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#$ -pe openmpi 4 | #$ -pe openmpi 4 | ||
</pre> | </pre> | ||
====Use Amber on the Cheaha==== | |||
Sample Job script for Amber | |||
<pre> | |||
Create a job submit script as shown below called 'amberSubmit', make sure to edit the following parameters: | |||
* s_rt to an appropriate soft wall time limit | |||
* h_rt to the maximum wall time for your job | |||
* -N - job name | |||
* -M - user email | |||
* -pe openmpi numberOfProcessors (-pe openmpi 8 - run the code in parallel on 8 processors on the Cheaha compute nodes.) | |||
* -l vf to the maximum memory needed for each task | |||
* cd to the current working directory where the job data is stored | |||
* Replace file.{in,out,restrt,prmtop,cmd} name with your files. | |||
</pre> | |||
<pre> | |||
#!/bin/bash | |||
#$ -S /bin/bash | |||
# | |||
# Example Amber job submission script can be found here: | |||
# | |||
# Execute from the current working directory | |||
#$ -cwd | |||
# | |||
# Job runtime (1 hour, at 55 minutes Amber will be notified to shut down) | |||
#$ -l h_rt=1:00:00,s_rt=0:55:00 | |||
#$ -j y | |||
# | |||
# Job Name and email | |||
#$ -N ambertest_1 | |||
#$ -M YOUR_EMAIL_ADDRESS | |||
# Email options to determine when to send emails | |||
#$ -m be | |||
# | |||
#$ -pe openmpi 4 | |||
# | |||
# Load the appropriate module(s) | |||
. /etc/profile.d/modules.sh | |||
module load amber/amber-10-intel | |||
# | |||
#$ -V | |||
#$ -l vf=1G | |||
# | |||
mpirun -np $NSLOTS $AMBERHOME/exe/sander.MPI -O -i file.in -o file.out -c file.restrt -p file.prmtop -r file.restrt -x file.cmd -ref file.restrt | |||
</pre> | |||
Submit the script to the scheduler with | |||
<pre> | |||
$ qsub amberSubmit | |||
</pre> | |||
The output will be | |||
<pre> | |||
Your job 82341234 ("ambertest_1") has been submitted | |||
</pre> | |||
The basic usage for sander is as follows: | |||
<pre> | |||
sander [-O] -i mdin -o mdout -p prmtop -c inpcrd -r restrt | |||
[-ref refc] [-x mdcrd] [-v mdvel] [-e mden] [-inf mdinfo] | |||
Arguments in []'s are optional | |||
If an argument is not specified, the default name will be used. | |||
-O overwrite all output files (the default behavior is to quit if any output files already exist) | |||
-i the name of the input file (which describes the simulation options), mdin by default. | |||
-o the name of the output file, mdout by default. | |||
-p the parameter/topology file, prmtop by default. | |||
-c the set of initial coordinates for this run, inpcrd by default. | |||
-r the final set of coordinates from this MD or minimization run, restrt by default. | |||
-ref reference coordinates for positional restraints, if this option is specified in the input file, refc by default. | |||
-x the molecular dynamics trajectory file (if running MD), mdcrd by default. | |||
-v the molecular dynamics velocities file (if running MD), mdvel by default. | |||
-e a summary file of the energies (if running MD), mden by default. | |||
-inf a summary file written every time energy information is printed in the output file for the current step of the minimization of MD, useful for checking on the progress of a simulation, mdinfo by default. | |||
</pre> | |||
Some basic testing completed with data available at:http://ambermd.org/tutorials/basic/tutorial1/section3.htm | |||
[[Category:Software]][[Category:Molecular Dynamics]][[Category:Chemistry]] | [[Category:Software]][[Category:Molecular Dynamics]][[Category:Chemistry]] | ||
Latest revision as of 17:31, 16 July 2012
This page is a Generic stub.
You can help by expanding this page..
"Amber" refers to two things: a set of molecular mechanical force fields for the simulation of biomolecules (which are in the public domain, and are used in a variety of simulation programs); and a package of molecular simulation programs which includes source code and demos.
Amber is compiled using Intel compilers and uses OpenMPI for the parallel binaries.
Project website: http://ambermd.org/
Load SGE module
The following Modules files should be loaded for this package (the amber module will automatically load the openmpi module):
For Intel:
module load amber/amber-10-intel
Use the openmpi parallel environment in your job script (example for a 4 slot job)
#$ -pe openmpi 4
Use Amber on the Cheaha
Sample Job script for Amber
Create a job submit script as shown below called 'amberSubmit', make sure to edit the following parameters:
* s_rt to an appropriate soft wall time limit
* h_rt to the maximum wall time for your job
* -N - job name
* -M - user email
* -pe openmpi numberOfProcessors (-pe openmpi 8 - run the code in parallel on 8 processors on the Cheaha compute nodes.)
* -l vf to the maximum memory needed for each task
* cd to the current working directory where the job data is stored
* Replace file.{in,out,restrt,prmtop,cmd} name with your files.
#!/bin/bash #$ -S /bin/bash # # Example Amber job submission script can be found here: # # Execute from the current working directory #$ -cwd # # Job runtime (1 hour, at 55 minutes Amber will be notified to shut down) #$ -l h_rt=1:00:00,s_rt=0:55:00 #$ -j y # # Job Name and email #$ -N ambertest_1 #$ -M YOUR_EMAIL_ADDRESS # Email options to determine when to send emails #$ -m be # #$ -pe openmpi 4 # # Load the appropriate module(s) . /etc/profile.d/modules.sh module load amber/amber-10-intel # #$ -V #$ -l vf=1G # mpirun -np $NSLOTS $AMBERHOME/exe/sander.MPI -O -i file.in -o file.out -c file.restrt -p file.prmtop -r file.restrt -x file.cmd -ref file.restrt
Submit the script to the scheduler with
$ qsub amberSubmit
The output will be
Your job 82341234 ("ambertest_1") has been submitted
The basic usage for sander is as follows:
sander [-O] -i mdin -o mdout -p prmtop -c inpcrd -r restrt
[-ref refc] [-x mdcrd] [-v mdvel] [-e mden] [-inf mdinfo]
Arguments in []'s are optional
If an argument is not specified, the default name will be used.
-O overwrite all output files (the default behavior is to quit if any output files already exist)
-i the name of the input file (which describes the simulation options), mdin by default.
-o the name of the output file, mdout by default.
-p the parameter/topology file, prmtop by default.
-c the set of initial coordinates for this run, inpcrd by default.
-r the final set of coordinates from this MD or minimization run, restrt by default.
-ref reference coordinates for positional restraints, if this option is specified in the input file, refc by default.
-x the molecular dynamics trajectory file (if running MD), mdcrd by default.
-v the molecular dynamics velocities file (if running MD), mdvel by default.
-e a summary file of the energies (if running MD), mden by default.
-inf a summary file written every time energy information is printed in the output file for the current step of the minimization of MD, useful for checking on the progress of a simulation, mdinfo by default.
Some basic testing completed with data available at:http://ambermd.org/tutorials/basic/tutorial1/section3.htm