HPC/Module Setup: Difference between revisions

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== Shell startup files ==
== Introduction ==
* The default login shell on ''Carbon'' is [http://en.wikipedia.org/wiki/Bash_(Unix_shell) bash]
''Carbon'' uses the [http://modules.sourceforge.net/ Environment Modules] package to dynamically provision software.
* Place customizations in your file <code>~/.bashrc</code>
The package primarily modifies your $PATH and other environment variables.
 
* [[HPC/Modules | '''Current Carbon module catalog''']]
 
To select packages for your use, place <code>module load ''name''</code> commands near the end of your <code>~/.bashrc</code> file.
 
== The Shell ==
The user shell on ''Carbon'' is [http://en.wikipedia.org/wiki/Bash_(Unix_shell) bash].
 
<!--
=== Documentation ===
* [http://tldp.org/LDP/Bash-Beginners-Guide/html/ Beginner's Guide]
* [http://mywiki.wooledge.org/BashGuide Another Beginner's Guide] and [http://mywiki.wooledge.org/BashGuide/Practices Practices]
* [http://www.gnu.org/software/bash/manual/ Reference Manual]
* [http://tldp.org/LDP/abs/html/ Advanced Scripting Guide]
* [http://tiswww.case.edu/php/chet/bash/FAQ Official FAQ]
* [http://mywiki.wooledge.org/BashFAQ Advanced FAQ]
-->


  # .bashrc
=== A note on tcsh for long-time Unix/Linux users ===
[http://en.wikipedia.org/wiki/C_shell <nowiki>[t]csh</nowiki>] used to be the only vendor-agnostic and widely available shell with decent command line features. Bash is now much better positioned in this area, and offers consistent programming on the command line and in scripts. Therefore, tcsh is now available only on request (to me, [[User:Stern|stern]]), if you absolutely, positively, insist, and know what you're doing. (There will be a quiz.)
 
There are [http://www.grymoire.com/Unix/CshTop10.txt good reasons not to use the C shell],
and classic wisdom states [http://www.faqs.org/faqs/unix-faq/shell/csh-whynot/ “csh programming considered harmful”].
Even though using <nowiki>[t]csh</nowiki> merely for interactive purposes may appear tolerable,
it is too tempting to set out from tweaking <code>.cshrc</code> into serious programming.
Don't do it. It is not supported. It's dead, Jim.
 
* Do not use <code>chsh</code> or <code>chfn</code>. Changes will be overwritten.
 
== Shell Customizations ==
Place customizations in your <code>~/.bashrc</code> file by using a text editor such as [http://www.nano-editor.org/ <code>nano</code>]. A pristine copy is shown below, or can be found at <code>/etc/skel/.bashrc</code>
<syntaxhighlight lang="bash">
# ~/.bashrc
# User's bash customization, Carbon template; stern 2011-09-15.
 
# Merge global definitions -- do not edit.
if [ -f /etc/bashrc ]; then
    . /etc/bashrc
fi
 
# Carbon customizations -- edit below.
export PATH=$HOME/bin:$PATH
 
#alias blah="foo -xyz"
#module load ...
</syntaxhighlight>
* For instance, to add binaries from a user's own compilation of <code>somepackage</code>, and load a couple of modules:
<syntaxhighlight lang="bash">
 
export PATH=$HOME/somepackage/bin:$HOME/bin:$PATH
 
# Load Carbon applications
module load name1 name2 …
module load name3/version
   
   
# Source global definitions
</syntaxhighlight>
if [ -f /etc/bashrc ]; then
 
        . /etc/bashrc
=== Test ===
fi
To test the impact of any changes, temporarily run a new shell:
<syntaxhighlight lang="bash">
export PATH='''''$HOME/mypackage/bin''''':$PATH
bash -l        # lowercase letter L
'''module load ''name1 name2 …'' '''
# run other shell commands
...
# inspect nesting level, then return to the parent shell
echo $SHLVL
exit
</syntaxhighlight>
* Make further corrections to ~/.bashrc as needed.
* You might get lost in multiple ''nested'' shell levels. To see the current nesting level, inspect the environment variable $SHLVL as shown above. A normal login shell runs at level '''1''', and the <code>exit</code> command in such a shell will log you out.
 
=== Pick up newly added modules ===
When all looks good, either:
* simply restart your shell in place:
: <code>exec bash -l</code>
:: Again, that's a lowercase letter "L".
* Alternatively, log out and back in, which is a bit more involved.


