Reactive molecular dynamics (MD) simulation is a powerful research tool for describing chemical reactions. We eliminate the speed-limiting charge iteration in MD with a novel extended-Lagrangian scheme. The extended-Lagrangian reactive MD (XRMD) code drastically improves energy conservation while substantially reducing time-to-solution. Furthermore, we introduce a new polarizable charge equilibration (PQEq) model to accurately predict atomic charges and polarization. The XRMD code based on hybrid message passing+multithreading achieves a weak-scaling parallel efficiency of 0.977 on 786 432 IBM Blue Gene/Q cores for a 67.6 billion-atom system. The performance is portable to the second-generation Intel Xeon Phi, Knights Landing. Blue Gene/Q s...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
The development and use of Reactive Molecular Dynamics (RMD) simulation in the Computational Materia...
Reactive molecular dynamics (MD) simulation is a powerful research tool for describing chemical reac...
Reactive molecular dynamics is a powerful simulation method for describing chemical reactions. Here,...
Reactive force field (ReaxFF), a recent and novel bond order potential, allows for reactive molecula...
Conducting molecular dynamics (MD) simulations involving chemical reactions in large-scale condensed...
Modeling atomic and molecular systems requires computation-intensive quantum mechanical methods such...
It is a computationally demanding task to explicitly simulate the electronic degrees of freedom in a...
Molecular dynamics (MD) simulation serves as a computational microscope into the behavior of the bio...
Molecular dynamics is used for simulating chemical systems with the goal of studying a large range o...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
Nonadiabatic molecular dynamics (NAMD) simulations of molecular systems require the efficient evalua...
The possibility of observing chemical reactions in ab initio molecular dynamics runs is severely hin...
The past several decades have witnessed tremendous strides in the capabilities of computational chem...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
The development and use of Reactive Molecular Dynamics (RMD) simulation in the Computational Materia...
Reactive molecular dynamics (MD) simulation is a powerful research tool for describing chemical reac...
Reactive molecular dynamics is a powerful simulation method for describing chemical reactions. Here,...
Reactive force field (ReaxFF), a recent and novel bond order potential, allows for reactive molecula...
Conducting molecular dynamics (MD) simulations involving chemical reactions in large-scale condensed...
Modeling atomic and molecular systems requires computation-intensive quantum mechanical methods such...
It is a computationally demanding task to explicitly simulate the electronic degrees of freedom in a...
Molecular dynamics (MD) simulation serves as a computational microscope into the behavior of the bio...
Molecular dynamics is used for simulating chemical systems with the goal of studying a large range o...
Copyright: © 2015 Materials Research SocietyThis article discusses novel algorithms for molecular-dy...
Nonadiabatic molecular dynamics (NAMD) simulations of molecular systems require the efficient evalua...
The possibility of observing chemical reactions in ab initio molecular dynamics runs is severely hin...
The past several decades have witnessed tremendous strides in the capabilities of computational chem...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
The development and use of Reactive Molecular Dynamics (RMD) simulation in the Computational Materia...