New parallel algorithm for MP2 energy gradient calculations

## Abstract A new parallel algorithm has been developed for second‐order Møller–Plesset perturbation theory (MP2) energy calculations. Its main projected applications are for large molecules, for instance, for the calculation of dispersion interaction. Tests on a moderate number of processors (2–16

## Abstract We present the parallel version of a previous serial algorithm for the efficient calculation of canonical MP2 energies (Pulay, P.; Saebo, S.; Wolinski, K. Chem Phys Lett 2001, 344, 543). It is based on the Saebo–Almlöf direct‐integral transformation, coupled with an efficient prescreeni

A parallel algorithm for efficient calculation of the second Ž . derivatives Hessian of the conformational energy in internal coordinates is proposed. This parallel algorithm is based on the masterrslave model. A master processor distributes the calculations of components of the Hessian to one or mo

## Abstract We describe two algorithms for the parallel calculation of a CHARMm‐like force field in macromolecules. For a molecule with a given number of atoms, we show that there is an optimal number of processors leading to a minimum computation time. At the optimum, both the number of processors

A new algorithm for template matching parallel thinning is proposed in this article. This algorithm is an improvement of the fast fully parallel thinning algorithm by producing more quality images. This article describes the details of the algorithm and its hardware realization. Experimental results

## Abstract We present the development of a new parallel computer code (P\_Anhar\_v1.0) to calculate the vibrational spectrum of medium size molecules using a variational algorithm. The method is applied to the determination of a complete quartic anharmonic force field (B3LYP/cc‐pVTZ) for methyllit