We describe our parallelization of PRONTO, Sandia's transient solid dynamics code, via a novel algorithmic approach that utilizes multiple decompositions ...

Abstract. Transient solid dynamics simulations are among the most widely used en- gineering calculations. Industrial applications include vehicle ...

Transient solid dynamics simulations are among the most widely used engineering calculations. Industrial applications include vehicle crashworthiness ...

In this paper we describe our parallelization of PRONTO, Sandia`s transient solid dynamics code, via a novel algorithmic approach that utilizes multiple ...

Abstract: Transient solid dynamics simulations are among the most widely used engineering calculations. Industrial applications.

We describe our parallelization of PRONTO, Sandia's transient solid dynamics code, via a novel algorithmic approach that utilizes multiple decompositions ...

1. Perform finite element analysis to compute forces on elements. · 2. Compute forces between smoothed particles. · 3. Predict new locations of particles and grid ...

In this paper we describe our parallelization of PRONTO, Sandia's transient solid dynamics code, via a novel algorithmic approach that utilizes multiple ...

Transient dynamics simulations are commonly used to model phenomena such as car crashes, underwater explosions, and the response of shipping containers to ...

Transient Solid Dynamics Simulations on the Sandia/Intel Teraflop Computer · S. AttawayE. Barragy +4 authors. C. Vaughan. Computer Science, Engineering.