When using simulations (mechanical or computer based), it becomes possible to make statements about the potential behavior of a subject, without a direct interaction with the physical entities. Prediction of the potential behavior of subjects under changed conditions is thus one of the most important roles of simulations. As just one obvious example, performing initial crash-tests with a computer-implemented model of a car instead of a real one will certainly save money even in the short run and, due to the ability to test many different scenarios, might even make the car (far) safer than it would be using time-consuming physical tests alone.

Parametric optimization techniques make it possible to automatically determine parameters of the chosen model that maximize or minimize specific properties. Here simulations fill the role of a solver, helping to determine one or more figures of merit connected to a given parameter set and model. Thus simulations pave the way to new designs that, in all likelihood, would not have been found using human expertise alone, due to the usually high dimensionality of the input space of the model.

As simulations may also require significant amounts of compute time, many simulation types are closely related to HPC (although most computing devices, from a smart phone to the most sophisticated super computer, are capable of running at least some type of simulations). And, as modern computing devices also become increasingly more powerful, models and thus simulations may become more detailed over time, giving them a better ability for valid predictions and thus raising their significance for society.
It is important to note that simulations also affect many aspects of daily life, e.g. when estimating the spread of epidemics or simulations of pollutions in atmosphere.

In general, simulations, often in conjunction with powerful HPC devices, may provide us with tremendous opportunities that we should use. Some simulations even represent the only tool we have to make at least a rough forecast of what is to come. Not using them would be akin to driving blind-folded on a highway.

Press Releases

"Hawk" Supercomputer Inaugurated

"Hawk" Supercomputer Inaugurated

Stuttgart, 19. February 2020
Today at the High-Performance Computing Center of the University of Stuttgart (HLRS), Baden-Württemberg Prime Minister Winfried Kretschmann, Parliamentary State Secretary in the Federal Ministry for Education and Research Michael Meister, and Baden-Württemberg Science Minister Theresia Bauer joined in a ceremony marking the beginning of operation of HLRS's new supercomputer, called "Hawk." With a peak performance of approximately 26 Petaflops (26 quadrillion floating point operations per second), Hawk — a Hewlett Packard Enterprise (HPE) supercomputer system powered by 2ndGen AMD EPYC processors — is among the fastest supercomputers worldwide and the fastest general purpose system for scientific and industrial computing in Europe.


Download PDF
0.1 MB


Zeile 1 - Bilderleiste Compute Clusters
Click for Further Information HPE Apollo Hawk (Copyright: Ben Derzian for HLRS)

HPE Apollo (Hawk)

Further Information  

Further Information Cray CS-Storm (Image courtesy of Cray)

Cray CS-Storm

Further Information

NEC Cluster (Vulcan, Vulcan2)

Further Information