We discuss the computational performance of the adaptive resolution technique in molecular simulation when it is compared with equivalent full coarse-grained and full atomistic simulations. We show that an estimate of its efficiency, within 10%–15% accuracy, is given by the Amdahl’s Law adapted to the specific quantities involved in the problem. The derivation of the predictive formula is general enough that it may be applied to the general case of molecular dynamics approaches where a reduction of degrees of freedom in a multiscale fashion occurs
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
We investigate the role of the thermodynamic (TD) force, as an essential and sufficient technical in...
In adaptive resolution simulations, molecular fluids are modeled employing different levels of resol...
We discuss the computational performance of the adaptive resolution technique in molecular simulatio...
We describe the adaptive resolution multiscale method AdResS. The conceptual evolution as well as th...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
Adaptive molecular resolution approaches in molecular dynamics are becoming relevant tools for the a...
n this work, we provide a detailed theoretical analysis, supported by numerical tests, of the reliab...
Adaptive Molecular Resolution approaches in Molecular Dynamics are becoming relevant tools for the a...
The Adaptive Resolution Scheme (AdResS) is a hybrid scheme that allows to treat a molecular system w...
We investigate the role of the thermodynamic (TD) force as an essential and sufficient technical ing...
International audienceMolecular simulations allow the study of properties and interactions of molecu...
Computer simulations have become a fundamental tool in molecular soft matter research. For example, ...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
We investigate the role of the thermodynamic (TD) force, as an essential and sufficient technical in...
In adaptive resolution simulations, molecular fluids are modeled employing different levels of resol...
We discuss the computational performance of the adaptive resolution technique in molecular simulatio...
We describe the adaptive resolution multiscale method AdResS. The conceptual evolution as well as th...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
Adaptive molecular resolution approaches in molecular dynamics are becoming relevant tools for the a...
n this work, we provide a detailed theoretical analysis, supported by numerical tests, of the reliab...
Adaptive Molecular Resolution approaches in Molecular Dynamics are becoming relevant tools for the a...
The Adaptive Resolution Scheme (AdResS) is a hybrid scheme that allows to treat a molecular system w...
We investigate the role of the thermodynamic (TD) force as an essential and sufficient technical ing...
International audienceMolecular simulations allow the study of properties and interactions of molecu...
Computer simulations have become a fundamental tool in molecular soft matter research. For example, ...
Full atomistic Molecular Dynamics (MD) simulations are very accurate but too costly; however, atomis...
We investigate the role of the thermodynamic (TD) force, as an essential and sufficient technical in...
In adaptive resolution simulations, molecular fluids are modeled employing different levels of resol...