# Difference between revisions of "Matlab"

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[[Category:Mathematics and science]] | [[Category:Mathematics and science]] | ||

{{stub}} | {{stub}} | ||

+ | |||

== General installation == | == General installation == | ||

− | Use the following commands to mount and install Matlab. Note that the path to the install script should contain no spaces, or the install will fail. For graphical install and interface {{ | + | {{Warning|This should not be necessary for MATLAB R2013a+, installation should work without any additional packages.}} |

− | + | Use the following commands to mount and install Matlab. Note that the path to the install script should contain no spaces, or the install will fail. For graphical install and interface {{Pkg|libxp}} is needed. You may need to [[Pacman|install]] {{Pkg|libxp}} from the [[official repositories]] first. Note also that Matlab is not compliant with Java 7, so you may need to install, for example, {{Pkg|openjdk6}}. | |

− | Install from iso file | + | Install from iso file: |

# modprobe loop | # modprobe loop | ||

# mount -o loop matlab.iso /mnt/ | # mount -o loop matlab.iso /mnt/ | ||

# /mnt/install | # /mnt/install | ||

+ | |||

+ | Additionally, install {{Pkg|xorg-fonts-100dpi}}, {{Pkg|xorg-fonts-75dpi}}, and {{Pkg|xorg-fonts-type1}} so fonts are displayed properly in figures. | ||

=== Create Desktop and Menu Shortcuts === | === Create Desktop and Menu Shortcuts === | ||

− | If you choose Custom in Installation Type, the symlink will be created automatically. Otherwise, you may need to manually create a symlink in {{ic|/usr/local/bin}} to make it easier to launch in terminal | + | If you choose Custom in Installation Type, the symlink will be created automatically. Otherwise, you may need to manually create a symlink in {{ic|/usr/local/bin}} to make it easier to launch in terminal: |

# ln -s /{MATLAB}/bin/matlab /usr/local/bin | # ln -s /{MATLAB}/bin/matlab /usr/local/bin | ||

Line 25: | Line 28: | ||

Type=Application | Type=Application | ||

Icon=/usr/share/icons/matlab.png | Icon=/usr/share/icons/matlab.png | ||

− | Name=MATLAB | + | Name=MATLAB |

Comment=Start MATLAB - The Language of Technical Computing | Comment=Start MATLAB - The Language of Technical Computing | ||

Exec=matlab -desktop | Exec=matlab -desktop | ||

Line 32: | Line 35: | ||

}} | }} | ||

− | You can also put this .desktop file in Desktop folder to create a shortcut. | + | You can also put this .desktop file in the Desktop folder to create a shortcut. |

More details see [https://help.ubuntu.com/community/MATLAB MATLAB - Community Ubuntu Documents] | More details see [https://help.ubuntu.com/community/MATLAB MATLAB - Community Ubuntu Documents] | ||

=== Install 32-bit Matlab on 64-bit system === | === Install 32-bit Matlab on 64-bit system === | ||

− | Unfortunately, | + | {{Note|Follow this section only if you have a student version. All other releases since R2012b are 64-bit only.}} |

− | + | Unfortunately, there is no 64-bit version of the student version. These instructions have been updated for R2012a student version. To start off we need to install a bunch of packages from the [[multilib]] repository (this list may be out of date): | |

− | + | {{Pkg|lib32-mesa}}, {{Pkg|lib32-glu}}, {{Pkg|lib32-glibc}}, {{Pkg|lib32-libxmu}}, {{Pkg|lib32-zlib}}, {{Pkg|lib32-ncurses}}, {{Pkg|lib32-libxtst}}, {{Pkg|lib32-libxi}}, {{Pkg|lib32-libxrender}}, {{Pkg|lib32-libxfixes}}, {{Pkg|lib32-freetype2}}, {{Pkg|lib32-fontconfig}}, {{Pkg|lib32-libxdamage}}. | |

− | + | A few packages from the [[AUR]] might also be needed: | |

− | + | {{AUR|lib32-libxpm}}, {{AUR|lib32-libxp}}, {{AUR|bin32-openjdk6}} ({{Pkg|openjdk7}} might also work). | |

