Add to ORKGWe implement two different ab initio electronic structure methods: Hartree-Fock (HF), and quantum variational Monte Carlo (VMC). Gaussian type orbitals are used for the HF method, while the VMC framework allows more general orbital bases (including the possibility of using the optmized HF orbitals). A thorough introduction to the underlying theory of both methods is presented, and the codes are tested on selected first row atoms and simple molecules. Ground state energies are found to be in good agreement with the litterature. Secondly, a general function approximation scheme is implemented using artificial neural networks (ANN). The ANN implementation is based on the TensorFlow library developed by the Google Brain team. It is thoroughly t...
Accurate modelling of chemical and physical interactions is crucial for obtaining thermodynamic and ...
Multi-scale computer simulations combine the computationally efficient classical algorithms with mor...
Despite the ever-increasing computer power, accurate ab initio calculations for large systems (thous...
Electronic structure calculations, such as those employing Kohn–Sham density functional theory or ab...
Quantum mechanics/molecular mechanics (QM/MM) molecular dynamics (MD) simulations have been develope...
This work is concerned with the accurate numerical simulation of the many-electron problem, which in...
Development and applications of neural network (NN)-based approaches for representing potential ener...
Molecular dynamics (MD) simulations constitute the cornerstone of contemporary atomistic modeling in...
The molecular dynamics (MD) simulation is a favored method in materials science for understanding an...
A central concern of molecular dynamics simulations is the potential energy surfaces that govern ato...
Highly accurate force fields are a mandatory requirement to generate predictive simulations. Here we...
Machine learning (ML) approximations to density functional theory (DFT) potential energy surfaces (P...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...
12siTurboRVB is a computational package for ab initio Quantum Monte Carlo (QMC) simulations of both ...
Texto completo: acesso restrito. p. 281–288The fitting of ab initio electronic energies of polyatomi...
Accurate modelling of chemical and physical interactions is crucial for obtaining thermodynamic and ...
Multi-scale computer simulations combine the computationally efficient classical algorithms with mor...
Despite the ever-increasing computer power, accurate ab initio calculations for large systems (thous...
Electronic structure calculations, such as those employing Kohn–Sham density functional theory or ab...
Quantum mechanics/molecular mechanics (QM/MM) molecular dynamics (MD) simulations have been develope...
This work is concerned with the accurate numerical simulation of the many-electron problem, which in...
Development and applications of neural network (NN)-based approaches for representing potential ener...
Molecular dynamics (MD) simulations constitute the cornerstone of contemporary atomistic modeling in...
The molecular dynamics (MD) simulation is a favored method in materials science for understanding an...
A central concern of molecular dynamics simulations is the potential energy surfaces that govern ato...
Highly accurate force fields are a mandatory requirement to generate predictive simulations. Here we...
Machine learning (ML) approximations to density functional theory (DFT) potential energy surfaces (P...
Molecular mechanics is the tool of choice for the modeling of systems that are so large or complex t...
12siTurboRVB is a computational package for ab initio Quantum Monte Carlo (QMC) simulations of both ...
Texto completo: acesso restrito. p. 281–288The fitting of ab initio electronic energies of polyatomi...
Accurate modelling of chemical and physical interactions is crucial for obtaining thermodynamic and ...
Multi-scale computer simulations combine the computationally efficient classical algorithms with mor...
Despite the ever-increasing computer power, accurate ab initio calculations for large systems (thous...