year={2020},
publisher={ACM New York, NY, USA}
}
+
+@misc{golshan2021lethedem,
+ title={Lethe-DEM : An open-source parallel discrete element solver with load balancing},
+ author={Shahab Golshan and Peter Munch and Rene Gassmoller and Martin Kronbichler and Bruno Blais},
+ year={2021},
+ eprint={2106.09576},
+ archivePrefix={arXiv},
+ primaryClass={cond-mat.mtrl-sci}
+}
\ No newline at end of file
operations, and support for updating ghost particles (particles that live in
ghost cells around the local domain) by updating their properties instead of
destroying and rebuilding their container. The latter step improves the
-efficiency of ghost particle exchange significantly.
+efficiency of ghost particle exchange significantly. With this feature,
+\dealii can be used to generate scalable parallel code for Lagrangian
+models such as the Discrete Element Method (DEM) \cite{golshan2021lethedem}
+or Molecular Dynamics.
Finally, the \texttt{Particles::DataOut} class now supports writing particle
properties as vectors or tensors instead of a collection of scalars if the properties are
program, DMS-1821210,
and EAR-1925595.
+B.~Blais was partially supported by the National Science and Engineering Research Council of Canada (NSERC) through the RGPIN-2020-04510 Discovery Grant
+
T.~Heister and J.~Zhang were also partially supported by NSF OAC-2015848.
T.~Heister was also partially supported by the NSF awards