− | |||

− | |||

− | |||

− | |||

− | |||

− | |||

− | |||

− | |||

− | + | Once they are installed: | |

− | |||

− | Once they are installed | ||

$ ./install -glnx86 | $ ./install -glnx86 | ||

− | After fixing any library dependency problems, you will be able to guide the installer through the install process. If activation doesn't work in the installer you'll need to login to Wolfram's site and download a license file which you'll put in {MATLAB}/licenses. After the install process, you'll need to create a symbolic link because the installer oddly thinks it's installing the 64-bit version of Matlab: | + | After fixing any library dependency problems, you will be able to guide the installer through the install process. If activation doesn't work in the installer you'll need to login to Wolfram's site and download a license file which you'll put in {{ic|${MATLAB}/licenses}}. After the install process, you'll need to create a symbolic link because the installer oddly thinks it's installing the 64-bit version of Matlab: |

− | $ cd {MATLAB}/sys/java/jre | + | $ cd ${MATLAB}/sys/java/jre |

$ ln -s glnx86 glnxa64 | $ ln -s glnx86 glnxa64 | ||

− | In the above, {MATLAB} should be replaced by the root directory you chose for your installation. | + | In the above, ${MATLAB} should be replaced by the root directory you chose for your installation. |

− | You'll also need to put another link in | + | You'll also need to put another link in Matlab's {{ic|bin}} folder because despite asking Matlab to install the 32bit version, it still thinks you want to use the 64bit one: |

− | $ cd {MATLAB}/bin | + | $ cd ${MATLAB}/bin |

$ ln -s glnx86 glnxa64 | $ ln -s glnx86 glnxa64 | ||

− | After that you'll need to edit the {MATLAB}/bin/matlab script to get the java settings correct. After the comments at the top of the file, you'll need the line | + | After that you'll need to edit the {{ic|${MATLAB}/bin/matlab}} script to get the java settings correct. After the comments at the top of the file, you'll need the line: |

+ | |||

+ | export MATLAB_JAVA=/path/to/jre | ||

+ | |||

+ | Where {{ic|/path/to/jre}} will be {{ic|/opt/java/jre}} if you're using Sun's JRE. The path is one level up from where {{ic|rt.jar}} is located. That is, {{ic|rt.jar}} should be in {{ic|/opt/java/jre/libs}} if you used {{ic|/opt/java/jre}} for {{ic|MATLAB_JAVA}}. In Matlab R2010a it works pretty well, if you use the internal JRE with: | ||

− | export MATLAB_JAVA={ | + | export MATLAB_JAVA=${MATLAB}/sys/java/jre/glnx86/jre |

− | + | If using {{AUR|bin32-openjdk6}}, use | |

− | export MATLAB_JAVA= | + | export MATLAB_JAVA=/usr/lib/jvm/java-7-openjdk/jre/ |

To run it, you'll need to: | To run it, you'll need to: | ||

− | $ | + | $ ${MATLAB}/bin/matlab -glnx86 -desktop |

+ | |||

+ | At this point you may have to resolve more library dependencies or troubleshoot [[Java]]. Your version of Matlab may need a specific version of Sun's JRE installed. | ||

+ | |||

+ | === Install supported compiler === | ||

+ | |||

+ | In order for Matlab to work with C code (needed for simulink) it is necessarry to install a supported compiler. Install {{AUR|gcc44}} from the AUR. | ||

− | + | Then edit {{ic|${MATLAB}/bin/mexopts.sh}} and replace all occurances of CC='gcc' with CC='gcc-4.4' and CXX='g++' with CXX='g++-4.4'. Afterwards run | |

+ | mex -setup | ||

+ | in Matlab and select the {{ic|mexopts.sh}} file. | ||

− | == | + | == Troubleshooting == |

− | As one installs | + | As one installs Matlab, it might complain that it can't find a package, for the most part just look at the package name and then install it with [[Pacman]], or in the case of x86_64 there are some libraries only in [[AUR]]. |

+ | |||

+ | ==== License: invalid machine id ==== | ||

+ | The installer may complain about an invalid machine id, because it is looking for a network interface named eth0 to get a MAC address for activation, while new Arch Linux setups do not have a network interface called eth0 (systemd uses [http://www.freedesktop.org/wiki/Software/systemd/PredictableNetworkInterfaceNames Predictable Network Interface Names]). Just [[rename network interfaces|change the name of the interface]]. | ||

+ | |||

+ | In a nutshell: install {{Pkg|wireless_tools}} and execute the following: | ||

+ | # systemctl stop NetworkManager | ||

+ | # ifrename -i enp2s0f0 -n eth0 | ||

+ | # systemctl start NetworkManager | ||

+ | |||

+ | This will be needed after each reboot. To make it permanent: | ||

+ | # ln -s /dev/null /etc/udev/rules.d/80-net-name-slot.rules | ||

+ | |||

+ | The machine id should now be different than 000000000000 and you should be able to install and activate MATLAB without problems. | ||

