Parallelization of a large-scale computational earthquake simulation program

Virtual memory computers are capable of executing large-scale particle simulations even when the memory requirements exceed the computer core size. The required address space is automatically mapped onto slow disc memory by the operating system. When the simulation size is very large, frequent rando

## Abstract This paper presents a detailed procedure to solve incompressible high Reynolds number turbulent flows using large eddy simulations (LES) on distributed memory machines. The filtered Navier–Stokes equations are discretized using a partial‐staggered variable arrangement and solved using a

## Abstract The main purpose of this work is to present a new parallel direct solver: __Dissection__ solver. It is based on __LU__ factorization of the sparse matrix of the linear system and allows to detect automatically and handle properly the zero‐energy modes, which are important when dealing w

This paper is aimed at introducing computer simulation of extended defects in crystalline materials by means of empirical potentials. In this context we understand by large scale calculations those related to a number of atoms from 10 3 to 10 6 and/or a time scale of few nanoseconds (10 2 -10 4 ps)