gyoto 1.0.2-1ubuntu2 source package in Ubuntu
Changelog
gyoto (1.0.2-1ubuntu2) xenial; urgency=medium * No-change rebuild to drop python3.4 support. -- Matthias Klose <email address hidden> Tue, 19 Jan 2016 00:41:16 +0000
Upload details
- Uploaded by:
- Matthias Klose
- Uploaded to:
- Xenial
- Original maintainer:
- Ubuntu Developers
- Architectures:
- any all
- Section:
- science
- Urgency:
- Medium Urgency
See full publishing history Publishing
| Series | Published | Component | Section |
|---|
Downloads
| File | Size | SHA-256 Checksum |
|---|---|---|
| gyoto_1.0.2.orig.tar.gz | 1.2 MiB | 235ac098ee8cf76d1a448e4ce538424b69df81ad9793f09166b7c521aa93ad0e |
| gyoto_1.0.2-1ubuntu2.debian.tar.xz | 8.3 KiB | 85f5089dd77d2defe2acd3ca555039b92481611903b85c01ce264a8b80cb63eb |
| gyoto_1.0.2-1ubuntu2.dsc | 2.8 KiB | b1d18d5d103fbd329d442b6590f27655abd7bb8313104512dfd6fef04cef9031 |
Available diffs
- diff from 1.0.2-1ubuntu1 to 1.0.2-1ubuntu2 (336 bytes)
Binary packages built by this source
- gyoto: General relativistic ray-tracing
Gyoto is a framework for computing geodesics in curved
space-times. The gyoto utility program uses this framework to compute
images of astronomical objects in the vicinity of compact objects
(e.g. black-holes). Such images are distorted by strong gravitational
lensing. The gyoto program takes a scenery description in XML format,
computes this scenery using relativistic ray-tracing, and saves the
result in FITS format.
.
More complex uses of the Gyoto framework can be achieved using the
yorick-gyoto, python-gyoto or python3-gyoto packages. Gyoto can be
extended with plug-ins (see libgyoto4-dev).
.
MPI parallelization requires the mpi-default-bin package.
- gyoto-dbg: debugging symbols for gyoto, libgyoto4v5 and yorick-gyoto
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity. It consists in a shared
library (this package), utility programs (in the gyoto package), and
a plug-in for the Yorick and Python 2 and 3 programing language (in
yorick-gyoto, python-gyoto and python3-gyoto).
.
This package contains the debugging symbols for the gyoto, libgyoto4v5,
yorick-gyoto, python-gyoto and python3-gyoto packages.
- gyoto-dbgsym: debug symbols for package gyoto
Gyoto is a framework for computing geodesics in curved
space-times. The gyoto utility program uses this framework to compute
images of astronomical objects in the vicinity of compact objects
(e.g. black-holes). Such images are distorted by strong gravitational
lensing. The gyoto program takes a scenery description in XML format,
computes this scenery using relativistic ray-tracing, and saves the
result in FITS format.
.
More complex uses of the Gyoto framework can be achieved using the
yorick-gyoto, python-gyoto or python3-gyoto packages. Gyoto can be
extended with plug-ins (see libgyoto4-dev).
.
MPI parallelization requires the mpi-default-bin package.
- gyoto-doc: documentation for the Gyoto library
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity. It consists in a library
(libgyoto), utility programs, and a plug-in for the Yorick programing
language.
.
This package contains the Gyoto Reference Manual.
- libgyoto4-dev: development files for libgyoto
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity.
.
This package provides the files necessary to compile Gyoto plugins
and codes using the libgyoto library.
- libgyoto4-dev-dbgsym: debug symbols for package libgyoto4-dev
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity.
.
This package provides the files necessary to compile Gyoto plugins
and codes using the libgyoto library.
- libgyoto4v5: General relativistic geodesic integration and ray-tracing
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity. It consists in a shared
library (this package), utility programs (in the gyoto package), and
a plug-in for the Yorick and Python 2 and 3 programing languages (in
yorick-gyoto, python-gyoto and python3-gyoto respectively). Gyoto can
be extended with plug-ins (see libgyoto4-dev).
.
MPI parallelization requires the gyoto and mpi-default-bin packages.
- libgyoto4v5-dbgsym: debug symbols for package libgyoto4v5
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity. It consists in a shared
library (this package), utility programs (in the gyoto package), and
a plug-in for the Yorick and Python 2 and 3 programing languages (in
yorick-gyoto, python-gyoto and python3-gyoto respectively). Gyoto can
be extended with plug-ins (see libgyoto4-dev).
.
MPI parallelization requires the gyoto and mpi-default-bin packages.
- python-gyoto: General relativistic geodesic integration for the Python 2 language
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity.
.
This package provides an extension for the Python 2 programing language
exposing the Gyoto facilities. It allows using Gyoto interactively
from the Python prompt or running complex Gyoto scripts.
- python3-gyoto: General relativistic geodesic integration for the Python 3 language
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity.
.
This package provides an extension for the Python 3 programing language
exposing the Gyoto facilities. It allows using Gyoto interactively
from the Python 3 prompt or running complex Gyoto scripts.
- yorick-gyoto: General relativistic geodesic integration for the Yorick language
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity.
.
This package provides a plug-in for the Yorick programing language
exposing the Gyoto facilities. It allows using Gyoto interactively
from the yorick prompt or running complex Gyoto scripts.
- yorick-gyoto-dbgsym: debug symbols for package yorick-gyoto
Gyoto aims at providing a framework for computing orbits and
ray-traced images in General relativity.
.
This package provides a plug-in for the Yorick programing language
exposing the Gyoto facilities. It allows using Gyoto interactively
from the yorick prompt or running complex Gyoto scripts.
