A modification of the constrained geometry optimization method by Anglada and Bofill (Anglada, J. M.; Bofill, J. M. J. Comput. Chem. 1997, 18, 992-1003) is designed and implemented. The changes include the choice of projection, quasi-line-search, and the use of a Rational Function optimization approach rather than a reduced-restricted-quasi-Newton-Raphson method in the optimization step. Furthermore, we show how geometrical constrains can be implemented in an approach based on nonreclunclant curvilinear coordinates avoiding the inclusion of the constraints in the set of redundant coordinates used to define the internal coordinates. The behavior of the new implementation is demonstrated in geometry optimizations featuring single or multiple ...
Geometry optimization of large QM/MM systems is usually carried out by alternating a second-order op...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
Geometry optimization has long been an active research area in theoretical chemistry. Many algorithm...
A modification of the constrained geometry optimization method by Anglada and Bofill (Anglada, J. M....
A gradient projection algorithm is presented that permits the application of several constraints dur...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
We present a new scheme for the geometry optimization of equilibrium and transition state structures...
AbstractFor minimization problems with nonlinear equality constraints, various numerical tools are s...
Abstract: Two suggestions are made to increase the efficiency and accuracy of ab initio optimization...
A new computational technique is described that uses distance constraints to calculate empirical pot...
A parallel procedure for an effective optimization of relative position and orientation between two ...
In this paper we present two new algorithms to study the extended nature of the crossing seam betwee...
iii Geometry optimization is a key step in the computational modeling of chemical reactions because ...
Based on a series of energy minimizations with starting structures obtained from the Baker test set ...
Many problems in chemistry depend on the ability to identify the global minimum or maximum of a func...
Geometry optimization of large QM/MM systems is usually carried out by alternating a second-order op...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
Geometry optimization has long been an active research area in theoretical chemistry. Many algorithm...
A modification of the constrained geometry optimization method by Anglada and Bofill (Anglada, J. M....
A gradient projection algorithm is presented that permits the application of several constraints dur...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
We present a new scheme for the geometry optimization of equilibrium and transition state structures...
AbstractFor minimization problems with nonlinear equality constraints, various numerical tools are s...
Abstract: Two suggestions are made to increase the efficiency and accuracy of ab initio optimization...
A new computational technique is described that uses distance constraints to calculate empirical pot...
A parallel procedure for an effective optimization of relative position and orientation between two ...
In this paper we present two new algorithms to study the extended nature of the crossing seam betwee...
iii Geometry optimization is a key step in the computational modeling of chemical reactions because ...
Based on a series of energy minimizations with starting structures obtained from the Baker test set ...
Many problems in chemistry depend on the ability to identify the global minimum or maximum of a func...
Geometry optimization of large QM/MM systems is usually carried out by alternating a second-order op...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
Geometry optimization has long been an active research area in theoretical chemistry. Many algorithm...