We introduce a new heterogeneous CPU+GPU-enhanced DFTB approach for the routine and efficient simulation of large chemical and biological systems. Compared to homogeneous computing with conventional CPUs, heterogeneous computing approaches exhibit substantial performance with only a modest increase in power consumption, both of which are essential to upcoming exascale computing initiatives. We show that DFTB-based molecular dynamics is a natural candidate for heterogeneous computing, since the computational bottleneck in these simulations is the diagonalization of the Hamiltonian matrix, which is performed several times during a single molecular dynamics trajectory. To thoroughly test and understand the performance of our heterogeneous CPU+...
Molecular dynamics (MD) simulation is a powerful computational tool to study the behaviour of macrom...
Abstract — Molecular dynamics (MD) was widely used in chemistry and bio molecules. Numerous attempts...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
We introduce a new heterogeneous CPU+GPU-enhanced DFTB approach for the routine and efficient simula...
We introduce a new heterogeneous CPU+GPU-enhanced DFTB approach for the routine and efficient simula...
Atomistic Molecular Dynamics (MD) simulations provide researchers the ability to model biomolecular ...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
It is increasingly easy to develop software that exploits Graphics Processing Units (GPUs). The mole...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
We introduce a high performance programming model for large-scale molecular dynamics calculations on...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
Molecular dynamics is an important computational tool to simulate and understand biochemical process...
Molecular dynamics (MD) simulation is a powerful computational tool to study the behaviour of macrom...
Abstract — Molecular dynamics (MD) was widely used in chemistry and bio molecules. Numerous attempts...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...
We introduce a new heterogeneous CPU+GPU-enhanced DFTB approach for the routine and efficient simula...
We introduce a new heterogeneous CPU+GPU-enhanced DFTB approach for the routine and efficient simula...
Atomistic Molecular Dynamics (MD) simulations provide researchers the ability to model biomolecular ...
Molecular dynamics (MD) is a powerful computer simulation technique providing atomistic resolution a...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
It is increasingly easy to develop software that exploits Graphics Processing Units (GPUs). The mole...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
Molecular simulation is an indispensable tool in many different disciplines such as physics, biology...
Computational chemistry allows researchers to experiment in sillico: by running a computer simulatio...
We introduce a high performance programming model for large-scale molecular dynamics calculations on...
Abstract—Special-purpose computing hardware can provide significantly better performance and power e...
Molecular dynamics is an important computational tool to simulate and understand biochemical process...
Molecular dynamics (MD) simulation is a powerful computational tool to study the behaviour of macrom...
Abstract — Molecular dynamics (MD) was widely used in chemistry and bio molecules. Numerous attempts...
High-Performance Computing is impacting on all biomedical sciences, including molecular biophysics. ...