[go: up one dir, main page]

Skip to content

Quickly generate, start and analyze benchmarks for molecular dynamics simulations.

License

Notifications You must be signed in to change notification settings

bio-phys/MDBenchmark

Repository files navigation

Benchmark molecular dynamics simulations

https://github.com/bio-phys/MDBenchmark/actions/workflows/tests.yml/badge.svg?branch=develop https://readthedocs.org/projects/mdbenchmark/badge/?version=latest&style=flat https://img.shields.io/badge/PRs-welcome-brightgreen.svg?style=flat-square

MDBenchmark — quickly generate, start and analyze benchmarks for your molecular dynamics simulations.

MDBenchmark is a tool to squeeze the maximum out of your limited computing resources. It tries to make it as easy as possible to set up systems on varying numbers of nodes and compare their performances to each other.

You can also create a plot to get a quick overview of the possible performance (and also show of to your friends)! The plot below shows the performance of a molecular dynamics system on up to five nodes with and without GPUs.

https://raw.githubusercontent.com/bio-phys/MDBenchmark/master/docs/_static/runtimes.png

Installation

You can install mdbenchmark via pip, conda or pipenv:

pip

pip install mdbenchmark

conda

conda install -c conda-forge mdbenchmark

pipx

pipx install mdbenchmark

pipenv

pipenv install mdbenchmark

After installation MDBenchmark is accessible on your command-line via mdbenchmark:

$ mdbenchmark
Usage: mdbenchmark [OPTIONS] COMMAND [ARGS]...

Generate, run and analyze benchmarks of molecular dynamics simulations.

Options:
--version  Show the version and exit.
--help     Show this message and exit.

Commands:
analyze   Analyze benchmarks and print the performance...
generate  Generate benchmarks for molecular dynamics...
plot      Generate plots showing the benchmark...
submit    Submit benchmarks to queuing system.

Features

  • Generates benchmarks for GROMACS and NAMD simulations (contributions for other MD engines are welcome!).
  • Automatically detects the queuing system on your high-performance cluster and submits jobs accordingly.
  • Grabs performance from the output logs and creates a fancy plot.
  • Benchmarks systems on CPUs and/or GPUs.
  • Find the best parameters by scanning different numbers of MPI ranks and OpenMP threads.
  • Run multiple instances of the same simulation on a single node using GROMACS' --multidir option.

Short usage reference

The following shows a short usage reference for MDBenchmark. Please consult the documentation for a complete guide.

Benchmark generation

Assuming you want to benchmark GROMACS version 2018.3 and your TPR file is called protein.tpr, run the following command:

mdbenchmark generate --name protein --module gromacs/2018.3

To run benchmarks on GPUs simply add the --gpu flag:

mdbenchmark generate --name protein --module gromacs/2018.3 --gpu

Benchmark submission

After you generated your benchmarks, you can submit them at once:

mdbenchmark submit

Benchmark analysis

As soon as the benchmarks have been submitted you can run the analysis via mdbenchmark analyze. Systems that have not finished yet will be marked with a question mark (?). You can save the performance results to a CSV file and subsequently create a plot from the data:

# Print performance results to console and save them to a file called results.csv
mdbenchmark analyze --save-csv results.csv

# Create a plot from the results present in the file results.csv
mdbenchmark plot --csv results.csv

Literature

Please cite the latest MDBenchmark publication if you use the tool to benchmark your simulations. This will help raise awareness of benchmarking and help people improve their simulation performance, as well as reduce overall resource wastage.

M. Gecht, M. Siggel, M. Linke, G. Hummer, J. Köfinger MDBenchmark: A toolkit to optimize the performance of molecular dynamics simulations. J. Chem. Phys. 153, 144105 (2020); https://doi.org/10.1063/5.0019045

Contributing

Contributions to the project are welcome! Information on how to contribute to the project can be found in CONTRIBUTING.md and DEVELOPER.rst.