Add to ORKG.LINCS for molecular simulations with bond constraints. The algorithm is inherently stable, as the constraints themselves are reset instead of derivatives of the constraints, thereby eliminating drift. Although the derivation of the algorithm is presented in terms of matrices, no matrix matrix multiplications are needed and only the nonzero matrix elements have to be stored, making the method useful for very large molecules. At the same accuracy, the LINCS algorithm is three to four times faster than the SHAKE algorithm. Parallelizatio
Molecular Dynamics simulation is a computer simulation in which particles are allowed to interact fo...
A novel formulation for tight binding total energy calculations and tight binding molecular dynamics...
Despite steady advances in the power of computer hardware, many computations on molecular systems re...
In this article, we present a new LINear Constraint Solver (LINCS) for molecular simulations with bo...
In this article we present a new LINear Constraint Solver (LINCS) for molecular simulations with bon...
In molecular dynamics simulations we can often increase the time step by imposing constraints on bon...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
A non-iterative version of the matrix method which can be easily vectorised and parallelized is pres...
We describe a method to impose constraints in a molecular dynamics simulation. A technique developed...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
We address the problem of imposing rigid constraints between connected sites in a dynamic computer s...
A general recursion method for tight-binding molecular dynamics simulations is described in terms of...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
To explore progressively larger biomolecular systems, methods to model explicit solvent cheaply are ...
Molecular Dynamics simulation is a computer simulation in which particles are allowed to interact fo...
A novel formulation for tight binding total energy calculations and tight binding molecular dynamics...
Despite steady advances in the power of computer hardware, many computations on molecular systems re...
In this article, we present a new LINear Constraint Solver (LINCS) for molecular simulations with bo...
In this article we present a new LINear Constraint Solver (LINCS) for molecular simulations with bon...
In molecular dynamics simulations we can often increase the time step by imposing constraints on bon...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
A non-iterative version of the matrix method which can be easily vectorised and parallelized is pres...
We describe a method to impose constraints in a molecular dynamics simulation. A technique developed...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
We address the problem of imposing rigid constraints between connected sites in a dynamic computer s...
A general recursion method for tight-binding molecular dynamics simulations is described in terms of...
Molecular dynamics is used to study the time evolution of systems of atoms. It is common to constrai...
Computer simulation of proteins in aqueous solution at the atomic level of resolution is still limit...
To explore progressively larger biomolecular systems, methods to model explicit solvent cheaply are ...
Molecular Dynamics simulation is a computer simulation in which particles are allowed to interact fo...
A novel formulation for tight binding total energy calculations and tight binding molecular dynamics...
Despite steady advances in the power of computer hardware, many computations on molecular systems re...