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a versatile package to perform molecular dynamics for systems with hundreds to millions of particles. |
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GROMACS provides extremely high performance compared to all other programs.
GROMACS can make simultaneous use of both CPU and GPU available in a system. There are options to statically and dynamically balance the load between the different resources.
GROMACS is user-friendly, with topologies and parameter files written in clear text format.
Both run input files and trajectories are independent of hardware endian-ness, and can thus be read by any version GROMACS.
GROMACS comes with a large selection of flexible tools for trajectory analysis.
GROMACS can be run in parallel, using the standard MPI communication protocol.
GROMACS contains several state-of-the-art algorithms.
GROMACS is Free Software, available under the GNU Lesser General Public License (LGPL).
Weaknesses
GROMACS does not do to much further analysis to get very high simulation speed.
Sometimes it is challenging to get non-standard information about the simulated system.
Different versions sometimes have differences in default parameters/methods. Reproducing older version simulations with a newer version can be difficult.
Additional tools and utilities provided by GROMACS are sometimes not the top quality.
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The following versions have been installed:
Version | Module file | Thread-MPI (gmx) | MPI (gmx_mpi) | Plumed (gmx_mpi_plumed) | Prerequisites |
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CPU CLX partition | |||||
2021.7 | gromacs/2021.7 | impi/2021.13 | |||
2023.0 | gromacs/2023.0 | impi/2021.13 | |||
CPU Genoa partition | |||||
GPU A100 partition | |||||
2022.5 | gromacs/2022.5 | gcc/11.3.0 cuda/11.8 |
openmpi/ |
gcc.11/4.1.4 | |||||
2023.0 | gromacs/2023.0_tmpi | gcc/11.3.0 intel/2023.0.0 cuda/11.8 | |||
2024.0 | gromacs/2024.0_tmpi | gcc/11.3.0 intel/2023.0.0 cuda/12.3 | |||
GPU PVC partition | |||||
Version | Installation Path | modulefile | compiler | comment |
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2023.0
/sw/chem/gromacs/2023/clx.el9/mpi & /sw/chem/gromacs/2023/clx.el9/mpi_plumed
gromacs/2023.0
gcc/g++ with Intel MPI
contains normal gmx_mpi
binary and PLUMED-patched gmx_mpi_plumed
binary
Modules for running on GPUs
2022.5
/sw/chem/gromacs/2022.5/a100/impi
gromacs/2022.5
gcc/g++ with intel MPI
contains normal gmx_mpi
binary and PLUMED-patched gmx_mpi_plumed
binary
2023.0
/sw/chem/gromacs/2023.0/a100/tmpi_gcc
gromacs/2023.0_tmpi
2024.0
/sw/chem/gromacs/2024.0/a100/tmpi
gromacs/2024.0_tmpi
*Release notes can be found here.
These modules can be loaded by using a module load command. Note that Intel MPI module file should be loaded first:
...
This provides access to the binary gmx_mpi wich can be used to run simulations with sub-commands as gmx_mpi mdrun
In order to run simulations MPI runner should be used:
...
In order to load the GPU enabled version (avaiable only on the bgn nodes):
Modules can be loaded by using a module load command. Note that the following module files should be loaded first:
module load gcc/11.3.0 intel/2023.0.0 cuda/11.8 gromacs/2023.0_tmpi
Submission script examples
Simple CPU job script
A simple case of a GROMACS job using a total of 640 CPU cores for 12 hours. The requested amount of cores in the example does not include all available cores on the allocated nodes. The job will execute 92 ranks on 3 nodes + 91 ranks on 4 nodes. You can use this example if you know the exact amount of required ranks you want to use.*Release notes can be found here.
These modules can be loaded by using a module load command. Note that Intel MPI module file should be loaded first:
module load impi/2019.5 gromacs/2019.6
This provides access to the binary gmx_mpi wich can be used to run simulations with sub-commands as gmx_mpi mdrun
In order to run simulations MPI runner should be used:
mpirun gmx_mpi mdrun MDRUNARGUMENTS
In order to load the GPU enabled version (avaiable only on the bgn nodes):
Modules can be loaded by using a module load command. Note that the following module files should be loaded first:
module load gcc/11.3.0 intel/2023.0.0 cuda/11.8 gromacs/2023.0_tmpi
Submission script examples
Simple CPU job script
A simple case of a GROMACS job using a total of 640 CPU cores for 12 hours. The requested amount of cores in the example does not include all available cores on the allocated nodes. The job will execute 92 ranks on 3 nodes + 91 ranks on 4 nodes. You can use this example if you know the exact amount of required ranks you want to use.
