pycbc

There are 2 repositories under pycbc topic.

• gwastro / pycbc

  Core package to analyze gravitational-wave data, find signals, and study their parameters. This package was used in the first direct detection of gravitational waves (GW150914), and is used in the ongoing analysis of LIGO/Virgo data.

  astronomyphysicsgravityligogravitational-wavespycbcanalysispythonblack-holeneutron-stargwastrovirgosignal-processingopen-sciencecosmic-explorereinstein-telescopelisa
  Language:Python 307

• gwastro / PyCBC-Tutorials

  Learn how to use PyCBC to analyze gravitational-wave data and do parameter inference.

  pycbcjupyter-notebookastronomygravitational-wavesligovirgopythonopen-datasignal-processingtutorialsmatched-filteringbayesian-inferenceeinstein-telescopecosmic-explorerkagra
  Language:Jupyter Notebook 113

• gwastro / gwin

  A python package for Bayesian inference of gravitational-wave data

  gravitational-wavesligovirgopythonbayesian-inferenceparameter-estimationgravityastronomyblack-holeneutron-starphysicspycbc
  Language:Python 14

• gwastro / PyCBCInferenceWorkshopMay2019

  Repository for the PyCBC Inference workshop in Portsmouth, UK, 14 May - 16 May 2019.

  workshoppycbcgravitational-wavesligovirgobayesian-inferencedata-analysis
  Language:Jupyter Notebook 13

• gwastro / gw150914_investigation

  Investigating the noise residuals around the gravitational wave event GW150914

  gw150914ligogravitational-wavesblack-holepycbc
  Language:Jupyter Notebook 12

• gwastro / 1-ogc

  First Open Gravitational-wave Catalog of Compact Binary Mergers from Advanced LIGO's first observing run.

  neutron-starblack-holegravitational-wavespycbcligoopen-scienceopen-datadata-release
  Language:Shell 11

• gwastro / 4-ogc

  Fourth Open Gravitational-wave Catalog of Compact Binary Mergers (4-OGC). Using the data from LIGO and Virgo from 2015-2020, a comprehensive catalog including 94 detected mergers (90 BBH, 2 BNS, 2 NSBH) and sub-threshold candidates throughout O1, O2, O3a, and O3b..

  gravitational-wavesblack-holesneutron-starsligovirgopycbcdata-release4-ogc
  Language:HTML 11

• gwastro / pycbc-config

  Configuration files for the PyCBC-based online and offline searches.

  open-sciencepycbcgravitational-wavesastronomy
  Language:Shell 8

• gwastro / pycbc-inference-paper

  Data Release associated with the PyCBC Inference paper. This includes posterior samples for GW150914, LVT151012, and GW151226 along with configuration files and run scripts,

  gravitational-wavesblack-holemcmcbayesian-inferencegw150914gw151226lvt151012ligopycbcdata-release
  Language:Jupyter Notebook 7

• sugwg / gw170817-inclination-angle

  Measuring the viewing angle of GW170817 with electromagnetic and gravitational waves

  gw170817gravitational-wavesligovirgoparameter-estimationastronomybayesian-inferencepycbc
  Language:Jupyter Notebook 7

• gwastro / gwapps

  Interactive Web Apps to Explore Gravitational Waves

  mybinderjupyter-notebookpycbcgravitational-wavesligovirgo
  Language:Jupyter Notebook 5

• gwastro / gw150914-fig4b

  Scripts to reproduce the right hand plot shown in Figure 4 of https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.116.061102

  gwoscligopegasuspycbcworkflow
  Language:Shell 4

• gwastro / o1-gwgrb

  Supplementary materials for our GW-GRB search of the first observing run of advanced LIGO.

  gamma-ray-burstgravitational-wavesneutron-starpycbcligodata-releaseopen-science
  Language:Jupyter Notebook 4

• gwastro / o2-bbh-pe

  Data Release of posterior samples from PyCBC Inference analysis of the binary black-hole signals GW170104, GW170608 and GW170814 in Advanced LIGO-Virgo's second observing run. This repository also includes configuration files and run scripts to run the analyses.

  bayesian-inferenceopen-scienceopen-datagw170104gw170608gw170814pycbcdata-release
  Language:Jupyter Notebook 4

