Sharon Glotzer
Large-scale, long-time molecular dynamics simulation of crystal growth: From close-packing to clathrates and quasicrystals
(gkc)Aug 2015 - Jul 2016
Many-GPU Simulations of Soft Matter Design
(jqi)Apr 2014 - Apr 2015
2019
Erin G. Teich, Greg van Anders, and Sharon C. Glotzer (2019): Identity Crisis in Alchemical Space Drives the Entropic Colloidal Glass Transition, Nature Communications, Springer Nature, Vol 10, Num 1, pp64
Ryan L. Marson, Erin G. Teich, Julia Dshemuchadse, Sharon C. Glotzer, and Ronald G. Larson (2019): Computational self-assembly of colloidal crystals from Platonic polyhedral sphere clusters, Soft Matter, The Royal Society of Chemistry, Vol 15, Num 31, pp6288-6299
Sangmin Lee, Erin G. Teich, Michael Engel, and Sharon C. Glotzer (2019): Entropic colloidal crystallization pathways via fluid-fluid transitions and multidimensional prenucleation motifs, Proceedings of the National Academy of Sciences, National Academy of Sciences, Vol 116, Num 30, pp14843-14851
William Zygmunt, Erin G. Teich, Greg van Anders, and Sharon C. Glotzer (2019): Topological order in densely packed anisotropic colloids, Physical Review E, American Physical Society, Vol 100, Num 3, pp032608
2015
Jens Glaser, Trung Dac Nguyen, Joshua A. Anderson, Pak Lui, Filippo Spiga, Jaime A. Millan, David C. Morse, and Sharon C. Glotzer (2015): Strong Scaling of General-Purpose Molecular Dynamics Simulations on GPUs, Computer Physics Communications, Elsevier BV, Vol 192, pp97--107
Zhanpeng Zhang, Ryan L. Marson, Zhishen Ge, Sharon C. Glotzer, and Peter X. Ma (2015): Simultaneous Nano- and Microscale Control of Nanofibrous Microspheres Self-Assembled from Star-Shaped Polymers, Advanced Materials, Wiley-Blackwell, Vol 27, Num 26, pp3947-3952
2014
Jens Glaser, Pavani Medapuram, Thomas M. Beardsley, Mark W. Matsen, and David C. Morse (2014): Universality of Block Copolymer Melts, Physical Review Letters, American Physical Society, Vol 113, Num 6, pp068302
2016
Sharon Glotzer (2016): Large-scale, long-time molecular dynamics simulation of crystal growth, 2016 Blue Waters Annual Report, pp120-121
2015
Sharon Glotzer (2015): Many-GPU Simulations of Soft Matter Design, 2015 Blue Waters Annual Report, pp88-89
Ryan Marson: Dissipative Particle Dynamics Simulations of Star Polymer Microdroplets
Blue Waters Symposium 2016, Jun 15, 2016
Joshua A. Anderson: Scalable molecular dynamics and Monte Carlo simulations of millions of particles on thousands of GPUs
Blue Waters Symposium 2015, May 11, 2015
U of I, Great Lakes Consortium award Blue Waters resources to 18 research teams
Apr 10, 2014
Eighteen research teams from a wide range of disciplines have been awarded computational and data resources on the sustained-petascale Blue Waters supercomputer at the National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana-Champaign. Blue Waters is one of the world’s most powerful supercomputers, capable of performing quadrillions of calculations every second and working with quadrillions of bytes of data. Its massive scale and balanced architecture enable scientists and engineers to tackle research challenges that could not be addressed with other computing systems.
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