Add to ORKGABSTRACT: A treecode algorithm is presented for rapid computation of the nonbonded potential energy in classical molecular systems. The algorithm treats a general form of pairwise particle interaction with the Coulomb and London dispersion potentials as special cases. The energy is computed as a sum of group–group interactions using a variant of Appel’s recursive strategy. Several adaptive techniques are employed to reduce the execution time. These include an adaptive tree with nonuniform rectangular cells, variable order multipole approximation, and a run-time choice between direct summation and multipole approximation for each group–group interaction. The multipole approximation is derived by Taylor expansion in Cartesian coordinates, and...
In this thesis we have studied molecular systems through molecular dynamics simulations by developin...
In this paper, we introduce a new scheme for the efficient numerical treatment of the electronic Sch...
ABSTRACT: We present an overview of “XSAPT”, a family of quantum chemistry methods for noncovalent i...
A treecode algorithm is presented for rapid computation of the nonbonded potential energy in classic...
This thesis is concerned with algorithms for evaluating the Coulomb potential en- ergy and forces du...
. Rapid evaluation of potentials in particle systems is an important, time-consuming step in many ph...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
Summary form only given. Here, we discuss an efficient parallel implementation of the treecode Ewald...
In this article, we summarize the results of our numerical analysis for various adaptive schemes in ...
The calculation time for the energy of atoms and molecules scales exponentially with system size on ...
Abstract. Appel's algorithm for e ciently performing pairwise potential energy calculations is ...
International audienceA detailed knowledge of the topography of a Potential Energy Surface (PES) is ...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...
ABSTRACT: Molecular mechanics and dynamics simulations use distance based cutoff approximations for ...
A particle-cluster treecode based on barycentric Hermite interpolation is presented for fast summati...
In this thesis we have studied molecular systems through molecular dynamics simulations by developin...
In this paper, we introduce a new scheme for the efficient numerical treatment of the electronic Sch...
ABSTRACT: We present an overview of “XSAPT”, a family of quantum chemistry methods for noncovalent i...
A treecode algorithm is presented for rapid computation of the nonbonded potential energy in classic...
This thesis is concerned with algorithms for evaluating the Coulomb potential en- ergy and forces du...
. Rapid evaluation of potentials in particle systems is an important, time-consuming step in many ph...
N-body pairwise interactions are ubiquitous in scientific areas such as astrophysics, fluids mechani...
Summary form only given. Here, we discuss an efficient parallel implementation of the treecode Ewald...
In this article, we summarize the results of our numerical analysis for various adaptive schemes in ...
The calculation time for the energy of atoms and molecules scales exponentially with system size on ...
Abstract. Appel's algorithm for e ciently performing pairwise potential energy calculations is ...
International audienceA detailed knowledge of the topography of a Potential Energy Surface (PES) is ...
Abstract: Molecular simulations have become a powerful tool in investigating the micro-scopic behavi...
ABSTRACT: Molecular mechanics and dynamics simulations use distance based cutoff approximations for ...
A particle-cluster treecode based on barycentric Hermite interpolation is presented for fast summati...
In this thesis we have studied molecular systems through molecular dynamics simulations by developin...
In this paper, we introduce a new scheme for the efficient numerical treatment of the electronic Sch...
ABSTRACT: We present an overview of “XSAPT”, a family of quantum chemistry methods for noncovalent i...