Codeblock | ||
---|---|---|
| ||
#!/bin/bash
#SBATCH -t 12:00:00
#SBATCH -p standard96
#SBATCH -n 640
export SLURM_CPU_BIND=none
module load impi/2019.5
module load gromacs/2019.6
mpirun gmx_mpi mdrun MDRUNARGUMENTS |
Whole node CPU job script
In case you want to use all cores on the allocated nodes, there are another options of the batch system to request the amount of nodes and number of tasks. The example below will result in running 672 ranks.
Codeblock | ||
---|---|---|
| ||
#!/bin/bash
#SBATCH -t 12:00:00
#SBATCH -p standard96
#SBATCH -N 7
#SBATCH --tasks-per-node 96
export SLURM_CPU_BIND=none
module load impi/2019.5
module load gromacs/2019.6
mpirun gmx_mpi mdrun MDRUNARGUMENTS |
GPU job script
Following script using four thread-MPI ranks. One is dedicated to the long-range PME calculation. Using the -gputasks 0001 keyword: the first 3 threads offload their short-range non-bonded calculations to the GPU with ID 0, the 4th (PME) thread offloads its calculations to the GPU with ID 1.
Codeblock | ||
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#!/bin/bash
#SBATCH --time=12:00:00
#SBATCH --partition=gpu-a100
#SBATCH --ntasks=72
export SLURM_CPU_BIND=none
module load gcc/11.3.0 intel/2023.0.0 cuda/11.8
module load gromacs/2023.0_tmpi
export GMX_GPU_DD_COMMS=true
export GMX_GPU_PME_PP_COMMS=true
OMP_NUM_THREADS=9
gmx mdrun -ntomp 9 -ntmpi 4 -nb gpu -pme gpu -npme 1 -gputasks 0001 OTHER MDRUNARGUMENTS |
If you are using MPI versions (non-thread-MPI, or eg., to take advantage of PLUMED) GPU-accelerated GROMACS, you can proceed in a similar fashion, but instead use the mpirun/mpiexec
task launcher before the GROMACS binary. An example job script asking for 2 A100 GPUs across 2 nodes is shown below:
Codeblock | ||
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| ||
#!/bin/bash #SBATCH --t time=12:00:00 #SBATCH -p standard96 #SBATCH -n 640 export SLURM_CPU_BIND=none module load impi/2019.5 module load gromacs/2019.6 mpirun gmx_mpi mdrun MDRUNARGUMENTS |
Whole node CPU job script
In case you want to use all cores on the allocated nodes, there are another options of the batch system to request the amount of nodes and number of tasks. The example below will result in running 672 ranks.
Codeblock | ||
---|---|---|
| ||
#!/bin/bash
#SBATCH -t 12:00:00
#SBATCH -p standard96
#SBATCH -N 7
#SBATCH --tasks-per-node 96
export SLURM_CPU_BIND=none
module load impi/2019.5
module load gromacs/2019.6
mpirun gmx_mpi mdrun MDRUNARGUMENTS |
GPU job script
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-partition=gpu-a100
#SBATCH --nodes=2
#SBATCH --ntasks-per-node=4
export SLURM_CPU_BIND=none
module load gcc/11.3.0 cuda/11.8 openmpi/gcc.11/4.1.4
module load gromacs/2022.5
export GMX_GPU_DD_COMMS=true
export GMX_GPU_PME_PP_COMMS=true
export GMX_ENABLE_DIRECT_GPU_COMM=true
OMP_NUM_THREADS=9
mpiexec -np 8 -npernode 4 gmx_mpi mdrun -ntomp 9 -nb gpu -pme gpu -npme 1 -gpu_id 01 OTHER MDRUNARGUMENTS |
Whole node GPU job script
To setup a whole node GPU job use the -gputasks keyword.
