AMBER-Sapelo2: Difference between revisions
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=== Version === | === Version === | ||
22 | |||
=== Author / Distributor === | === Author / Distributor === | ||
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For more information on Environment Modules on Sapelo2 please see the [[Lmod]] page. | For more information on Environment Modules on Sapelo2 please see the [[Lmod]] page. | ||
'''AMBER 22 and AmberTools 22.3''' | |||
AMBER 22 and AmberTools 22.3 were compiled with the foss-2021b toolchain (GNU 11.2.0 compiler suite, OpenMPI 4.1.1), and CUDA 11.4.1. This version includes serial binaries, and binaries with CUDA and MPI support. | |||
To use this version of AMBER, first load the Amber/ | To use this version of AMBER on the GPU, first load the Amber/22.0-foss-2021b-AmberTools-22.3-CUDA-11.4.1 module with | ||
<pre class="gcommand"> | <pre class="gcommand"> | ||
ml Amber/ | ml Amber/22.0-foss-2021b-AmberTools-22.3-CUDA-11.4.1 | ||
</pre> | </pre> | ||
This module will automatically load its dependencies. | This module will automatically load its dependencies. | ||
To use this version of AMBER, first load the Amber/22-foss- | To use this version of AMBER on the CPU only, first load the Amber/22.0-foss-2021b-AmberTools-22.3 module with | ||
<pre class="gcommand"> | <pre class="gcommand"> | ||
ml Amber/22-foss- | ml Amber/22.0-foss-2021b-AmberTools-22.3 | ||
</pre> | </pre> | ||
This module will automatically load its dependencies | This module will automatically load its dependencies. | ||
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In the example below the name of the input file is prod.in. | In the example below the name of the input file is prod.in. | ||
Example of shell script (submpi.sh) to run | Example of shell script (submpi.sh) to run Amber22 in the batch queue, using 96 processes: | ||
<pre class="gscript"> | <pre class="gscript"> | ||
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export OMP_NUM_THREADS=1 | export OMP_NUM_THREADS=1 | ||
ml Amber/ | ml Amber/22.0-foss-2021b-AmberTools-22.3 | ||
source ${AMBERHOME}/amber.sh | source ${AMBERHOME}/amber.sh | ||
srun $AMBERHOME/bin/pmemd.MPI -O -i prod.in -o prod_${SLURM_JOB_ID}.out -p prod.prmtop -c restart.rst -r prod.rst -x prod.mdcrd | srun $AMBERHOME/bin/pmemd.MPI -O -i prod.in -o prod_${SLURM_JOB_ID}.out -p prod.prmtop -c restart.rst -r prod.rst -x prod.mdcrd | ||
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In the example below the name of the input file is prod.in. | In the example below the name of the input file is prod.in. | ||
Example of shell script (subcuda.sh) to run | Example of shell script (subcuda.sh) to run AMBER22 in the GPU queue (gpu_q), using one GPU card: | ||
<pre class="gscript"> | <pre class="gscript"> | ||
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#SBATCH --job-name=amber # Job name | #SBATCH --job-name=amber # Job name | ||
#SBATCH --partition=gpu_p # Partition (queue) name | #SBATCH --partition=gpu_p # Partition (queue) name | ||
#SBATCH --gres=gpu: | #SBATCH --gres=gpu:A100:1 | ||
#SBATCH --ntasks=24 # Run a single task | #SBATCH --ntasks=24 # Run a single task | ||
#SBATCH --cpus-per-task=1 # Number of CPU cores per task | #SBATCH --cpus-per-task=1 # Number of CPU cores per task | ||
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cd $SLURM_SUBMIT_DIR | cd $SLURM_SUBMIT_DIR | ||
ml Amber/ | ml Amber/22.0-foss-2021b-AmberTools-22.3-CUDA-11.4.1 | ||
source ${AMBERHOME}/amber.sh | source ${AMBERHOME}/amber.sh | ||
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</pre> | </pre> | ||
Note: Here the input parameter file is called prod.in and the files prod.prmtop and restart.rst are also needed. The parameters of the job, such as the maximum wall clock time, the memory per MPI process, the number of ntasks, and the job name need to be modified appropriately as well. | Note: Here the input parameter file is called prod.in and the files prod.prmtop and restart.rst are also needed. The parameters of the job, such as the maximum wall clock time, the memory per MPI process, the number of ntasks, and the job name need to be modified appropriately as well. | ||
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=== Installation === | === Installation === | ||
* Amber 22: Source code compiled with the foss-2021b toolchain (GNU 11.2.0 compiler suite, OpenMPI 4.1.1), and CUDA 11.4.1. | |||
* Amber 22: Source code compiled with the foss- | |||
=== System === | === System === | ||
64-bit Linux | 64-bit Linux |
Latest revision as of 10:15, 5 September 2023
Category
Chemistry
Program On
Sapelo2
Version
22
Author / Distributor
Please see http://ambermd.org/#developers
When citing Amber22 or AmberTools22 please use the following: D.A. Case, H.M. Aktulga, K. Belfon, I.Y. Ben-Shalom, J.T. Berryman, S.R. Brozell, D.S. Cerutti, T.E. Cheatham, III, G.A. Cisneros, V.W.D. Cruzeiro, T.A. Darden, R.E. Duke, G. Giambasu, M.K. Gilson, H. Gohlke, A.W. Goetz, R. Harris, S. Izadi, S.A. Izmailov, K. Kasavajhala, M.C. Kaymak, E. King, A. Kovalenko, T. Kurtzman, T.S. Lee, S. LeGrand, P. Li, C. Lin, J. Liu, T. Luchko, R. Luo, M. Machado, V. Man, M. Manathunga, K.M. Merz, Y. Miao, O. Mikhailovskii, G. Monard, H. Nguyen, K.A. O'Hearn, A. Onufriev, F. Pan, S. Pantano, R. Qi, A. Rahnamoun, D.R. Roe, A. Roitberg, C. Sagui, S. Schott-Verdugo, A. Shajan, J. Shen, C.L. Simmerling, N.R. Skrynnikov, J. Smith, J. Swails, R.C. Walker, J Wang, J. Wang, H. Wei, R.M. Wolf, X. Wu, Y. Xiong, Y. Xue, D.M. York, S. Zhao, and P.A. Kollman (2022), Amber 2022, University of California, San Francisco.