• gwastro / stellar-pbh-search

  Associated data release to the search for mergers of stellar-mass and sub-solar mass black holes

  gravitational-wavesblack-holesligopycbcprimordial-black-holesdark-matter
  Language:Jupyter Notebook 4

• kelvin1020 / matchGW

  Matched filtering with pyCBC, Click -->

  binderpycbc
  Language:Jupyter Notebook 4

• sugwg / gw170817-common-eos

  Results from the common equation of state constraint analysis of GW170817

  astronomybayesian-inferencegravitational-wavesgw170817ligoparameter-estimationpycbcvirgo
  Language:Jupyter Notebook 4

• gwastro / bns-eccentric-pe

  Parameter estimates for the eccentricity of GW170817 and GW190425

  gw190425gw170817eccentricitygravitational-wavesdata-releasepycbcbayesian-inference
  3

• gwastro / GW190521

  Posterior samples for GW190521, the heaviest observed binary merger yet.

  gravitational-wavesgw190521data-releasepycbcligovirgobayesian-inference
  3

• gwastro / gwastro.github.io

  gravitaitonal-wavessignal-processingpycbcastronomyblack-holeneutron-starmergersligovirgo
  Language:HTML 3

• gwastro / binary-black-hole-spectroscopy

  Data release for "Binary black hole spectroscopy: a toupee test of GW190814 and GW190412"

  gravitational-wavesgw190814gw190412black-holepycbcdata-releasebayesian
  Language:Jupyter Notebook 2

• gwastro / eccentric-bns-search

  Candidates from the O1 + O2 search for eccentric binary neutron star mergers

  gravitational-wavesneutron-stardata-releaseopen-sciencepycbcligo
  Language:Shell 2

• SSingh087 / DL-estimating-parameters-of-GWs

  https://doi.org/10.1093/mnras/stab2417

  convolutional-neural-networkdeep-learninggravitational-wavespycbc
  Language:Python 2

• gwastro / docker-pycbc-base-el7

  Base CentOS 7 derived container for PyCBC installation

  pycbcligogravitational-wavesdocker-imageastronomyphysics
  Language:Dockerfile 1

• gwastro / pycbc-logo

  Source files for the PyCBC logo

  logospycbcgravitational-waves
  1

• gwastro / single-search

  Data release for the BBH / BNS search of single-detector LIGO data during O1 and O2.

  pycbcblack-holesneutron-starsgravitational-wavesligovirgodata-releasegw190425170817
  1

• neeresh / GravWave-AppleM2-Analysis

  The Apple Silicon Gravitational-Wave Cluster project utilizes the power of Apple Silicon M2 processors to construct a high-performance cluster tailored for gravitational-wave astronomy.

  apple-silicongravitational-waveshpchtcondorlalsuitemacospegasus-wmspycbc
  Language:Shell 1

• smukhe-gh / SpinTaylorF2-PE

  Analysis of spin-harmonic modes of SpinTaylorF2 waveform model

  ligodata-analysisspintaylorf2-waveformpycbc
  Language:C 1

• SSingh087 / lensGW

  gravitational-lensinggravitational-wavespycbc
  Language:Python 1

• SSingh087 / lensGW-PyCBC-plugin

  plugin for waveform

  gravitational-lensinggravitational-wavespycbc
  Language:Python 1

• sugwg / rapid-relbin-pe

  Fast Parameter Estimation of Binary Mergers for Multimessenger Followup

  gravitational-wavesligovirgoparameter-estimationbayesian-inferenceastronomypycbc
  Language:Jupyter Notebook 1

• ahnitz / lal

  binary distribution of a minimum set of lalsuite tools in a python wheel format

  gravitational-wavesastronomyligolalsuitepycbcpythonphysics
  Language:Python

• drnkyda / Minor-Project-2023

  This repository contains Akshita's work on her minor degree in Data Science.

  bayesian-statisticsgravitational-wavespycbcmultimessenger-astronomy
  Language:Jupyter Notebook

• NiloofarESF1996 / Detection_of_Gravitational_Waves

  Detection of Gravitational Waves

  gravitational-waveslalsuitemachine-learningnumpypycbcpythonscikit-learnscipytopological-data-analysis
  Language:Jupyter Notebook