MOLECULAR DYNAMICS PERFORMANCE GUIDE - Digital Research Alliance of CANADA

ADVANCED SEARCH

APPLIED FILTERS: GROMACS _____ _____ _____ _____ _____ _____ _____ _____

  • EXPLORING THE DATABASE

    Default view
    When this page is viewed no filters are initially applied. All benchmarks are selected and sorted by simulation speed. The chart on the right displays only top 30 benchmarks for clarity.
  • Selecting benchmarks
    A subset of benchmarks can be selected using a custom chain of filters. Selected database entries can be downloaded as CSV files for further analysis or viewed in the Benchmark Details table at the bottom of the page.
  • Detailed views
    A detailed view of each database entry can be accessed from Benchmark ID and Software ID search forms. Detailed views include submission commands and simulation input files. View example: PMEMD @Narval (benchmark ID=46).
  • Parallel efficiency
    Efficiency is computed as PS/(SS * N) where PS is speed of the parallel program, SS is speed of the serial program, and N is the number of CPUs or GPUs.
  • Viewing parallel speedup and efficiency
    To view the graph of the dependence of parallel speedup and efficiency on the number of CPU/GPU equivalents select only one software and one cluster. View example: GROMACS @Narval .

  • Viewing QM/MM benchmarks
    To view QM/MM benchmarks select simulation system 4cg1 .

Performance Chart For Selected Benchmarks

*Data updated Jan. 13, 2026

Cost Of CPU-only Simulations

*Data updated Jan. 13, 2026

    OPTIMIZING CPU USAGE

  • Submitting CPU-only simulation
    CPU-only simulations reach performance comparable to GPU-accelerated ones only with hundreds of CPU cores. It is not uncommon for such jobs to wait in the queue for up to several days for such a significant resource to be available, especialy if a long time is requested.
  • Benchmarking CPU-only MD Engines
    We calculate CPU usage in core equivalents per year. Core equivalent is a bundle made up of a single core, and some memory associated with it . For most of the systems one core equivalent includes 4000M per core.

Cost Of GPU-accelerated Simulations

*Data updated Jan. 13, 2026

  • OPTIMIZING GPU USAGE

    Parallel scaling to multiple GPUs
    Parallel scaling to multiple GPUs strongly depends on the compibation of software, hardware and simulation parameters. Often simulations do not run faster on multiple GPUs (PMEMD @Cedar example). Simulations on nodes with direct interconnect between GPUs (NVLink) are more likely to benefit from multiple GPUs, but efficiency decreases and cost goes up with the number of GPUs (NAMD3 @Cedar example ).
  • Benchmarking GPU accelerated MD Engines
    For benchmarking we use the optimal number of cores per GPU (the number needed for the fastest simulation time but not exceeding the maximum number of CPU cores per GPU in a GPU equivalent).

BENCHMARK RESULTS

CPUY: CPU years per 1 microsecond long simulation. GPUY: GPU years per 1 microsecond long simulation. | T: tasks | C: cores | N: nodes. Speed is in ns/day. Integration step = 1 fs. Measured with dataset 6n40 (239,131 atoms).

*More information is available by clicking ID in the table above
ID Software Module Toolch Arch Data Speed CPU CPUeff CPUY GPUY T C N GPU NVLink Site
87 GROMACS.mpi gromacs/2021.4 gofb avx2 6n4o 4.58e+01 EPYC 7532 9.1 61.29 0.0 1024 1 16 0 Yes Narval
295 GROMACS.cuda.mpi gromacs/2024.4 gofbc avx512 9naw 4.47e+01 Xeon Platinum 8570 30.9 0.0 0.49 8 14 1 8H100-HBM3 Yes Nibi
207 GROMACS.cuda gromacs/2023.2 gofbfc avx2 6n4o 4.46e+01 Xeon Silver 4216 100.0 0.0 0.061 1 8 1 1V100-SXM2 Yes Cedar
211 GROMACS.cuda.mpi gromacs/2023.2 gofbfc avx2 6n4o 4.46e+01 Xeon Silver 4216 100.0 0.0 0.061 1 8 1 1V100-SXM2 Yes Cedar
213 GROMACS.cuda.mpi gromacs/2023.2 gofbfc avx2 6n4o 4.43e+01 Xeon Silver 4216 24.8 0.0 0.247 4 8 1 4V100-SXM2 Yes Cedar
66 GROMACS.mpi gromacs/2021.2 gomkl avx512 6n4o 4.42e+01 Xeon Gold 6248 61.5 9.93 0.0 160 1 4 0 No Siku
212 GROMACS.cuda.mpi gromacs/2023.2 gofbfc avx2 6n4o 4.39e+01 Xeon Silver 4216 49.2 0.0 0.125 2 8 1 2V100-SXM2 Yes Cedar
291 GROMACS.mpi gromacs/2024.4 gofb avx512 9naw 4.31e+01 EPYC 9654 24.8 97.61 0.0 1536 1 8 0 No Rorqual
294 GROMACS.cuda.mpi gromacs/2024.4 gofbc avx512 9naw 4.02e+01 Xeon Platinum 8570 55.4 0.0 0.273 4 14 1 4H100-HBM3 Yes Nibi
90 GROMACS.cuda gromacs/2021.2 gomklc avx512 6n4o 3.90e+01 Xeon Gold 6148 100.0 0.0 0.07 1 8 1 1V100-PCIE No Siku
Date Updated: Jan. 13, 2026, 3:35 p.m.