Aerospace simulations on parallel computers using unstructured grids

High performance parallel computers offer the promise of sufficient computational power to enable the routine use of large scale simulations during the process of engineering design. With this in mind, and with particular reference to the aerospace industry, this paper describes developments that ha

Numerical solution of differential equations on the surface of the sphere requires grid generation. Examples include numerical simulations of mantle convection, weather, and climate. Because of their ability to offer local resolution at modest computational cost, unstructured grids are attractive in

## Abstract A parallel algorithm is developed that allows efficient Langevin‐dynamics simulations of macromolecular coils, which is the usual structure of synthetic polymers in solution and in bulk. Contrary to usual so‐called spatial decomposition algorithms, we map the one‐dimensional topology of