==== Resolving start warnings/errors ==== | ==== Resolving start warnings/errors ==== | ||

− | * Even if all needed libraries are installed, Matlab when starting can still report some missing libraries. This is resolved by symbolic linking of needed libraries to directories that Matlab checks at start-up. For example, if Matlab triggers error/warning about missing /lib64/libc.so.6 library, this can be resolved by: | + | * Even if all needed libraries are installed, Matlab when starting can still report some missing libraries. This is resolved by symbolic linking of needed libraries to directories that Matlab checks at start-up. For example, if Matlab triggers error/warning about missing {{ic|/lib64/libc.so.6}} library, this can be resolved by: |

# ln -s /lib/libc.so.6 /lib64 | # ln -s /lib/libc.so.6 /lib64 | ||

− | * Matlab R2011b with an up-to-date Arch Linux (as of March 12, 2012) fails on startup with the familiar "Failure loading desktop class." | + | * Matlab R2011b with an up-to-date Arch Linux (as of March 12, 2012) fails on startup with the familiar "Failure loading desktop class." A solution is to point Matlab to the system JVM (confirmed to work with the {{Pkg|jdk7-openjdk}} package): |

export MATLAB_JAVA=/usr/lib/jvm/java-7-openjdk/jre | export MATLAB_JAVA=/usr/lib/jvm/java-7-openjdk/jre | ||

+ | |||

+ | ==== MATLAB crashes when displaying graphics ==== | ||

+ | |||

+ | To identify this error, start MATLAB with | ||

+ | |||

+ | LIBGL_DEBUG=verbose matlab | ||

+ | |||

+ | from the terminal and try to collect OpenGL information with {{ic|opengl info}} from the MATLAB command prompt. If it crashes again and there is an output line like | ||

+ | |||

+ | libGL error: dlopen /usr/lib/xorg/modules/dri/swrast_dri.so failed | ||

+ | (/usr/local/MATLAB/R2011b/bin/glnxa64/../../sys/os/glnxa64/libstdc++.so.6: | ||

+ | version `GLIBCXX_3.4.15' not found (required by /usr/lib/xorg/modules/dri/swrast_dri.so)) | ||

+ | |||

+ | then the problem is that MATLAB uses its own GNU C++ library, which is an older version than the up-to-date version on your Archlinux system. Make MATLAB use the current C++ library for your system by | ||

+ | |||

+ | cd /usr/local/MATLAB/R(your release)/sys/os/glnxa64 | ||

+ | sudo unlink libstdc++.so.6 | ||

+ | sudo ln -s /usr/lib/libstdc++.so.6 | ||

+ | |||

+ | ==== Blank/grey UI when using DWM/Awesome ==== | ||

+ | |||

+ | wmname LG3D | ||

== OpenGL Acceleration == | == OpenGL Acceleration == | ||

− | Once Matlab is installed type the following in the | + | Once Matlab is installed type the following in the interpreter: |

− | + | >> opengl info | |

The output should be similar to the following: | The output should be similar to the following: | ||

− | < | + | {{bc|<nowiki> |

Version = 2.0 Mesa 7.8.2 | Version = 2.0 Mesa 7.8.2 | ||

Vendor = Advanced Micro Devices, Inc. | Vendor = Advanced Micro Devices, Inc. | ||

Line 119: | Line 159: | ||

OpenGLClippedImageBug = 0 | OpenGLClippedImageBug = 0 | ||

OpenGLEraseModeBug = 0 | OpenGLEraseModeBug = 0 | ||

− | </ | + | </nowiki>}} |

This will vary with card you are using, but the important part is "Software = false". If it's not "false" for you, then there is a problem with your hardware acceleration. | This will vary with card you are using, but the important part is "Software = false". If it's not "false" for you, then there is a problem with your hardware acceleration. | ||

− | === | + | === NVIDIA === |

− | With an | + | With an [[Nvidia|NVIDIA]] card, the output should be similar to this: |

− | < | + | {{bc|<nowiki> |

>> opengl info | >> opengl info | ||

Version = 2.1.2 NVIDIA 177.82 | Version = 2.1.2 NVIDIA 177.82 | ||

Line 141: | Line 181: | ||

OpenGLClippedImageBug = 1 | OpenGLClippedImageBug = 1 | ||

OpenGLEraseModeBug = 0 | OpenGLEraseModeBug = 0 | ||

− | </ | + | </nowiki>}} |

− | With the | + | With the NVIDIA card all it required to start working was to copy the {{ic|libGLU.so}} from the Matlab installed library {{ic|${MATLAB}/sys/opengl/lib/glnx86/libGLU.so}} to {{ic|/usr/lib directory}}. Note that in x86_64 this might be a different directory. |

