A web-interface for geometry optimization of large molecules using a linear scaling method, i.e., cardinality guided molecular tailoring approach (CG-MTA), is presented. CG-MTA is a cut-and-stitch, fragmentation-based method developed in our laboratory, for linear scaling of conventional ab initio techniques. This interface provides limited access to CG-MTA-enabled GAMESS. It can be used to obtain fragmentation schemes for a given spatially extended molecule depending on the maximum allowed fragment size and minimum cut radius values provided by the user. Currently, we support submission of single point or geometry optimization jobs at Hartree-Fock and density functional theory levels of theory for systems containing between 80 to 200 first...
The development of a linear-scaling method, viz. "molecular tailoring approach" with an emphasis on ...
In recent years, the potential benefits of high-throughput virtual screening to the drug discovery c...
Even when using parametrized semiempirical methods, quantum chemical calculations on molecules conta...
A web-interface for geometry optimization of large molecules using a linear scaling method, i.e., ca...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
The development of a fragmentation-based scheme, viz. molecular tailoring approach (MTA) for ab init...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
Molecular Tailoring Approach (MTA) is a method developed for enabling ab initio calculations on proh...
This note describes the features and implementation issues of WebProp, a web-based interface for eva...
The construction of the potential energy surface (PES) of even a medium-sized molecule employing cor...
This paper aimed to present a methodology for the geometry optimization of molecules in order to ana...
A linear scaling method, termed as cardinality guided molecular tailoring approach, is applied for t...
Abstract: Computational molecular design can yield chemically unreasonable compounds when performed ...
The goal of computational research in the fields of engineering, physics, chemistry or as a matter o...
The development of a linear-scaling method, viz. "molecular tailoring approach" with an emphasis on ...
In recent years, the potential benefits of high-throughput virtual screening to the drug discovery c...
Even when using parametrized semiempirical methods, quantum chemical calculations on molecules conta...
A web-interface for geometry optimization of large molecules using a linear scaling method, i.e., ca...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
The development of a fragmentation-based scheme, viz. molecular tailoring approach (MTA) for ab init...
A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large mole...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
Molecular Tailoring Approach (MTA) is a method developed for enabling ab initio calculations on proh...
This note describes the features and implementation issues of WebProp, a web-based interface for eva...
The construction of the potential energy surface (PES) of even a medium-sized molecule employing cor...
This paper aimed to present a methodology for the geometry optimization of molecules in order to ana...
A linear scaling method, termed as cardinality guided molecular tailoring approach, is applied for t...
Abstract: Computational molecular design can yield chemically unreasonable compounds when performed ...
The goal of computational research in the fields of engineering, physics, chemistry or as a matter o...
The development of a linear-scaling method, viz. "molecular tailoring approach" with an emphasis on ...
In recent years, the potential benefits of high-throughput virtual screening to the drug discovery c...
Even when using parametrized semiempirical methods, quantum chemical calculations on molecules conta...