Background: Force fields are used in a wide variety of contexts for classical molecular simulation, including studies on protein-ligand binding, membrane permeation, and thermophysical property prediction. The quality of these studies relies on the quality of the force fields used to represent the systems. Methods: : Focusing on small molecules of fewer than 50 heavy atoms, our aim in this work is to compare nine force fields: GAFF, GAFF2, MMFF94, MMFF94S, OPLS3e, SMIRNOFF99Frosst, and the Open Force Field Parsley, versions 1.0, 1.1, and 1.2. On a dataset comprising 22,675 molecular structures of 3,271 molecules, we analyzed force field-optimized geometries and conformer energies compared to reference quantum mechanical (QM) data. Results:...
This provides Supporting Information for our work, "Benchmark assessment of molecular geometries and...
Atomistic molecular simulations are a powerful way to make quantitative predictions, but the accurac...
Here, we systematically investigated how the force fields and the partial charge models for ligands ...
Background: Force fields are used in a wide variety of contexts for classical molecular simulation, ...
Force fields form the basis for classical molecular simulations, and their accuracy is crucial for t...
This presentation is a part of the Open Force Field Virtual Meeting 2020. Abstract: I will present ...
Force fields are used in a wide variety of contexts for classical molecular simulation, including st...
We present a methodology for defining and optimizing a general force field for classical molecular s...
Many molecular simulation methods use force fields to help model and simulate molecules and their be...
We introduce the Open Force Field (OpenFF) 2.0.0 small molecule force field for drug-like molecules,...
Computer-aided drug design utilizes force fields to simulate chemical structures. Force fields are s...
We have carried out a large scale computational investigation to assess the utility of common small-...
Simulations allow us to predict free energies and physical properties of molecules in advance of the...
Goal: systematic evaluation of robustness and quality of three small molecule force-fields as gauged...
Parametrization of the bonded part of molecular mechanics (MM) force fields (FFs) is typically done ...
This provides Supporting Information for our work, "Benchmark assessment of molecular geometries and...
Atomistic molecular simulations are a powerful way to make quantitative predictions, but the accurac...
Here, we systematically investigated how the force fields and the partial charge models for ligands ...
Background: Force fields are used in a wide variety of contexts for classical molecular simulation, ...
Force fields form the basis for classical molecular simulations, and their accuracy is crucial for t...
This presentation is a part of the Open Force Field Virtual Meeting 2020. Abstract: I will present ...
Force fields are used in a wide variety of contexts for classical molecular simulation, including st...
We present a methodology for defining and optimizing a general force field for classical molecular s...
Many molecular simulation methods use force fields to help model and simulate molecules and their be...
We introduce the Open Force Field (OpenFF) 2.0.0 small molecule force field for drug-like molecules,...
Computer-aided drug design utilizes force fields to simulate chemical structures. Force fields are s...
We have carried out a large scale computational investigation to assess the utility of common small-...
Simulations allow us to predict free energies and physical properties of molecules in advance of the...
Goal: systematic evaluation of robustness and quality of three small molecule force-fields as gauged...
Parametrization of the bonded part of molecular mechanics (MM) force fields (FFs) is typically done ...
This provides Supporting Information for our work, "Benchmark assessment of molecular geometries and...
Atomistic molecular simulations are a powerful way to make quantitative predictions, but the accurac...
Here, we systematically investigated how the force fields and the partial charge models for ligands ...