IRG-C: Self-assembly of ionic surfactants accelerated by graphics processing units (GPUs)
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IRG-C: Self-assembly of ionic surfactants accelerated by graphics processing units (GPUs) Nai Phuan Ong, Princeton University, DMR 0819860 Reference: D. N. LeBard et al., Soft Matter 8: 2385-97 (2012) Ionic micellar assemblies have been simulated over μs time scales on GPUs (image on cover of Soft Matter). Performance for simulations of sodium nonyl and dodecyl sulfates. Fermi cards provide the equivalent of 36-48 CPU cores per card, at a fraction of the cost.
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IRG-C: Self-assembly of ionic surfactants accelerated by graphics processing units (GPUs) Nai Phuan Ong , Princeton University, DMR 0819860. - PowerPoint PPT Presentation
Transcript of IRG-C: Self-assembly of ionic surfactants accelerated by graphics processing units (GPUs)
IRG-C: Self-assembly of ionic surfactants accelerated by graphics processing units (GPUs)
Nai Phuan Ong, Princeton University, DMR 0819860
Reference: D. N. LeBard et al., Soft Matter 8: 2385-97 (2012)
Ionic micellar assemblies have been simulated over μs time scales on GPUs (image on cover of Soft Matter).
Performance for simulations of sodium nonyl and dodecyl sulfates. Fermi cards provide the equivalent of 36-48 CPU cores per card, at a fraction of the cost.