Octave for openSUSE: Difference between revisions

From Octave
Jump to navigation Jump to search
(Bug reporting)
(9 intermediate revisions by 2 users not shown)
Line 1: Line 1:
=== Installation ===


=== Pre-compiled binaries ===
Octave binary packages are provided from the OSS repository of all recent openSUSE versions. Octave can be installed using [https://software.opensuse.org/package/octave One Click Install], YaST, or the zypper command:


Binary packages for Octave are provided by all versions of openSUSE. These are the most well-tested binaries available and should work best for most users.
zypper install octave


zypper in octave
==== The science repository ====


If you want to use install latest stable version of Octave and Octave Forge packages, you can use Science repository.
If you want to use '''latest stable version of Octave''', you can obtain the binary packages via [http://software.opensuse.org/download.html?project=science&package=octave One Click Install] from the science repository.


zypper ar http://download.opensuse.org/repositories/science/<openSUSE version>/ Science
To add the science repository manually, use the zypper commands (<code><openSUSE_version></code> is for example <code>openSUSE_Leap_42.3</code>):
zypper ref
zypper in octave


There <openSUSE verion> is your version of openSUSE, for example {{codeline|openSUSE_13.1}}
zypper addrepo http://download.opensuse.org/repositories/science/<openSUSE_version>/science.repo
zypper refresh


=== Octave Forge ===
And to install Octave from the science repository type:


Octave-Forge binary packages are provided by Science repository. You can list all available packages by command
zypper install --from science octave


  zypper se octave-forge
=== Octave Forge packages ===
 
[[Octave-Forge]] binary packages are provided from the OSS and science repository. You can list all available packages by the zypper command:
 
  zypper search octave-forge*


=== Linear algebra libraries ===
=== Linear algebra libraries ===
openSUSE uses reference BLAS and LAPACK implementations by default, but ATLAS is usually much faster. You can switch it by update-alternatives mechanism:
 
openSUSE uses reference BLAS and LAPACK implementations by default, but ATLAS or OpenBLAS are usually much faster. You can switch it by update-alternatives mechanism:


  /usr/sbin/update-alternatives --config libblas.so.3
  /usr/sbin/update-alternatives --config libblas.so.3
  /usr/sbin/update-alternatives --config liblapack.so.3
  /usr/sbin/update-alternatives --config liblapack.so.3


Example:
Example:


There are 4 choices for the alternative libblas.so.3 (providing /usr/lib64/libblas.so.3).
   Selection    Path                            Priority  Status
   Selection    Path                            Priority  Status
  ------------------------------------------------------------
  ------------------------------------------------------------
Line 34: Line 42:
   2            /usr/lib64/atlas/libtatlas.so.3  20        manual mode
   2            /usr/lib64/atlas/libtatlas.so.3  20        manual mode
   3            /usr/lib64/libblas.so.3.4.2      50        manual mode
   3            /usr/lib64/libblas.so.3.4.2      50        manual mode
  4            /usr/lib64/libopenblasp.so.0      20        manual mode
See [https://en.opensuse.org/openSUSE:Science_Linear_algebra_libraries linear algebra libraries page] at openSUSE wiki for more information.


=== Image export and import ===
=== Image export and import ===
GraphicsMagick++ library from openSUSE repositories was compiled with quantum depth 16 which limits reading and writing images to 16 bit. See more details on [[GraphicsMagick]] wiki page.
GraphicsMagick++ library from openSUSE repositories was compiled with quantum depth 16 which limits reading and writing images to 16 bit. See more details on [[GraphicsMagick]] wiki page.


=== Bug reporting ===
=== Bug reporting ===
You can report openSUSE specific bugs by pressing "Report Bug" button on [https://build.opensuse.org/package/show/science/octave OBS Octave page] (SUSE bugzilla account required).
You can report openSUSE specific bugs by pressing "Report Bug" button on [https://build.opensuse.org/package/show/science/octave OBS Octave page] (openSUSE bugzilla account required).


[[Category:GNU/Linux]]
[[Category:GNU/Linux]]
[[Category:Installation]]
[[Category:Installation]]

Revision as of 10:57, 21 July 2017

Installation

Octave binary packages are provided from the OSS repository of all recent openSUSE versions. Octave can be installed using One Click Install, YaST, or the zypper command:

zypper install octave

The science repository

If you want to use latest stable version of Octave, you can obtain the binary packages via One Click Install from the science repository.

To add the science repository manually, use the zypper commands (<openSUSE_version> is for example openSUSE_Leap_42.3):

zypper addrepo http://download.opensuse.org/repositories/science/<openSUSE_version>/science.repo
zypper refresh

And to install Octave from the science repository type:

zypper install --from science octave

Octave Forge packages

Octave-Forge binary packages are provided from the OSS and science repository. You can list all available packages by the zypper command:

zypper search octave-forge*

Linear algebra libraries

openSUSE uses reference BLAS and LAPACK implementations by default, but ATLAS or OpenBLAS are usually much faster. You can switch it by update-alternatives mechanism:

/usr/sbin/update-alternatives --config libblas.so.3
/usr/sbin/update-alternatives --config liblapack.so.3

Example:

There are 4 choices for the alternative libblas.so.3 (providing /usr/lib64/libblas.so.3).

  Selection    Path                             Priority   Status
------------------------------------------------------------
* 0            /usr/lib64/libblas.so.3.4.2       50        auto mode
  1            /usr/lib64/atlas/libsatlas.so.3   20        manual mode
  2            /usr/lib64/atlas/libtatlas.so.3   20        manual mode
  3            /usr/lib64/libblas.so.3.4.2       50        manual mode
  4            /usr/lib64/libopenblasp.so.0      20        manual mode

See linear algebra libraries page at openSUSE wiki for more information.

Image export and import

GraphicsMagick++ library from openSUSE repositories was compiled with quantum depth 16 which limits reading and writing images to 16 bit. See more details on GraphicsMagick wiki page.

Bug reporting

You can report openSUSE specific bugs by pressing "Report Bug" button on OBS Octave page (openSUSE bugzilla account required).