Difference between revisions of "Modules"

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[[Category:Software]][[Category:Biology]]
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[[Category:Software]][[Category:Infrastructure]]
 
==Introduction==
 
==Introduction==
 
Creating and maintaining a computing environment for a data analysis pipeline that consists of a large number of heterogenous tools, needs to be run by many users as must provide consistent data analysis results over a long time while frequent software upgrades and underlying operating system environment changes happen is not easy. Fortunately, the major points of this problem can be addressed by the use of an environmental modules system that abstracts the computing environment from the immediate data analysis steps. At the UF HPC we have chosen to implement this system using [http://www.tacc.utexas.edu/tacc-projects/mclay/lmod Lmod] software written by Robert McLay at the Texas Advanced Computing Center [http://www.tacc.utexas.edu/home (TACC)].
 
Creating and maintaining a computing environment for a data analysis pipeline that consists of a large number of heterogenous tools, needs to be run by many users as must provide consistent data analysis results over a long time while frequent software upgrades and underlying operating system environment changes happen is not easy. Fortunately, the major points of this problem can be addressed by the use of an environmental modules system that abstracts the computing environment from the immediate data analysis steps. At the UF HPC we have chosen to implement this system using [http://www.tacc.utexas.edu/tacc-projects/mclay/lmod Lmod] software written by Robert McLay at the Texas Advanced Computing Center [http://www.tacc.utexas.edu/home (TACC)].
 
==Upstream Documentation==
 
==Upstream Documentation==
 
Those who would like to learn as much as possible about lmod can use the [http://www.tacc.utexas.edu/tacc-projects/mclay/lmod documentation written by the Lmod author].
 
Those who would like to learn as much as possible about lmod can use the [http://www.tacc.utexas.edu/tacc-projects/mclay/lmod documentation written by the Lmod author].
==Basic Usage==
 
The minimal information required for using a standalone application at UF HPC:
 
module
 
will output help information on running the module command. The module help includes all information described below.
 
===Loading a module===
 
* If you already know the name of the module, the only command needed to load it and be able to execute the software is 'module load <application>'. For instance, if the module is called '''ncbi_blast''', run the following command
 
module load ncbi_blast
 
  
===Unloading a module===
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==Basic usage==
* To remove a module, so its environment gets cleared run
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See [[Modules Basic Usage]] for a practical introduction to using environment modules at HPC
module unload ncbi_blast
 
All 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.
 
  
===Showing loaded modules===
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==Transition from mpi-selector==
module list
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With the introduction of modules the ''mpi-selector'' command previously used to query and set the MPI implementation on the HPC cluster has been deprecated. Read [[From mpi-selector to module]] for more information.
will show all currently active (loaded) modules.
 
===Finding a module===
 
module spider
 
is a great time saver as it allow you to traverse the entire list of available modules along with short descriptions of the applications they make available.
 
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
 
module load mvapich2
 
module load expresso
 
  
===Showing information about a module===
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==Support==
module whatis app
 
will show a short listing of module specific information such as name, version, category, upstream url, and a short description.
 
module spider app
 
or
 
module spider app/version
 
will show you the long description and the information on what versions are available for a particular application.
 
===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
 
or if you loaded a particular version
 
module swap old/version new/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.
 
===Support===
 
 
To request help with using modules or installation of new module enabled application please file a [http://support.hpc.ufl.edu support request] or if necessary please send us an [mailto:om@hpc.ufl.edu email].
 
To request help with using modules or installation of new module enabled application please file a [http://support.hpc.ufl.edu support request] or if necessary please send us an [mailto:om@hpc.ufl.edu email].

Revision as of 19:42, 17 October 2011

Introduction

Creating and maintaining a computing environment for a data analysis pipeline that consists of a large number of heterogenous tools, needs to be run by many users as must provide consistent data analysis results over a long time while frequent software upgrades and underlying operating system environment changes happen is not easy. Fortunately, the major points of this problem can be addressed by the use of an environmental modules system that abstracts the computing environment from the immediate data analysis steps. At the UF HPC we have chosen to implement this system using Lmod software written by Robert McLay at the Texas Advanced Computing Center (TACC).

Upstream Documentation

Those who would like to learn as much as possible about lmod can use the documentation written by the Lmod author.

Basic usage

See Modules Basic Usage for a practical introduction to using environment modules at HPC

Transition from mpi-selector

With the introduction of modules the mpi-selector command previously used to query and set the MPI implementation on the HPC cluster has been deprecated. Read From mpi-selector to module for more information.

Support

To request help with using modules or installation of new module enabled application please file a support request or if necessary please send us an email.

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