of bibtex
entries used in juliapkgs.bib
: @article
, @software
, @misc
, and @inproceedings
. The use of @misc
instead of @software
is a bit arbitary.
The juliapkgs.bib
file is checked and reformatted using the command/github-action:
biber --tool --validate-datamodel juliapkgs.bib
The github-action will create a release with the processed .bib
file.
Pull request for updates/edits to existing entries or adding new entries are most certainly welcomed. Please be sure to use one of the classes indicated in the standardization section above. For any major restructuring of the juliapkgs.bib
or the README.md
files, please open an issue first to discuss changes.
Footnotes
-
Citing this package also would likely require citing the python library. ↩