Description
From http://ambermd.org/: " "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."
Running Program
Also refer to Running Jobs on Sapelo2.
For more information on Environment Modules on Sapelo2 please see the Lmod page.
AMBER 22 and AmberTools 22.3
AMBER 22 and AmberTools 22.3 were compiled with the foss-2021b toolchain (GNU 11.2.0 compiler suite, OpenMPI 4.1.1), and CUDA 11.4.1. This version includes serial binaries, and binaries with CUDA and MPI support.
To use this version of AMBER on the GPU, first load the Amber/22.0-foss-2021b-AmberTools-22.3-CUDA-11.4.1 module with
ml Amber/22.0-foss-2021b-AmberTools-22.3-CUDA-11.4.1
This module will automatically load its dependencies.
To use this version of AMBER on the CPU only, first load the Amber/22.0-foss-2021b-AmberTools-22.3 module with
ml Amber/22.0-foss-2021b-AmberTools-22.3
This module will automatically load its dependencies.
1. Running the MPI version:
In the example below the name of the input file is prod.in.
Example of shell script (submpi.sh) to run Amber22 in the batch queue, using 96 processes:
#!/bin/bash #SBATCH --job-name=amber # Job name #SBATCH --partition=batch # Partition (queue) name #SBATCH --ntasks=96 # Run a single task #SBATCH --cpus-per-task=1 # Number of CPU cores per task #SBATCH --mem-per-cpu=2gb # Job memory per MPI process request #SBATCH --time=10:00:00 # Time limit hrs:min:sec cd $SLURM_SUBMIT_DIR export OMP_NUM_THREADS=1 ml Amber/22.0-foss-2021b-AmberTools-22.3 source ${AMBERHOME}/amber.sh srun $AMBERHOME/bin/pmemd.MPI -O -i prod.in -o prod_${SLURM_JOB_ID}.out -p prod.prmtop -c restart.rst -r prod.rst -x prod.mdcrd
Note: Here the input parameter file is called prod.in and the files prod.prmtop and restart.rst are also needed. The parameters of the job, such as the maximum wall clock time, the memory per MPI process, the number of ntasks, and the job name need to be modified appropriately as well.
Sample job submission command:
sbatch submpi.sh
2. Running the CUDA version:
In the example below the name of the input file is prod.in.
Example of shell script (subcuda.sh) to run AMBER22 in the GPU queue (gpu_q), using one GPU card:
#!/bin/bash #SBATCH --job-name=amber # Job name #SBATCH --partition=gpu_p # Partition (queue) name #SBATCH --gres=gpu:A100:1 #SBATCH --ntasks=24 # Run a single task #SBATCH --cpus-per-task=1 # Number of CPU cores per task #SBATCH --mem-per-cpu=2gb # Job memory per MPI process request #SBATCH --time=10:00:00 # Time limit hrs:min:sec cd $SLURM_SUBMIT_DIR ml Amber/22.0-foss-2021b-AmberTools-22.3-CUDA-11.4.1 source ${AMBERHOME}/amber.sh $AMBERHOME/bin/pmemd.cuda -O -i prod.in -o prod_${SLURM_JOB_ID}.out -p prod.prmtop -c restart.rst -r prod.rst -x prod.mdcrd
Note: Here the input parameter file is called prod.in and the files prod.prmtop and restart.rst are also needed. The parameters of the job, such as the maximum wall clock time, the memory per MPI process, the number of ntasks, and the job name need to be modified appropriately as well.
Sample job submission command:
sbatch subcuda.sh
Documentation
Please see http://ambermd.org/
Installation
- Amber 22: Source code compiled with the foss-2021b toolchain (GNU 11.2.0 compiler suite, OpenMPI 4.1.1), and CUDA 11.4.1.
System
64-bit Linux