10.5281/zenodo.7746324
https://zenodo.org/records/7746324
oai:zenodo.org:7746324
Alex Nitz
Alex Nitz
Albert Einstein Institute - Hannover
Ian Harry
Ian Harry
Duncan Brown
Duncan Brown
Syracuse University
Christopher M. Biwer
Christopher M. Biwer
Los Alamos National Laboratory
Josh Willis
Josh Willis
Caltech/LIGO
Tito Dal Canton
Tito Dal Canton
Collin Capano
Collin Capano
Albert Einstein Institute
Thomas Dent
Thomas Dent
IGFAE
Larne Pekowsky
Larne Pekowsky
Syracuse University, Department of Physics
Soumi De
Soumi De
Los Alamos National Laboratory
Miriam Cabero
Miriam Cabero
University of British Columbia
Gareth S Cabourn Davies
Gareth S Cabourn Davies
University of Portsmouth
Andrew R. Williamson
Andrew R. Williamson
Privacy Hub by Datavant
Duncan Macleod
Duncan Macleod
Cardff University Gravity Exploration Institute (@cardiffgravity)
Bernd Machenschalk
Bernd Machenschalk
Francesco Pannarale
Francesco Pannarale
Prayush Kumar
Prayush Kumar
Steven Reyes
Steven Reyes
dfinstad
dfinstad
Sumit Kumar
Sumit Kumar
Márton Tápai
Márton Tápai
Shichao Wu
Shichao Wu
AEI
Leo Singer
Leo Singer
NASA Goddard Space Flight Center
veronica-villa
veronica-villa
Sebastian Khan
Sebastian Khan
Stephen Fairhurst
Stephen Fairhurst
Koustav Chandra
Koustav Chandra
IIT Bombay
Alex Nielsen
Alex Nielsen
Shashwat Singh
Shashwat Singh
l'Observatoire de Paris
Thomas Massinger
Thomas Massinger
gwastro/pycbc: v2.1.1 release of PyCBC
Zenodo
2023
2023-03-17
https://github.com/gwastro/pycbc/tree/v.2.1.1
10.5281/zenodo.596388
v.2.1.1
Other (Open)
This is the v2.1.1 release of PyCBC.
The 2.1.x release line will be reserved for production PyCBC Live analyses throughout the first part of O4, and possibly for the entire run, depending on development activities over the next year. It should therefore only contain backports related to PyCBC Live.
In particular, 2.1.1 fixes an incompatibility with recent lalsuite releases, adds the ability to apply arbitrary labels to events uploaded to GraceDB, and fixes a problem with the P(astro) calculation for very loud signals.
A Docker container for this release is available from the pycbc/pycbc-el8 repository on Docker Hub and can be downloaded using the command:
docker pull pycbc/pycbc-el8:v2.1.1
On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 8 compatible operating systems by running the command:
source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_8/virtualenv/pycbc-v2.1.1/bin/activate
A singularity container is available at /cvmfs/singularity.opensciencegrid.org/pycbc/pycbc-el8:v2.1.1 which can be started with the command:
singularity shell --home ${HOME}:/srv --pwd /srv --bind /cvmfs --contain --ipc --pid /cvmfs/singularity.opensciencegrid.org/pycbc/pycbc-el8:v2.1.1