Git

A list of public Git repositories created by @paveloom.

Apps [GH]:

• Eiri [GH]
• fltk-rs-playground [GH]: A playground to test all things fltk-rs #fltk-rs
• hello-world [GH]: A hello-world Tauri app #hello-world #tauri
• julialang-slack-history [GH]: A read-only Slack clone for reading history from julialang.slack.com #julia #svelte #slack-clone
• Shuchu [GH]

Complex [GH]:

• C1 [GH]: A Fortran module for computing a correlogram and a periodogram of one-dimensional non-uniform time series #time-series #fortran #astronomy
• C2 [GH]: A comparison of covariance functions used to inference stellar rotation periods of stars #astrophysics #gaussian-processes #stellar-rotation
• C3 [GH]: A Fortran module for performing spectral correlation analysis of time series #fortran #time-series-analysis
• C3.1 [GH]: SCATS interface with a backend written in C++ and a frontend written in Python #python #c-plus-plus #time-series-analysis
• GPKernels [GH]: Study of the influence of selection of kernels for Gaussian processes on the modeling of light curves #astronomy #gaussian-processes
• paveloom-c.github.io [GH]: A root repository for GitHub Pages

Docker [GH]:

• binder-base [GH]: Yet another base image for Binder #binder #jupyter #binder-ready
• binder-julia [GH]: Basically, paveloom/binder-base + Julia #binder #jupyter #julia #binder-ready
• binder-julia-plots [GH]: If paveloom/binder-julia and paveloom/binder-tex had a baby #tex #binder #jupyter #julia #binder-ready
• binder-tex [GH]: Basically, paveloom/binder-base + TeX dependencies #tex #binder #jupyter #binder-ready
• dev [GH]: An OCI compliant image containing my personal development environment #docker #image #oci #development-environment

Forks [GH]:

• codestats-box-python [GH]: Update a pinned gist to contain your Code::Stats #python #codestats
• lbry-android [GH]: The LBRY Android app (now without a blacklist) #lbry #lbry-android
• lbry-desktop [GH]: A browser and wallet for LBRY, the decentralized, user-controlled content marketplace (now without a blacklist) #lbry #lbry-desktop
• scm-music-player [GH]: Seamless music for your website. HTML5 music player with continuous playback cross pages. #music #player
• waka-box [GH]: Update a pinned gist to contain your weekly WakaTime stats #javascript #wakatime

Minor [GH]:

• Makefiles [GH]: Makefile templates for compiling programs and publishing code on GitHub #git #makefile
• QtSettingsDemo [GH]: Settings file generator: demonstration of the graphical interface created using Qt in the Qt Creator environment #qtcreator #qt5-gui

Other [C] [GH] [GL]:

• OrgAvatars [GH] [GL]: Organizations’ avatars
• IDs [GH]: IDs for identification (psychological process)
• A LaTeX-PGF-TikZ Animation [C] [GH] [GL] [SH]: Instructions for how to convert a PGF/TikZ picture with variable data in an animation

Personal [C] [GH] [GL] [SH]:

• Exercism [GH]: Exercism exercises completed by @paveloom
• old_wiki [GH]: An old version of Pensieve, powered by Franklin #julia #franklin
• OpenSearchDescriptionFiles [GH]: Custom OpenSearch description files #search-engine #opensearch
• Paveloom [GH]: A special repository to manage my GitHub profile’s landing page #github-readme
• Site [C] [GH] [GL] [SH]: Personal website #zola #tera #sass

Julia [GH]:

• Exceptions.jl [GH]: Easy exception creation #julia #exceptions #exception-handling
• HillRegions.jl [GH]: A recipe to plot Hill regions #julia #hill-regions
• paveloom-j.github.io [GH]: A root repository for GitHub Pages
• PaveloomRegistry [GH]: A personal Julia packages registry #julia #julia-registry
• PDFHighlights.jl [GH]: Export highlights from PDF files to a CSV file with one call #pdf #csv #julia #poppler
• Scats.jl [GH]: Spectral correlation analysis of time series (not supposed to be used) #time-series #julia #periodogram #time-series-analysis #correlogram

University [C] [GH] [GL]:

• Astrometric Workshop Summer 2019 [GH]: Scripts and programs from the astrometric workshop #observations #astronomy #astrometry
• Astrophysical Workshop Summer 2021 [GL]: Materials developed during the laboratory work at the astrophysical workshop #astronomy #astrophysics #tectonic #xetex #julia
• 1st Semester (2017) — 3rd Semester (2018)
  • Programming-Exercises-S01-2017-to-S03-2018 [GH]: An archive of the first programming exercises #fortran #exercises
• 4th Semester (2019)
  • Optics Laboratory Workshop S04-2019 [GH]: Computational scripts for reports for the optics laboratory workshop #laboratory-exercises #r
  • Programming Course S04-2019 [GH]: Using Fortran interface to the GNU Scientific Library, parallelizing code with OpenMP and MPI #fortran #openmp #mpi
  • Computational Workshop S04-2019 [GH]: Matrices multiplication, Newton’s / Lagrange’s interpolation, Gauss’s / Seidel’s methods for solving a system of linear differential equations, numerical differentiation, spline interpolation, Fourier transform #fortran #exercises #numerical-methods-implementation
• 5th Semester (2019)
  • Computational Workshop S05-2019 [GH]: Gauss’s quadrature formula, computing integrals from functions with singularities, computing multiple integrals by the Monte Carlo method, solving ODE numerically, least-squares method, QR algorithm, Jacobi eigenvalue algorithm, solving boundary value problems #fortran #exercises #numerical-methods-implementation
  • Python Programming Course S05-2019 [GH]: Scripts from the Python programming course #python #game-of-life
• 6th Semester (2020)
  • Celestial Mechanics S06-2020 [GH]: Calculating the ephemeris, determining the preliminary orbit #fortran #astronomy
  • Astronomical Software Course S06-2020 [GH]: Procedures and programs from the Astronomical Software course #astronomy #midas
• 7th Semester (2020)
  • Astronomical Observation Workshop S07-2020 [GH] : Materials developed during the laboratory work at the astronomical observation workshop
• 8th Semester (2021)
  • Computational Workshop S08-2021 [GH]: Solving Cauchy problems and stiff systems of differential equations, finding eigenvalues in symmetric matrices #julia #exercises #numerical-methods-implementation
• 9th Semester (2021) [GL]:
  • Celestial Mechanics Laboratory Workshop S09-2021 [C] [GH] [GL]: Finding a figure-8 solution to a three-body problem with arbitrary precision #celestial-mechanics #integration #julia
  • Computational Workshop S09-2021 [C] [GH] [GL]: Solving integral equations of the first kind, parabolic and elliptical partial differential equations #numerical-methods #integration #julia
  • Computer Methods of Celestial Mechanics S09-2021 [C] [GH] [GL] [SH]: Presentations on some of the computer methods considered in the course #celestial-mechanics #numerical-methods #ode-solver #julia
  • Stellar Astronomy Laboratory Workshop S09-2021 [C] [GH] [GL] [SH]: Calculation of orbits of globular clusters in several models of the Galaxy potential #astronomy #integration #rust #julia
  • Stellar Astronomy Special Workshop S09-2021 [GL]: Decomposition of a bimodal distribution function into two normal components by the maximum likelihood estimation method #astronomy #stellar #tectonic #xetex #julia