Steffen Hirschmann scite author profile

In this work, we combine several previous efforts to simulate a large-scale soot particle agglomeration with a dynamic, multi-scale turbulent background flow field. We build upon previous simulations which include 3.2 million particles and implement load-balancing into the used simulation software as well as tests of the load-balancing mechanisms on this scenario. We increase the simulation to 109.85 million particles, superpose a dynamically changing multi-scale background flow field and use our software enhancements to the molecular dynamics software ESPResSo to simulate this on a Cray XC40 supercomputer. To verify that our setup reproduces essential physics we scale the influence of the flow field down to make the scenario mostly homogeneous on the subdomain scale. Finally, we show that even on the homogeneous version of this soot particle agglomeration simulation, load-balancing still pays off.

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Variable Ventiltriebe in Heavy-Duty-Motoren – ermittelte Potenziale mit Miller-Steuerzeiten

Weberskirch¹,

Hyna²,

Malischewski³

et al. 2018

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Project Report on “Load-Balancing for Large-Scale Soot Particle Agglomeration Simulations” (Reprint)

Hirschmann

Kronenburg

Glass

et al. 2021

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