CBCB Software Modules: Difference between revisions
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* [mailto:keith@umiacs.umd.edu Keith Hughitt] | * [mailto:keith@umiacs.umd.edu Keith Hughitt] | ||
* [mailto:welles@umiacs.umd.edu Welles Robinson] | * [mailto:welles@umiacs.umd.edu Welles Robinson] | ||
* [mailto:hiren@umiacs.umd.edu Hiren Karathia] | |||
== See Also == | == See Also == |
Revision as of 20:09, 6 March 2017
Starting in the Spring of 2015, communal CBCB Bioinformatics Software has been installed using GNU Modules. Please note that the instructions below are for use with Red Hat 7 machines only.
Common Modules
CBCB Software modules are already configured for interactive shells on Red Hat 7 machines - no additional setup is required. The module files are installed in the following location:
/cbcb/sw/RedHat-7-x86_64/common/modules/release/latest
To see see what modules are available:
$ module avail
To add a module to your environment, use module add
:
$ module add samtools/0.1.19
Note that you can also specify the software name without the version:
$ module add samtools
Now samtools has been added to your environment:
$ which samtools /cbcb/sw/RedHat-7-x86_64/common/local/samtools/0.1.19/bin/samtools
User Modules
We have created some scripts to assist you with installing software and modules to your user directory in /cbcb/sw
. We recommend that you use these scripts because this will help us share installed software among other CBCB users.
Run this initialization script to set up your directory structure:
$ /cbcb/sw/RedHat-7-x86_64/common/scripts/init_cbcb_sw_user.sh
This will create a directory for you:
$ tree /cbcb/sw/RedHat-7-x86_64/users/<username>
/cbcb/sw/RedHat-7-x86_64/users/<username> ├── local ├── modules │ └── <username> │ └── env ├── module_template ├── README ├── scripts │ ├── copy_module_template.sh │ ├── init_install_vars.sh │ └── install_package.sh └── src
- Use the
src
directory for storing and compiling source code. - Use the
local
directory as the installation prefix. - Use the
modules
directory to store your modulefiles.
See #Installing Software below.
To make use of your personal module file directory, add the following to your ~/.bashrc
:
module use /cbcb/sw/RedHat-7-x86_64/users/<username>/modules
Installing Software
Use the install_package.sh
script to automatically compile software that uses ./configure; make; make install
. The advantage to using this install script is that it will:
- use the standardized directory structure for personal software installation, and
- automatically create a module file for the software in your
modules
directory!
For full details, read the README
placed in your personal directory (/cbcb/sw/RedHat-7-x86_64/users/<username>
). It's also available in the cbcb-sw Gitlab repository.
Listing All Modules
The command module avail
only lists modulefiles that appear in directories that have been added to your $MODULEPATH
environment variable (either by hand or via module use
command).
To see all modulefiles that are available for your use in both the Common Modules and the User Modules:
cat /cbcb/sw/RedHat-7-x86_64/common/all_modules.txt
or see here.
Setup for non-interactive shells
Modules are already configured for interactive shells, but to use modules with non-interactive shells such as Torque, add the following to your ~/.bashrc:
. /usr/share/Modules/init/bash . /etc/profile.d/ummodules.sh
For more information, see the UMIACS wiki.
GNU Modules Cheatsheet
Ask for help:
module --help
List available modules:
module avail
Add a module to your environment:
module add blast
List loaded modules:
module list
Remove a module from your environment:
module rm blast
Remove all modules from your environment:
module purge
Add a path to search for available modules:
module use /cbcb/sw/RedHat-7-x86_64/users/lmendelo/modules
See what changes a module makes to your environment:
module show Python2/common/2.7.9
Maintainers
Creating a new release
Upgrading R
There are a couple scripts to hopefully make upgrading R easier. Let us say that you are installing a new version of R and R libraries. If that is (for example) version 3.2.1, then a set of commands might include:
> cd $MOD/R/common > cp 3.2.0 3.2.1
Now edit 3.2.1 to include the new version and change anything of interest.
> mkdir $STOW/Rext/3.2.1 > module add R/common/3.2.1
Assuming that you edited the $MOD 3.2.1 file to tell it to load R version 3.2.1, then $(which R) will show the new version and the module command will set the R_LIBS variable to a new, empty directory.
> cd $STOW/R/common > ./update_R.sh 3.2.0_list
This little shell script should call Bioconductor's biocLite() once for each R library which was installed in 3.2.0.
(Adapted from /cbcb/sw/RedHat-7-x86_64/common/local/Rext/README.md)
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