Codeblock | ||
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| ||
#!/bin/bash #SBATCH --time=12:00:00 #SBATCH --partition=gpu-a100 #SBATCH --ntasks=72 export SLURM_CPU_BIND=none module load gcc/11.3.0 intel/2023.0.0 cuda/11.8 module load gromacs/2023.0_tmpi export GMX_GPU_DD_COMMS=true export GMX_GPU_PME_PP_COMMS=true OMP_NUM_THREADS=9 gmx mdrun -ntomp 9 -ntmpi 4 -nb gpu -pme gpu 9 -npmentmpi 116 -gputasks 00010000111122223333 OTHER MDRUNARGUMENTS |
If you are using MPI versions (non-thread-MPI, or eg., to take advantage of PLUMED) GPU-accelerated GROMACS, you can proceed in a similar fashion, but instead use the mpirun
task launcher before the GROMACS binary. An example job script asking for 2 A100 GPUs across 2 nodes is shown below:
Codeblock | ||
---|---|---|
| ||
#!/bin/bash
#SBATCH --time=12:00:00
#SBATCH --partition=gpu-a100
#SBATCH --nodes=2
#SBATCH --ntasks-per-node=72
export SLURM_CPU_BIND=none
module load gcc/11.3.0 cuda/11.8 impi/2021.11
module load gromacs/2022.5
export GMX_GPU_DD_COMMS=true
export GMX_GPU_PME_PP_COMMS=true
export GMX_ENABLE_DIRECT_GPU_COMM=true
OMP_NUM_THREADS=9
mpirun -np 4 -ppn 2 gmx_mpi mdrun -ntomp 9 -ntmpi 4 -nb gpu -pme gpu -npme 1 -gpu_id 01 OTHER MDRUNARGUMENTS |
Whole node GPU job script
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MDRUNARGUMENTS |
Note: Settings of the Thread-MPI ranks and OpenMP threads is for achieve optimal performance. The number of ranks should be a multiple of the number of sockets, and the number of cores per node should be a multiple of the number of threads per rank.
Related Modules
Gromacs-Plumed
PLUMED is an open-source, community-developed library that provides a wide range of different methods, such as enhanced-sampling algorithms, free-energy methods and tools to analyze the vast amounts of data produced by molecular dynamics (MD) simulations. PLUMED works together with some of the most popular MD engines.
Since the migration of the CPU partition from CentOS to Rocky 9 Linux, all GROMACS-PLUMED modules have now been combined with normal GROMACS modules. For example, to use GROMACS 2023.0 with PLUMED, one can load gromacs/2022.5
and have access to both normal (gmx_mpi
) and PLUMED-patched (gmx_mpi_plumed
) binaries.
PLUMED can be used to bias GROMACS simulations with an appropriate PLUMED data file supplied as input for the -plumed
option for the gmx_mpi_plumed
mdrun
command:
Codeblock | ||
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#!/bin/bash #SBATCH --time=12:00:00 #SBATCH --partition=gpu-a100cpu-clx #SBATCH --nodes=2 #SBATCH --ntasks-per-node=72 export SLURM_CPU_BIND=none module load gcc/11.3.0 intel/2023.0.0 cuda/11.8 module load gromacs/2023.0_tmpi export GMX_GPU_DD_COMMS=true export GMX_GPU_PME_PP_COMMS=trueopenmpi/gcc.11/4.1.4 module load gromacs/2022.5 OMP_NUM_THREADS=9 gmx2 mpiexec -np 144 -npernode 72 gmx_mpi mdrun -ntomp 92 -ntmpinpme 161 -gputasks 0000111122223333 MDRUNARGUMENTS |
Note: Settings of the Thread-MPI ranks and OpenMP threads is for achieve optimal performance. The number of ranks should be a multiple of the number of sockets, and the number of cores per node should be a multiple of the number of threads per rank.
Related Modules
Gromacs-Plumed
PLUMED is an open-source, community-developed library that provides a wide range of different methods, such as enhanced-sampling algorithms, free-energy methods and tools to analyze the vast amounts of data produced by molecular dynamics (MD) simulations. PLUMED works together with some of the most popular MD engines.
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pin on -plumed plumed.dat OTHER MDRUNARGUMENTS |
Hinweis |
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Not every GROMACS GPU option is compatible with PLUMED operations. For example, |
For additional information about PLUMED, please visit the official website.
Analyzing results
GROMACS Tools
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Turbo-boost has been mostly disabled on Emmy at GWDG (partitions medium40, large40, standard96, large96, and huge96) in order to save energy. However, this has a particularly strong performance impact on GROMACS in the range of 20-40%. Therefore, we recommend that GROMACS jobs be submitted requesting turbo-boost to be enabled with the --constraint=turbo_on option given to srun or sbatch.