We present an implementation of EAM and FS interatomic potentials, which are widely used in simulating metallic systems, in HOOMD-blue, a software designed to perform classical molecular dynamics simulations using GPU accelerations. We first discuss the details of our implementation and then report extensive benchmark tests. We demonstrate that single-precision floating point operations efficiently implemented on GPUs can produce sufficient accuracy when compared against double-precision codes, as demonstrated in test simulations of calculations of the glass-transition temperature of Cu64.5Zr35.5, and pair correlation function of liquid Ni3Al. Our code scales well with the size of the simulating system on NVIDIA Tesla M40 and P100 GPUs. Com...
This chapter demonstrates how graphics processing units (GPUs) can be used to accelerate large-scale...
AbstractFormanyyears,thedrivetowards computationalphysics studiesthatmatchthesizeand time-scalesofex...
Reactive force field (ReaxFF), a recent and novel bond order potential, allows for reactive molecula...
Modern graphics processing units (GPUs) provide impressive computing resources, which can be accesse...
We push the boundaries of electronic structure-based ab-initio molecular dynamics (AIMD) beyond 100 ...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
Molecular dynamic (MD) simulation is proven to be an important tool to study the structure as well a...
Graphics processing units have been extensively used to accelerate classical molecular dynamics simu...
As technology moves forward with newer hardware, new computational techniques, and new algorithms, i...
Technology development is often limited by knowledge of materials engineering and manufacturing proc...
Reactive molecular dynamics (MD) simulation is a powerful research tool for describing chemical reac...
Abstract—The advent of general purpose graphics processing units (GPGPU’s) brings about a whole new ...
Alchemical free energy (AFE) calculations based on molecular dynamics (MD) simulations are key tools...
We present an implementation of explicit solvent all atom classical molecular dynamics (MD) within t...
This chapter demonstrates how graphics processing units (GPUs) can be used to accelerate large-scale...
AbstractFormanyyears,thedrivetowards computationalphysics studiesthatmatchthesizeand time-scalesofex...
Reactive force field (ReaxFF), a recent and novel bond order potential, allows for reactive molecula...
Modern graphics processing units (GPUs) provide impressive computing resources, which can be accesse...
We push the boundaries of electronic structure-based ab-initio molecular dynamics (AIMD) beyond 100 ...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
Molecular dynamic (MD) simulation is proven to be an important tool to study the structure as well a...
Graphics processing units have been extensively used to accelerate classical molecular dynamics simu...
As technology moves forward with newer hardware, new computational techniques, and new algorithms, i...
Technology development is often limited by knowledge of materials engineering and manufacturing proc...
Reactive molecular dynamics (MD) simulation is a powerful research tool for describing chemical reac...
Abstract—The advent of general purpose graphics processing units (GPGPU’s) brings about a whole new ...
Alchemical free energy (AFE) calculations based on molecular dynamics (MD) simulations are key tools...
We present an implementation of explicit solvent all atom classical molecular dynamics (MD) within t...
This chapter demonstrates how graphics processing units (GPUs) can be used to accelerate large-scale...
AbstractFormanyyears,thedrivetowards computationalphysics studiesthatmatchthesizeand time-scalesofex...
Reactive force field (ReaxFF), a recent and novel bond order potential, allows for reactive molecula...