* tcsh only if you insist. It is not supported.  In fact: [http://www.faqs.org/faqs/unix-faq/shell/csh-whynot/ “csh programming considered harmful”] – [http://en.wikipedia.org/wiki/Tom_Christiansen Tom Christiansen]
=== Caveats ===
* Among the various [http://www.gnu.org/software/bash/manual/html_node/Bash-Startup-Files.html bash startup files] .bashrc is the one relevant [http://tldp.org/LDP/Bash-Beginners-Guide/html/sect_01_02.html#sect_01_02_02_02_06 when invoked remotely], such as on MPI child nodes reached by sshd.
* In general, '''do not place a <code>"module load …"</code> command in a PBS job script.'''
** This will only work reliably for single-node jobs.
** It will generally ''fail for multi-node'' jobs (nodes &gt; 1).
**: Reason: The job script is only executed (by the <code>pbs_mom</code> daemon on your behalf) on the first core on the first node of your request. The environment of this process will be cloned for the other cores on the first node, but not for cores on other nodes. How remote environments are configured depends on the MPI implementation. The various <code>mpirun</code> or <code>mpiexec</code> offer flags to pass some or all environment variables to other MPI processes, but these flags are implementation-specific and may not work reliably.
* The most reliable and recommended way is as above, to place module commands in ~/.bashrc. This might preclude job-specific module sets for conflicting modules or tasks. I'm thinking about a proper solution for this. --[[User:Stern|stern]]


== Modules – Introduction ==
== Modules – General documentation ==
''Carbon'' uses the [http://modules.sourceforge.net/ Environment Modules] package to dynamically provision software.
The package primarily modifies your $PATH and other environment variables.


* [[HPC/Software/Catalog | '''Current Carbon module catalog''']]
* A general introduction to modules can be found at many other sites, such as:
* A general introduction to modules can be found at many other sites, such as:
** [http://www.nersc.gov/users/software/nersc-user-environment/modules/ NERSC]
** [http://www.nersc.gov/users/software/nersc-user-environment/modules/ NERSC]
Line 26: Line 95:
  $ '''module help'''
  $ '''module help'''
  …
  …
   Usage: module [ switches ] [ subcommand ] [subcommand-args ]
   Usage: module [ switches ] [ '''subcommand''' ] [subcommand-args ]
  …
  …
   
   
   Available SubCommands and Args:
   Available SubCommands and Args:
   
   
  + load modulefile [modulefile ...]
  + '''load''' modulefile [modulefile ...]
  + unload modulefile [modulefile ...]
  + '''unload''' modulefile [modulefile ...]
  + switch [modulefile1] modulefile2.]
  + '''switch''' [modulefile1] modulefile2.]
  + list
  + '''list'''
   
   
  + avail [modulefile [modulefile ...]]
  + '''avail''' [modulefile [modulefile ...]]
  + whatis [modulefile [modulefile ...]]
  + '''whatis''' [modulefile [modulefile ...]]
  + help [modulefile [modulefile ...]]
  + '''help''' [modulefile [modulefile ...]]
  + show modulefile [modulefile ..]
  + '''show''' modulefile [modulefile ..]


For full documentation, consult the manual page:
For full documentation, consult the manual page:
Line 45: Line 114:


== Module Conventions on Carbon ==
== Module Conventions on Carbon ==
See [[HPC/Module naming scheme 2008]]


* Most application software is installed under <code>'''/opt/soft/'''</code>
[[Category:HPC]]
* Package directories are named <code>''' ''name-version-build'' '''</code>, e.g. <code>/opt/soft/jmol-12.1.37-1</code>.
* Module names are organized by a mostly version-less name, with the version following after a slash: <code>''' ''name/version-build'' '''</code>. Using the <code>''name''</code> alone is possible and will select a default version for a SubCommand to act upon. Some packages carry a major version number in their name, notably fftw3 and vasp5.
* <code>module help</code> briefly describes a package and will usually contain a link to its home page.
$ module help jmol
----------- Module Specific Help for 'jmol/12.0.34-1' -------------
Jmol is a molecule viewer platform for researchers in chemistry and
biochemistry, implemented in Java for multi-platform use.  This is the
standalone application.  It offers high-performance 3D rendering with
no hardware requirements and supports many popular file formats.
http://jmol.sourceforge.net/
http://wiki.jmol.org/
* Home dirs: Most modules will set a convenience variable <code>''' ''NAME''_HOME'''</code> which points to the toplevel directory. This is mostly useful to inspect documentation and auxiliary files:
$ module load jmol
$ ls -l '''$JMOL_HOME'''/doc
total 488
-rw-r--r-- 1 stern stern 369786 Feb 25 12:59 CHANGES.txt
-rw-r--r-- 1 stern stern  2841 Feb 25 12:59 COPYRIGHT.txt
: … and to specifcy link paths in makefiles:
$ module load fftw3
 
LDFLAGS += -L'''$FFTW3_HOME'''/lib/
 
* Default modules are loaded by <code>/etc/profile.d/zz-moduleuse.sh</code>. (The strange name form ensures this profile segment is loaded last.)
$ module list
Currently Loaded Modulefiles:
  1) moab/6.0.3-1              4) icc/11/11.1.073
  2) gold/2.1.11.0-4          5) ifort/11/11.1.073
  3) openmpi/1.4.3-intel11-1  6) mkl/10.2.6.038
 
<!-- OBSOLETE:
For now the only applications are the [[HPC/Carbon Cluster - Development tools| Development tools]].
 
