Discrete gradients in short-range molecular dynamics simulations
DOI10.1007/s11075-023-01717-4zbMATH Open1545.65297MaRDI QIDQ6559447
G. R. W. Quispel, Tobias Kliesch, Volker Grimm
Publication date: 21 June 2024
Published in: Numerical Algorithms (Search for Journal in Brave)
parallel computingmolecular dynamicsgeometric numerical integrationdiscrete gradientlinked cell method
Parallel numerical computation (65Y05) Numerical methods for initial value problems involving ordinary differential equations (65L05) Numerical methods for Hamiltonian systems including symplectic integrators (65P10) Computational molecular dynamics in statistical mechanics (82M37)
Cites Work
- Title not available (Why is that?)
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- Title not available (Why is that?)
- The discrete variational derivative method based on discrete differential forms
- Conservative finite difference schemes for the Degasperis-Procesi equation
- Projection methods and discrete gradient methods for preserving first integrals of ODEs
- RATTLE: A velocity version of the SHAKE algorithm for molecular dynamics calculations
- Hamiltonian-conserving discrete canonical equations based on variational difference quotients
- Exact energy-momentum conserving algorithms and symplectic schemes for nonlinear dynamics
- Discrete mechanics - a general treatment
- Energy and momentum conserving methods of arbitrary order for the numerical integration of equations of motion. I: Motion of a single particle
- Energy and momentum conserving methods of arbitrary order for the numerical integration of equations of motion. II: Motion of a system of particles
- Symplectic numerical integrators in constrained Hamiltonian systems
- Fast parallel algorithms for short-range molecular dynamics
- On the stability of symplectic and energy-momentum algorithms for nonlinear Hamiltonian systems with symmetry
- Enhancing energy conserving methods
- Structure-preserving model reduction for dynamical systems with a first integral
- A geometric integration approach to nonsmooth, nonconvex optimisation
- Order theory for discrete gradient methods
- Energy-momentum conserving integration schemes for molecular dynamics
- Molecular dynamics. With deterministic and stochastic numerical methods
- Geometric numerical integrators for Hunter-Saxton-like equations
- Preserving energy resp. dissipation in numerical PDEs using the ``Average Vector Field method
- Geometric integration methods that preserve Lyapunov functions
- Time integration and discrete Hamiltonian systems
- Six lectures on the geometric integration of ODEs
- Cluster Computing
- A General Framework for Deriving Integral Preserving Numerical Methods for PDEs
- Solving Ordinary Differential Equations I
- Simulating Hamiltonian Dynamics
- A higher-order PDE-based image registration approach
- On Upstream Differencing and Godunov-Type Schemes for Hyperbolic Conservation Laws
- Geometric integration using discrete gradients
- Numerical Integrators that Preserve Symmetries and Reversing Symmetries
- Discrete gradient methods for solving ODEs numerically while preserving a first integral
- Dissipative Numerical Schemes on Riemannian Manifolds with Applications to Gradient Flows
- Structure-preserving deep learning
- Energy-preserving methods on Riemannian manifolds
- Variational Image Regularization with Euler's Elastica Using a Discrete Gradient Scheme
- Discrete gradient methods for solving variational image regularisation models
- Geometric Numerical Integration
- Methods of conjugate gradients for solving linear systems
- Geometric Particle-in-Cell Simulations of the Vlasov--Maxwell System in Curvilinear Coordinates
- LAMMPS -- a flexible simulation tool for particle-based materials modeling at the atomic, meso, and continuum scales
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