Publication | Open Access
The in-silico lab-on-a-chip
27
Citations
53
References
2015
Year
Unknown Venue
EngineeringTitan SupercomputerMicroscopyCancer Cell SeparationComputer ArchitectureIn-silico Lab-on-a-chipOrgan-on-a-chipBiomedical EngineeringCellular PhysiologyUnprecedented TimeInstrumentationMicrofluidicsBiofluid DynamicBiophysicsChip On BoardComputer EngineeringBiomedical AnalysisMulticellular SystemCell BiologySystem On ChipChip-scale PackageBiomedical ImagingLab-on-a-chipBiomemsTechnologyMedicine
We present simulations of blood and cancer cell separation in complex microfluidic channels with subcellular resolution, demonstrating unprecedented time to solution, performing at 65.5% of the available 39.4 PetaInstructions/s in the 18, 688 nodes of the Titan supercomputer.
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