Research using systems at PDC
High-performance computing (HPC) is used in research to replace costly physical experiments and to process huge amounts of observational data. Researchers in many fields use supercomputing resources at PDC for these types of HPC research.
Why are researchers using HPC to assist their research?
As the use of computationally intensive simulations and modelling becomes more and more a part of research, even in disciplines that had previously involved more practical laboratory work, there is an ever-increasing demand for high-performance computing.
One aspect of this is where HPC modelling replaces physical experiments, for example, many wind tunnel tests can be replaced by computer simulation.
Another aspect is that the physical experiments that are done nowadays often produce enormous amounts of data that need to be stored and processed to give results that are useful and possible to understand; the necessary processing often involves HPC.
Examples of research areas using HPC at PDC
PDC's supercomputers are used by researchers from a wide range of research areas.
Molecular dynamics
The simulation of molecules and their interactions are a cornerstone in biomolecular and materials science research. Researchers from KTH and Stockholm University develop GROMACS, the leading molecular dynamics simulation code which is used worldwide.
Climate prediction
Researchers from the Department of Meteorlogy at Stockholm University (MISU) and the Swedish Meteorological and Hydrological Institute (SMHI) are using HPC for climate modelling. They have been conducting global-scale simulations that contribute to the IPCC Reports, and have been contributing to the development of the EC-Earth global climate model: www.ec-earth.org .
Fusion research
Researchers at Chalmers University of Technology have been using HPC models of tokamaks to perform simulations of the plasma in a future fusion power plant. To do real-life experiments with plasma is extremely costly, so simulations are performed to prepare for eventual physical experiments.
Fluid dynamics
Researchers from the Linné FLOW Centre and SeRC have been replacing physical wind tunnel tests with HPC. They have been using a virtual wind tunnel to perform large-scale simulations (3.2 billion grid points) to analyse turbulent flow around the wings of airplanes - this is important for decreasing turbulent drag on planes, and thus reducing fuel usage and emissions.
Brain Simulation
The human brain is extremely complex. One method that computational brain science researchers at KTH have been using to help us understand the brain is to simulate parts of the brain with supercomputers using biological descriptions of each cell in the brain. In the future it may also be possible to design computers that are based on similar principles to the brain.
More detailed examples of HPC research using systems at PDC and other Swedish HPC centres
You can view more detailed examples of research areas that utilised PDC’s and SNIC's supercomputer systems .