Code and documentation for the first machine learning focused mock data challenge hosted by the Albert-Einstein-Institut Hannover and the Friedrich-Schiller Universität Jena.

A mock data study for 3G correlated confusion noise

Gravitational waves waveform models in pure Python language

A Fisher information matrix python package for GW detector networks.

Pipeline used for classifying BBH, NSBH, and BNS signals in LIGO data. Code used for "Matching Matched Filtering" paper.

Likelihood-Free Inference for Gravitational Waves

A Julia package for computing discrete eigenvalues of second order ODEs

COMPAS rapid binary population synthesis code

COSMIC (Compact Object Synthesis and Monte Carlo Investigation Code)

Investigation of biases on the parameters of GW sources in LISA and the Einstein Telescope from confusion noise of other resolved or unresolved signals.

Codes to reproduce results in the paper

A Fisher-matrix formalism for gravitational-wave population inference.

a python package for gravitational wave analysis with the F-statistic

Simulation of detector networks with Fisher-matrix PE

An algorithm to detect and characterize transient events in gravitational-wave detectors. To cite this software publication: https://www.sciencedirect.com/science/article/pii/S2352711020303332

This is the GitHub directory to reproduce all figures and results in the paper "Signatures of mass ratio reversal in gravitational waves from merging binary black holes"

Gravitational Wave Sensitivity Curve Plotter

Localization of gravitational-wave transients. Mirror of https://git.ligo.org/lscsoft/ligo.skymap

Predictions for LISA detectable BH and NS binaries - Wagg et al. (2022)

Package for making predictions about stellar-origin sources in space-based gravitational wave detectors

Prior Sampling for high dimension data with domain knowledge.

Public repository of the Multi_CLASS code

Python 3 post-processing tools for simulations performed with the Einstein Toolkit

A unified framework for stochastic sampling packages and gravitational-wave inference in Python.

A generalized precession parameter to interpret gravitational-wave data

A code for simulating gravitational waves and evaluating their detectability.

PINT is not TEMPO3 -- Software for high-precision pulsar timing