Admin note:  The master copy of these files resides in <code>mgmt{01,02}:/opt/teamhpc/node-skel/etc/profile.d</code> and is distributed by <code>~root/bin/skeldistrib</code>.
-->

Latest revision as of 18:25, November 17, 2016

 Introduction

Carbon uses the Environment Modules package to dynamically provision software. The package primarily modifies your $PATH and other environment variables.

To select packages for your use, place module load name commands near the end of your ~/.bashrc file.

The Shell

The user shell on Carbon is bash.


A note on tcsh for long-time Unix/Linux users

[t]csh used to be the only vendor-agnostic and widely available shell with decent command line features. Bash is now much better positioned in this area, and offers consistent programming on the command line and in scripts. Therefore, tcsh is now available only on request (to me, stern), if you absolutely, positively, insist, and know what you're doing. (There will be a quiz.)

There are good reasons not to use the C shell, and classic wisdom states “csh programming considered harmful”. Even though using [t]csh merely for interactive purposes may appear tolerable, it is too tempting to set out from tweaking .cshrc into serious programming. Don't do it. It is not supported. It's dead, Jim.

  • Do not use chsh or chfn. Changes will be overwritten.

Shell Customizations

Place customizations in your ~/.bashrc file by using a text editor such as nano. A pristine copy is shown below, or can be found at /etc/skel/.bashrc 

# ~/.bashrc
# User's bash customization, Carbon template; stern 2011-09-15.

# Merge global definitions -- do not edit.
if [ -f /etc/bashrc ]; then
    . /etc/bashrc
fi

# Carbon customizations -- edit below.
export PATH=$HOME/bin:$PATH

#alias blah="foo -xyz"
#module load ...
  • For instance, to add binaries from a user's own compilation of somepackage, and load a couple of modules:
export PATH=$HOME/somepackage/bin:$HOME/bin:$PATH

# Load Carbon applications
module load name1 name2 …
module load name3/version

Test

To test the impact of any changes, temporarily run a new shell: 

bash -l        # lowercase letter L
# run other shell commands
...
# inspect nesting level, then return to the parent shell
echo $SHLVL
exit
  • Make further corrections to ~/.bashrc as needed.
  • You might get lost in multiple nested shell levels. To see the current nesting level, inspect the environment variable $SHLVL as shown above. A normal login shell runs at level 1, and the exit command in such a shell will log you out.

Pick up newly added modules

When all looks good, either:

  • simply restart your shell in place:
exec bash -l
Again, that's a lowercase letter "L".
  • Alternatively, log out and back in, which is a bit more involved.

Caveats

  • Among the various bash startup files .bashrc is the one relevant when invoked remotely, such as on MPI child nodes reached by sshd.
  • In general, do not place a "module load …" command in a PBS job script.
    • This will only work reliably for single-node jobs.
    • It will generally fail for multi-node jobs (nodes > 1).
      Reason: The job script is only executed (by the pbs_mom daemon on your behalf) on the first core on the first node of your request. The environment of this process will be cloned for the other cores on the first node, but not for cores on other nodes. How remote environments are configured depends on the MPI implementation. The various mpirun or mpiexec offer flags to pass some or all environment variables to other MPI processes, but these flags are implementation-specific and may not work reliably.
  • The most reliable and recommended way is as above, to place module commands in ~/.bashrc. This might preclude job-specific module sets for conflicting modules or tasks. I'm thinking about a proper solution for this. --stern

Modules – General documentation

  • A general introduction to modules can be found at many other sites, such as: 
$ module help
…
  Usage: module [ switches ] [ subcommand ] [subcommand-args ]
…

  Available SubCommands and Args:

+ load		modulefile [modulefile ...]
+ unload	modulefile [modulefile ...]
+ switch	[modulefile1] modulefile2.]
+ list

+ avail		[modulefile [modulefile ...]]
+ whatis	[modulefile [modulefile ...]]
+ help		[modulefile [modulefile ...]]
+ show		modulefile [modulefile ..]

For full documentation, consult the manual page: 

$ man module

Module Conventions on Carbon

See HPC/Module naming scheme 2008

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