− | {{Note|Although, not thoroughly tested, using lib32-nvidia-utils seems to work as well.}} | + | {{Note|Although, not thoroughly tested, using {{Pkg|lib32-nvidia-utils}} seems to work as well.}} |

## Revision as of 11:56, 11 April 2013

## General installation

Use the following commands to mount and install Matlab. Note that the path to the install script should contain no spaces, or the install will fail. For graphical install and interface libxp is needed. You may need to install libxp from the official repositories first. Note also that Matlab is not compliant with Java 7, so you may need to install, for example, openjdk6. Install from iso file:

# modprobe loop # mount -o loop matlab.iso /mnt/ # /mnt/install

Additionally, install xorg-fonts-100dpi, xorg-fonts-75dpi, and xorg-fonts-type1 so fonts are displayed properly in figures.

### Create Desktop and Menu Shortcuts

If you choose Custom in Installation Type, the symlink will be created automatically. Otherwise, you may need to manually create a symlink in `/usr/local/bin`

to make it easier to launch in terminal:

# ln -s /{MATLAB}/bin/matlab /usr/local/bin

To create a menu item, we need to get a icon first:

# wget http://upload.wikimedia.org/wikipedia/commons/2/21/Matlab_Logo.png -O /usr/share/icons/matlab.png

Then create a new .desktop file in `/usr/share/applications`

with following lines:

/usr/share/applications/matlab.desktop

#!/usr/bin/env xdg-open [Desktop Entry] Type=Application Icon=/usr/share/icons/matlab.png Name=MATLAB Comment=Start MATLAB - The Language of Technical Computing Exec=matlab -desktop Categories=Development;

You can also put this .desktop file in the Desktop folder to create a shortcut.

More details see MATLAB - Community Ubuntu Documents

### Install 32-bit Matlab on 64-bit system

Unfortunately, there is no 64-bit version of the student version. These instructions have been updated for R2012a student version. To start off we need to install a bunch of packages from the multilib repository (this list may be out of date):
lib32-mesa, lib32-glu, lib32-glibc, lib32-libxmu, lib32-zlib, lib32-ncurses, lib32-libxtst, lib32-libxi, lib32-libxrender, lib32-libxfixes, lib32-freetype2, lib32-fontconfig, lib32-libxdamage.
A few packages from the AUR might also be needed:
lib32-libxpm^{AUR}, lib32-libxp^{AUR}, bin32-openjdk6^{AUR} (openjdk7 might also work).

Once they are installed:

$ ./install -glnx86

After fixing any library dependency problems, you will be able to guide the installer through the install process. If activation doesn't work in the installer you'll need to login to Wolfram's site and download a license file which you'll put in `${MATLAB}/licenses`

. After the install process, you'll need to create a symbolic link because the installer oddly thinks it's installing the 64-bit version of Matlab:

$ cd ${MATLAB}/sys/java/jre $ ln -s glnx86 glnxa64

In the above, ${MATLAB} should be replaced by the root directory you chose for your installation.

You'll also need to put another link in Matlab's `bin`

folder because despite asking Matlab to install the 32bit version, it still thinks you want to use the 64bit one:

$ cd ${MATLAB}/bin $ ln -s glnx86 glnxa64

After that you'll need to edit the `${MATLAB}/bin/matlab`

script to get the java settings correct. After the comments at the top of the file, you'll need the line:

export MATLAB_JAVA=/path/to/jre

Where `/path/to/jre`

will be `/opt/java/jre`

if you're using Sun's JRE. The path is one level up from where `rt.jar`

is located. That is, `rt.jar`

should be in `/opt/java/jre/libs`

if you used `/opt/java/jre`

for `MATLAB_JAVA`

. In Matlab R2010a it works pretty well, if you use the internal JRE with:

export MATLAB_JAVA=${MATLAB}/sys/java/jre/glnx86/jre

If using bin32-openjdk6^{AUR}, use

export MATLAB_JAVA=/usr/lib/jvm/java-7-openjdk/jre/

To run it, you'll need to:

$ ${MATLAB}/bin/matlab -glnx86 -desktop

At this point you may have to resolve more library dependencies or troubleshoot Java. Your version of Matlab may need a specific version of Sun's JRE installed.

### Install supported compiler

In order for Matlab to work with C code (needed for simulink) it is necessarry to install a supported compiler. Install gcc44^{AUR} from the AUR.

