A linear-scaling scheme for estimating the electronic energy, gradients, and Hessian of a large molecule at ab initio level of theory based on fragment set cardinality is presented. With this proposition, a general, cardinality-guided molecular tailoring approach (CG-MTA) for ab initio geometry optimization of large molecules is implemented. The method employs energy gradients extracted from fragment wave functions, enabling computations otherwise impractical on PC hardware. Further, the method is readily amenable to large scale coarse-grain parallelization with minimal communication among nodes, resulting in a near-linear speedup. CG-MTA is applied for density-functional-theory-based geometry optimization of a variety of molecules includin...
The ability to predict molecular geometries has important applications in chemistry. Specific exampl...
Algorithms for treating large molecules are developed and implemented within the DeFT density functi...
Quantum chemistry plays an important role in elucidating molecular geometries, electronic states, ...
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 method, termed as cardinality guided molecular tailoring approach, is applied for t...
A web-interface for geometry optimization of large molecules using a linear scaling method, i.e., ca...
The construction of the potential energy surface (PES) of even a medium-sized molecule employing cor...
Molecular Tailoring Approach (MTA) is a method developed for enabling ab initio calculations on proh...
The development of a linear-scaling method, viz. "molecular tailoring approach" with an emphasis on ...
The determinationof molecular conformations, based on energy minimization, has to overcome the prese...
The molecular geometry, the three dimensional arrangement of atoms in space, is a major factor deter...
In this work, a new energy minimization strategy is presented that achieves better convergence prope...
The ability to perform geometry optimizations on large molecular systems is desirable for both close...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
The ability to predict molecular geometries has important applications in chemistry. Specific exampl...
Algorithms for treating large molecules are developed and implemented within the DeFT density functi...
Quantum chemistry plays an important role in elucidating molecular geometries, electronic states, ...
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 method, termed as cardinality guided molecular tailoring approach, is applied for t...
A web-interface for geometry optimization of large molecules using a linear scaling method, i.e., ca...
The construction of the potential energy surface (PES) of even a medium-sized molecule employing cor...
Molecular Tailoring Approach (MTA) is a method developed for enabling ab initio calculations on proh...
The development of a linear-scaling method, viz. "molecular tailoring approach" with an emphasis on ...
The determinationof molecular conformations, based on energy minimization, has to overcome the prese...
The molecular geometry, the three dimensional arrangement of atoms in space, is a major factor deter...
In this work, a new energy minimization strategy is presented that achieves better convergence prope...
The ability to perform geometry optimizations on large molecular systems is desirable for both close...
Geometry optimization is an essential part of quantum chemical applications. The diversity of the sc...
The ability to predict molecular geometries has important applications in chemistry. Specific exampl...
Algorithms for treating large molecules are developed and implemented within the DeFT density functi...
Quantum chemistry plays an important role in elucidating molecular geometries, electronic states, ...