ACEMD: Accelerating Biomolecular Dynamics in the Microsecond Time Scale
Imperial College London · Pompeu Fabra University · +2 more institutions
Abstract
The high arithmetic performance and intrinsic parallelism of recent graphical processing units (GPUs) can offer a technological edge for molecular dynamics simulations. ACEMD is a production-class biomolecular dynamics (MD) engine supporting CHARMM and AMBER force fields. Designed specifically for GPUs it is able to achieve supercomputing scale performance of 40 ns/day for all-atom protein systems with over 23 000 atoms. We provide a validation and performance evaluation of the code and run a microsecond-long trajectory for an all-atom molecular system in explicit TIP3P water on a single workstation computer equipped with just 3 GPUs. We believe that microsecond time scale molecular dynamics on cost-effective…
Citation impact
- FWCI
- 12.59
- Percentile
- 100%
- References
- 33
Authors
3- MJM J HarveyCorresponding
Imperial College London, Pompeu Fabra University, Barcelona Biomedical Research Park, Universitat de Barcelona
- GGG. Giupponi
Universitat de Barcelona, Pompeu Fabra University, Barcelona Biomedical Research Park, Imperial College London
- GDGianni De Fabritiis
Barcelona Biomedical Research Park, Pompeu Fabra University, Universitat de Barcelona, Imperial College London
Topics & keywords
- Microsecond
- Molecular dynamics
- Computer science
- Workstation
- Scale (ratio)
- Computational science
- Supercomputer
- Parallel computing