pulsars
There are 2 repositories under pulsars topic.
- stingray
StingraySoftware / stingray
Anything can happen in the next half hour (including spectral timing made easy)!
Language:Python 163 thepetabyteproject / your
Your Unified Reader
Language:Python 32Shell scripts for spectral-timing analysis of X-ray astronomical data.
Language:Jupyter Notebook 23- Language:Jupyter Notebook 16
FRBs / sigpyproc3
Python3 version of Ewan Barr's sigpyproc library
Language:Python 14ymaan4 / RFIClean
Mitigation of periodic as well as narrow-band and spiky/bursty RFI from time-domain filterbank data.
Language:C 12- Language:Python 11
vinayak1998 / Data_Driven_Astronomy
This repository contains my solutions to the course Data-driven Astronomy offered by The University of Sydney on Coursera
Language:Python 90xCoto / PSR-Toolkit
📡 An easy-to-use Pulsar Toolkit for Pulsar Astronomy...
Language:Python 8josephwkania / jess
Python based Radio Frequency Interference Mitigation Routines
Language:Python 8CHIMEFRB / fitburst
An open-source package of utilities for direct modeling of radio dynamic spectra.
Language:Python 7devanshkv / pysigproc
Simple pure-python3 module for working with filerbank (aka Sigproc) format files.
Language:Jupyter Notebook 6Singularity containers with common radio transient search software.
Language:Singularity 6kiranshila / FastDMTransform.jl
Fast Dispersion Measure Transform implemented in Julia
Language:Julia 6- Language:Python 5
louisbondonneau / NenuPlot
NenuPlot is a PSRFITS merging (in time and frequency) and cleaning pipeline
Language:Python 5jayanthc / yapp
Yet Another Pulsar Processor (YAPP) is a suite of radio pulsar data analysis software.
Language:C 4abhisrkckl / GWecc
GWecc is a C++ code that computes the pulsar timing array (PTA) signals induced by eccentric supermassive binaries.
Language:C++ 3AndreFCruz / feup-iart
Repository to host Artificial Intelligence projects, a third year unit @FEUP. Made in collaboration with @EdgarACarneiro and @jflcarvalho.
Language:Jupyter Notebook 3DarkWake9 / IceCube-Package
This repository contains the code used to perform the analysis described in the paper "A stacked search for spatial coincidences between IceCube neutrinos and radio pulsars" (https://arxiv.org/abs/2306.03427). The code is written in Python 3.10 and uses the following packages: numpy, scipy, matplotlib, pandas, numba, multiprocessing.
Language:Jupyter Notebook 3GWecc.jl: Pulsar timing array signals due to eccentric supermassive binaries
Language:Julia 2- Language:Jupyter Notebook 2
- Language:Python 2
- Language:Python 2
Toolkit for working with astronomical radio transients in the SIGPROC Filterbank format in Julia
Language:Julia 2- Language:Python 2
- Language:C++ 2
StepanRepo / AnTi-pipeline
AnTi pipeline
Language:C++ 2UtsavMurarka / Pulsar-identification
Identifying Pulsar Signals from RFI noise (HTRU2 dataset)
Language:Jupyter Notebook 2- pulsar-nulling
cgobat / pulsar-nulling
Analysis of radio pulsar parameters and their relationships with nulling statistics
Language:Jupyter Notebook 1 charitarthchugh / PulsarIdentification
Identifying Pulsars using PyTorch.
Language:Jupyter Notebook 1ericdhitchens / Classifying_Pulsars_from_HTRU2
How would you correctly classify pulsars from a dataset that consists mostly of astronomical noise? In this project, I construct 5 machine learning models and analyze their performance to find a winner.
Language:Jupyter Notebook 1fjankowsk / meertrapdb
Database backend and survey analysis code for MeerTRAP.
Language:Python 1Match single-pulse detections to known sources, such as canonical pulsars or Rotating Radio Transients.
Language:Python 1- Language:C 1
supremeKAI40 / PulsarDetection
A logistic regression model to identify possible pulsar candidates using PyTorch
Language:Jupyter Notebook 1