Then edit `${MATLAB}/bin/mexopts.sh`

and replace all occurances of CC='gcc' with CC='gcc-4.4' and CXX='g++' with CXX='g++-4.4'. Afterwards run

mex -setup

in Matlab and select the `mexopts.sh`

file.

## Troubleshooting

As one installs Matlab, it might complain that it can't find a package, for the most part just look at the package name and then install it with Pacman, or in the case of x86_64 there are some libraries only in AUR.

#### License: invalid machine id

The installer may complain about an invalid machine id, because it is looking for a network interface named eth0 to get a MAC address for activation, while new Arch Linux setups do not have a network interface called eth0 (systemd uses Predictable Network Interface Names). Just change the name of the interface.

In a nutshell: install wireless_tools and execute the following:

# systemctl stop NetworkManager # ifrename -i enp2s0f0 -n eth0 # systemctl start NetworkManager

This will be needed after each reboot. To make it permanent:

# ln -s /dev/null /etc/udev/rules.d/80-net-name-slot.rules

The machine id should now be different than 000000000000 and you should be able to install and activate MATLAB without problems.

#### Resolving start warnings/errors

- Even if all needed libraries are installed, Matlab when starting can still report some missing libraries. This is resolved by symbolic linking of needed libraries to directories that Matlab checks at start-up. For example, if Matlab triggers error/warning about missing
`/lib64/libc.so.6`

library, this can be resolved by:

# ln -s /lib/libc.so.6 /lib64

- Matlab R2011b with an up-to-date Arch Linux (as of March 12, 2012) fails on startup with the familiar "Failure loading desktop class." A solution is to point Matlab to the system JVM (confirmed to work with the jdk7-openjdk package):

export MATLAB_JAVA=/usr/lib/jvm/java-7-openjdk/jre

#### MATLAB crashes when displaying graphics

To identify this error, start MATLAB with

LIBGL_DEBUG=verbose matlab

from the terminal and try to collect OpenGL information with `opengl info`

from the MATLAB command prompt. If it crashes again and there is an output line like

libGL error: dlopen /usr/lib/xorg/modules/dri/swrast_dri.so failed (/usr/local/MATLAB/R2011b/bin/glnxa64/../../sys/os/glnxa64/libstdc++.so.6: version `GLIBCXX_3.4.15' not found (required by /usr/lib/xorg/modules/dri/swrast_dri.so))

then the problem is that MATLAB uses its own GNU C++ library, which is an older version than the up-to-date version on your Archlinux system. Make MATLAB use the current C++ library for your system by

cd /usr/local/MATLAB/R(your release)/sys/os/glnxa64 sudo unlink libstdc++.so.6 sudo ln -s /usr/lib/libstdc++.so.6

#### Blank/grey UI when using DWM/Awesome

wmname LG3D

## OpenGL Acceleration

Once Matlab is installed type the following in the interpreter:

>> opengl info

The output should be similar to the following:

Version = 2.0 Mesa 7.8.2 Vendor = Advanced Micro Devices, Inc. Renderer = Mesa DRI R600 (RV710 9552) 20090101 x86/MMX/SSE2 TCL DRI2 MaxTextureSize = 4096 Visual = 0xcb (TrueColor, depth 24, RGB mask 0xff0000 0xff00 0x00ff) Software = false # of Extensions = 107 Driver Bug Workarounds: OpenGLBitmapZbufferBug = 0 OpenGLWobbleTesselatorBug = 0 OpenGLLineSmoothingBug = 0 OpenGLClippedImageBug = 0 OpenGLEraseModeBug = 0

This will vary with card you are using, but the important part is "Software = false". If it's not "false" for you, then there is a problem with your hardware acceleration.

### NVIDIA

With an NVIDIA card, the output should be similar to this:

>> opengl info Version = 2.1.2 NVIDIA 177.82 Vendor = NVIDIA Corporation Renderer = Quadro NVS 140M/PCI/SSE2 MaxTextureSize = 8192 Visual = 0x21 (TrueColor, depth 16, RGB mask 0xf800 0x07e0 0x001f) Software = false # of Extensions = 144 Driver Bug Workarounds: OpenGLBitmapZbufferBug = 0 OpenGLWobbleTesselatorBug = 0 OpenGLLineSmoothingBug = 0 OpenGLClippedImageBug = 1 OpenGLEraseModeBug = 0

With the NVIDIA card all it required to start working was to copy the `libGLU.so`

from the Matlab installed library `${MATLAB}/sys/opengl/lib/glnx86/libGLU.so`

to `/usr/lib directory`

. Note that in x86_64 this might be a different directory.