manpreet2310's repositories
uibk_parsys_20
Lecture and lab material for the Parallel Systems course of the University of Innsbruck
AST4310-project_6-Project-6a-3D-Line-Formation
Last project in AST4310
MonteCarlo_astro_course
Examples for the course Monte Carlo Methods in Astrophysics
publication-code
Code to reproduce the results in my first author publications
Data_Driven_Science_Python_Demos
IPython notebooks with demo code intended as a companion to the book "Data-Driven Science and Engineering: Machine Learning, Dynamical Systems, and Control" by J. Nathan Kutz and Steven L. Brunton
hermes-examples
Examples for HERMES
ehm2
Further work with the effective halo model
Plotting_Notebooks
Plotting Notebooks Backups
AstrostatisticsWorkshop
Introduction to Astrostatistics Workshop repository
IMLup
Code and files from Masters thesis which models the dust distribution in the protoplanetary disk IMLup
machine-learning-with-solar-data
Predict solar eruptions using data from the NASA Solar Dynamics Observatory together with machine learning methods
bachproef-wis-T2
Repository for the second semester bachelor project for mathematics
eindproject-2
Repo for the second bachelor proof
DataScience-Course01
Course materials for Fundamentals of Data Science
stochastic-parker-1
Solving Parker's cosmic ray transport equation using stochastic method
DRAGON
First version of the code - last update Dec 2015
33-777
repository for "Introductory Astrophysics"
SNR_Astro6410
Code & data used in a final project. Applying generative classification to supernova remnant-based emission features.
ast2210_h19-A-solar-physics-assignment-created-for-AST2210
A solar physics assignment created for AST2210
qsosed
Python module to compute the SED of an AGN following Kubota & Done (2018).
Pulsar-Star
Predicting the Pulsar star (Pulsar star is A pulsar (from pulse and -ar as in quasar) is a highly magnetized rotating neutron star that emits beams of electromagnetic radiation out of its magnetic poles. ... Neutron stars are very dense, and have short, regular rotational periods.)
uibk_parsys_19
Lecture and lab material for the Parallel Systems course of the University of Innsbruck
sedmodel
Spectral modeling code for AGN
Python
:snake: Python Programs