Post-O2 release 12H

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation. (Note that v1.11.2 and v1.11.3 failed to build for different reasons, as did v1.11.5 through v1.11.7, and v1.11.9 through v1.11.12). Additionally, a bug-fix affecting multi-core jobs that read from HDF files has been applied (as in v1.11.8) and also a bugfix for cases when an injection is longer than the filtering window. Finally, changes to the Travis test infrastructure to drop the need for LSC authentication have also been added, as well as a change to use a specific version of the config files during the workflow Travis test.

This release has been tested against LALSuite with the hash:

89a30fcf86f5d23455303e32051a87b0e3c3084a

Details of the changes since the 1.10.1 release are at v1.10.1...v1.11.13

A Docker container for this release is NOT available from the pycbc/pycbc-el7 repository on Docker Hub. Please see other releases for docker containers.

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.11.13/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.11.13/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.11.13/pycbc_inspiral

Post-O2 release 12G

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation. (Note that v1.11.2 and v1.11.3 failed to build for different reasons, as did v1.11.5 through 1.11.7). Additionally, a bug-fix affecting multi-core jobs that read from HDF files has been applied (as in v1.11.8) and also a bugfix for cases when an injection is longer than the filtering window. Finally, changes to the Travis test infrastructure to drop the need for LSC authentication have also been added.

Post-O2 release 12F

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation. (Note that v1.11.2 and v1.11.3 failed to build for different reasons, as did v1.11.5 through 1.11.7). Additionally, a bug-fix affecting multi-core jobs that read from HDF files has been applied (as in v1.11.8) and also a bugfix for cases when an injection is longer than the filtering window.

Post-O2 release 12E

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation. (Note that v1.11.2 and v1.11.3 failed to build for different reasons, as did v1.11.5 through 1.11.7). Additionally, a bug-fix affecting multi-core jobs that read from HDF files has been applied.

1.12.2 Release

This is the 1.12.2 release of pycbc PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This contains patches to enable choosing low frequency cutoffs per detector for parameter estimation, and continues working on improving python3 compatibility in unittests.

This release has been tested against LALSuite with the hash:

89a30fcf86f5d23455303e32051a87b0e3c3084a

Details of the changes since the 1.12.1 release are at v1.12.1...v1.12.2

A Docker container for this release is NOT available from the pycbc/pycbc-el7 repository on Docker Hub. Please see other releases for docker containers.

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.12.2/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.12.2/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.12.2/pycbc_inspiral

Post-O2 release 12D

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation. (Note that v1.11.2 and v1.11.3 failed to build for different reasons). Additionally, a bug-fix affecting multi-core jobs that read from HDF files has been applied.

This release has been tested against LALSuite with the hash:

89a30fcf86f5d23455303e32051a87b0e3c3084a

Details of the changes since the 1.10.1 release are at v1.10.1...v1.11.5

A Docker container for this release is NOT available from the pycbc/pycbc-el7 repository on Docker Hub. Please see other releases for docker containers.

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.11.5/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.11.5/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.11.5/pycbc_inspiral

Post-O2 release 14

This is the thirteenth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run.

This packages includes updates to the available conversions and begins the move from weave to cython. Python 3 installation is now possible, though most features will be non-functional or broken.

This release has been tested against LALSuite with the hash:

0231cca7eb1af128de63a8d22a27ccc5099f4c7b

Details of the changes since the 1.11.1 release are at v1.11.1...v1.12.1

A Docker container for this release is available from the pycbc/pycbc-el7 repository on Docker Hub and can be downloaded using the command:

docker pull pycbc/pycbc-el7:v1.12.1

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.12.1/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.12.1/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.12.1/pycbc_inspiral

Post-O2 release 12C

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation. (Note that v1.11.2 and v1.11.3 failed to build for different reasons)

This release has been tested against LALSuite with the hash:

89a30fcf86f5d23455303e32051a87b0e3c3084a

Details of the changes since the 1.10.1 release are at v1.10.1...v1.11.1

A Docker container for this release is NOT available from the pycbc/pycbc-el7 repository on Docker Hub. Please see other releases for docker containers.

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.11.4/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.11.4/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.11.4/pycbc_inspiral

Post-O2 release 12B

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation.

This release has been tested against LALSuite with the hash:

89a30fcf86f5d23455303e32051a87b0e3c3084a

Details of the changes since the 1.10.1 release are at v1.10.1...v1.11.1

A Docker container for this release is NOT available from the pycbc/pycbc-el7 repository on Docker Hub. Please see other releases for docker containers.

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.11.3/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.11.3/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.11.3/pycbc_inspiral

Post-O2 release 12A

This is a re-release of the twelfth post-O2 release of PyCBC for analysis of data taken during Advanced LIGO's second observing run and Advanced Virgo's first observing run. This is the same PyCBC code as in release 12 (v1.11.1), but has a more recent lalsuite version to solve some issues with SEOB waveform generation.

This release has been tested against LALSuite with the hash:

89a30fcf86f5d23455303e32051a87b0e3c3084a

Details of the changes since the 1.10.1 release are at v1.10.1...v1.11.1

A Docker container for this release is NOT available from the pycbc/pycbc-el7 repository on Docker Hub. Please see other releases for docker containers.

On a machine with CVMFS installed, a pre-built virtual environment is available for Red Hat 7 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_7/virtualenv/pycbc-v1.11.2/bin/activate

and for Debian 8 compatible operating systems by running the command:

source /cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_deb_8/virtualenv/pycbc-v1.11.2/bin/activate

A bundled pycbc_inspiral executable for use on the Open Science Grid is available at

/cvmfs/oasis.opensciencegrid.org/ligo/sw/pycbc/x86_64_rhel_6/bundle/v1.11.2/pycbc_inspiral