cass-members-represented
| FASTMath | PESO | RAPIDS | STEP |
m = "FASTMath|PESO|RAPIDS|STEP"
m = ["FASTMath", "PESO", "RAPIDS", "STEP"]
show-software-mentioned.html
Software mentioned: ADIOS, TAU, HDF5, Trilinos, Spack
sw-link-mention.html
missing parameter (not in software catalog)
hdf5 (not in software catalog)
ParaView (not in `software_mentioned`)
flexible_feature_row
Feature_row = [{"image_path"=>"/assets/impacts/2025-01-wdmapp/wdmapp-coupled-turbulence.jpg", "title"=>"Whole Device Modeling of Magnetically Confined Fusion Plasma", "excerpt"=>"Magnetically confined fusion plasmas are being designed within the International Tokamak Experimental Reactor (ITER) and other projects that will operate in physics regimes only recently achieved through experiment. Modeling and simulation activities are required to design and optimize these new facilities. The fusion community is developing an approach to whole device modeling that will provide predictive numerical simulations of the physics required for magnetically confined fusion plasmas to enable design optimization and fill in the experimental gaps for ITER and future fusion devices."}, {"image_path"=>"/assets/impacts/2025-01-warpx/warpx-amrex.png", "title"=>"WarpX Enables Computational Design of Next-Generation Plasma-Based Accelerators", "excerpt"=>"WarpX is a particle-in-cell (PIC) simulation code that models the motion of charged particles or plasma. WarpX is used to model chains of plasma-based particle accelerators for future high-energy physics colliders – table-top particle accelerators. These table-top accelerators can be used in both scientific and medical applications."}, {"image_path"=>"/assets/impacts/2024-12-13-pnetcdf.jpg", "title"=>"I/O in WRF: Evaluating Modern Parallel I/O Techniques", "excerpt"=>"This work presents a comparative study of several parallel I/O implementations in the Weather Research and Forecasting model (WRF). The I/O libraries under study include PnetCDF, HDF5 via NetCDF4, and ADIOS. Our evaluation and performance analysis can guide I/O strategies for modern parallel codes."}]
Inputs: image_path = ["/assets/impacts/2025-01-wdmapp/wdmapp-coupled-turbulence.jpg", "/assets/impacts/2025-01-warpx/warpx-amrex.png", "/assets/impacts/2024-12-13-pnetcdf.jpg"] title = ["Whole Device Modeling of Magnetically Confined Fusion Plasma", "WarpX Enables Computational Design of Next-Generation Plasma-Based Accelerators", "I/O in WRF: Evaluating Modern Parallel I/O Techniques"] excerpt = ["Magnetically confined fusion plasmas are being designed within the International Tokamak Experimental Reactor (ITER) and other projects that will operate in physics regimes only recently achieved through experiment. Modeling and simulation activities are required to design and optimize these new facilities. The fusion community is developing an approach to whole device modeling that will provide predictive numerical simulations of the physics required for magnetically confined fusion plasmas to enable design optimization and fill in the experimental gaps for ITER and future fusion devices.", "WarpX is a particle-in-cell (PIC) simulation code that models the motion of charged particles or plasma. WarpX is used to model chains of plasma-based particle accelerators for future high-energy physics colliders – table-top particle accelerators. These table-top accelerators can be used in both scientific and medical applications.", "This work presents a comparative study of several parallel I/O implementations in the Weather Research and Forecasting model (WRF). The I/O libraries under study include PnetCDF, HDF5 via NetCDF4, and ADIOS. Our evaluation and performance analysis can guide I/O strategies for modern parallel codes."]
Whole Device Modeling of Magnetically Confined Fusion Plasma
Magnetically confined fusion plasmas are being designed within the International Tokamak Experimental Reactor (ITER) and other projects that will operate in physics regimes only recently achieved through experiment. Modeling and simulation activities are required to design and optimize these new facilities. The fusion community is developing an approach to whole device modeling that will provide predictive numerical simulations of the physics required for magnetically confined fusion plasmas to enable design optimization and fill in the experimental gaps for ITER and future fusion devices.
WarpX Enables Computational Design of Next-Generation Plasma-Based Accelerators
WarpX is a particle-in-cell (PIC) simulation code that models the motion of charged particles or plasma. WarpX is used to model chains of plasma-based particle accelerators for future high-energy physics colliders – table-top particle accelerators. These table-top accelerators can be used in both scientific and medical applications.
I/O in WRF: Evaluating Modern Parallel I/O Techniques
This work presents a comparative study of several parallel I/O implementations in the Weather Research and Forecasting model (WRF). The I/O libraries under study include PnetCDF, HDF5 via NetCDF4, and ADIOS. Our evaluation and performance analysis can guide I/O strategies for modern parallel codes.
github_edit_link
people-info.html
Daniel S. Katz
Daniel S. Katz
Daniel S. Katz
Daniel S. Katz (University of Illinois Urbana-Champaign)
Daniel S. Katz (University of Illinois Urbana-Champaign) (UIUC)
"Daniel S. Katz (UIUC)"
sw-areas-used
["Data and visualization", "Development tools", "Mathematical libraries", "Programming models and runtimes", "Software ecosystem and delivery"] [10, 6, 14, 11, 2]
[] []
show-resource-links
- Website
- Repository (this is a parenthetical note)
- Downloads
- Documentation
icon-map-lookup
"<i class=\"fa-regular fa-fw fa-folder-open\"></i>"
""
"<i class=\"fa-solid fa-fw fa-code\"></i>"
sw-areas-lookup
names = ["Data and Visualization", "Development Tools"]
[]
[]
[]
shorts = ["sweco", "dataviz"]
["Provide software build, test, and integration tools, and containers environments", "Provide capabilities for analyzing, visualizing, compressing, moving, and managing data"]