Modules Basic Usage
Back to Modules.
Basic Usage
The minimal information required for using a standalone application at UFRC:
module
will output help information on running the module command. The module help includes all information described below. You can also view the User Guide to Lmod for the upstream documentation.
Loading a module
module load ncbi_blast |
Unloading a moduleAll modules are automatically unloaded when you log out of the HPC system, and in most cases, there is no need to use the unload command. module unload ncbi_blast |
An example of the recommended way to load modules would be:
module load ncbi_blast/2.2.28
Lmod is automatically replacing "somemodule/1.0" with "anothermodule/2.0"
when you try to load another module, it means that the two environment modules have conflicting dependencies. You will need to separate your workflow so that you you complete all of the steps for "somemodule", then do a "module purge", and then "module load anothermodule/2.0".
Showing loaded modules
module list
will show all currently active (loaded) modules.
Showing information about a module
module whatis app shows info about a module such as name, version, category, upstream url, and a short description. |
module spider app/version shows a longer description and information on what versions are available, as well as what other modules have to be loaded first. |
Finding a module
When you need to find out whether a program is already installed user either 'module spider' to search through the module names or 'module keyword' to search through module description, tags, and keywords.
E.g. this command will find pbsmrtpipe, smrtsv2, and also the pacbio (smrtlink tools) module, which module spider will not find.
module keyword smrt
A much more concise, but context specific table of available modules can be obtained with
module avail
The "module avail" command shows all currently accessible branches of the global tree of modules, which depend on what compiler and MPI implementation modules are loaded. The core branch is always shown, but we also have compiler (intel/10.1 and intel/11.1) and mpi (mvapich/0.9.9, mpich2/1.0.8, mvapich2/1.4.1, openmpi/1.2.7, and openmpi/1.3.4 in the intel/10.1 branch as well as mvapich2/1.5.1, openmpi/1.3.4, and openmpi/1.4.3 in the intel/11.1 branch) implementation specific and even python version specific branches of the module tree. The top line at each section shown by 'module avail' shows exactly what loaded module is responsible for enabling that branch of the module tree. Sometimes, to be able to load a module that you find using "module spider" you might have to go through the sequential steps of loading the respective branches. For instance, if you need to load the module for the "espresso" software that was built with MVAPICH2 support using Intel Compiler version 11.1 you would run
module load intel/11.1 mvapich2 expresso
Swapping branches
To switch between different compiler and MPI implementation of a particular app or to gain access to a module that belongs to a particular branch run the following command to swap the old for the new branch
module swap old new module swap old/version new/version #this is if you loaded a specific version
If multiple versions of a particular app/version are available module will automatically reload those modules when you swap the branches, so you could seamlessly switch between a single-threaded version of an app you used for testing and an mpi version that will be used for a large-scale computing job.
Managing Module Collections
A very useful feature of Lmod is to save and restore custom collections of modules with module save
and module restore
as described in the user collections section of the User Guide. See the contents of a collection with module describe
and show a list of your collections with module savelist
.