John Gounley Computational Scientist Contact GOUNLEYJP@ORNL.GOV All Publications Multi-GPU Immersed Boundary Method Hemodynamics Simulations Evaluating the Influence of Hemorheological Parameters on Circulating Tumor Cell Trajectory and Simulation Time Determining the impacts of venoarterial extracorporeal membrane oxygenation on cerebral oxygenation using a one-dimensional blood flow simulator Information Extraction from Cancer Pathology Reports with Graph Convolution Networks for Natural Language Texts... Moment representation in the lattice Boltzmann method on massively parallel hardware Investigating the Role of VR in a Simulation-Based Medical Planning System for Coronary Interventions Multi-physics simulations of particle tracking in arterial geometries with a scalable moving window algorithm... Immersed Boundary Method Halo Exchange in a Hemodynamics Application Model-based Hyperparameter Optimization of Convolutional Neural Networks for Information Extraction from Cancer Pathology Reports on HPC Multivascular networks and functional intravascular topologies within biocompatible hydrogels... Performance portability study for massively parallel computational fluid dynamics application on scalable heterogeneous architectures Pagination First page « First Previous page ‹â¶Ä¹ Page 1 Current page 2 Key Links Curriculum Vitae Organizations Computing and Computational Sciences Directorate Computational Sciences and Engineering Division Advanced Computing in Health Sciences Section Scalable Biomedical Modeling Group
Research Highlight Monte Carlo Methods in Predicting Cell Survival in Digital Twin Radiotherapy Simulations
Research Highlight Effect of Constitutive Law on the Response of the Erythrocyte Membrane to Large Strains
Research Highlight High Performance Adaptive Physics Refinement to Enable Large-Scale Tracking of Cancer Cell Trajectory