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Ryan Sriver

University of Illinois at Urbana-Champaign

Atmospheric Sciences

2019

Hui Li and Ryan L. Sriver (2019): Impact of air-sea coupling on the simulated global tropical cyclone activity in the high-resolution Community Earth System Model (CESM), Climate Dynamics, Springer Nature Switzerland AG, Vol 53, Num 7-8, pp3731-3750

2018

Hui Li and Ryan L. Sriver (2018): Impact of Tropical Cyclones on the Global Ocean: Results from Multidecadal Global Ocean Simulations Isolating Tropical Cyclone Forcing, Journal of Climate, American Meteorological Society, Vol 31, Num 21, pp8761-8784
Hui Li and Ryan L. Sriver (2018): Tropical Cyclone Activity in the High-Resolution Community Earth System Model and the Impact of Ocean Coupling, Journal of Advances in Modeling Earth Systems, Wiley-Blackwell, Vol 10, Num 1, pp165-186

2017

David Bock (2017): Visualization of Tropical Cyclone-Ocean Interactions, ACM Press, PEARC17: Proceedings of the Practice and Experience in Advanced Research Computing 2017 on Sustainability, Success and Impact, pp79:1-79:3, New Orleans, Louisiana, U.S.A.
Andrew Huang, Hui Li, Ryan L. Sriver, Alexey V. Fedorov, and Chris M. Brierley (2017): Regional Variations in the Ocean Response to Tropical Cyclones: Ocean Mixing Versus Low Cloud Suppression, Geophysical Research Letters, Wiley-Blackwell, Vol 44, Num 4, pp1947-1955

2016

Hui Li and Ryan L. Sriver (2016): Effects of Ocean Grid Resolution on Tropical Cyclone-Induced Upper Ocean Responses Using a Global Ocean General Circulation Model, Journal of Geophysical Research: Oceans, Wiley-Blackwell, Vol 121, Num 11, pp8305-8319
E. Janssen, R. L. Sriver, D. J. Wuebbles, and K. E. Kunkel (2016): Seasonal and regional variations in extreme precipitation event frequency using CMIP5, Geophysical Research Letters, American Geophysical Union, Vol 43, Num 10, pp5385-5393
Hui Li, Ryan L. Sriver, and Marlos Goes (2016): Modeled Sensitivity of the Northwestern Pacific Upper-Ocean Response to Tropical Cyclones in a Fully Coupled Climate Model with Varying Ocean Grid Resolution, Journal of Geophysical Research: Oceans, Wiley-Blackwell, Vol 121, Num 1, pp586-601

2018

Ryan Sriver and Hui Li (2018): Analyzing Tropical Cyclone-Climate Interactions using the High-Resolution Community Earth System Model, Blue Waters annual-book summary slide
Ryan Sriver and Hui Li (2018): The Response of Tropical Cyclone Activity to Global Warming in the Community Earth System Model, Blue Waters annual-book summary slide
Ryan Sriver (2018): Atmospheric Rivers: Potential Drought Busters, Blue Waters annual-book summary slide
Ryan Sriver, Hui Li (2018): The Response of Tropical Cyclone Activity to Global Warming in the Community Earth System Model, 2018 Blue Waters Annual Report, pp78-79
Ryan Sriver (2018): Atmospheric Rivers: Potential Drought Busters, 2018 Blue Waters Annual Report, pp80-81
Ryan Sriver, Hui Li (2018): Analyzing Tropical Cyclone-Climate Interactions using the High-Resolution Community Earth System Model, 2018 Blue Waters Annual Report, pp76-77

2017

2016

2015

David Bock, H. Lui, and R. L. Sriver: Simulation and Visual Representation of Tropical Cyclone-Ocean Interactions


Scientific Visualization and Data Analytics Showcase at the International Conference for High Performance Computing, Networking, Storage and Analysis (SC '17); Denver, Colorado, U.S.A., Nov 14, 2017

David Bock: Visualization of Tropical Cyclone-Ocean Interactions


PEARC '17: Practice and Experience in Advanced Research Computing 2017 (Visualization Showcase): New Orleans, Louisiana, U.S.A., Jul 12, 2017

Simulating Hurricanes with the Blue Waters Supercomputer


Jul 19, 2019

Researchers describe how they are using the Blue Waters supercomputer at NCSA to figure out the effects of a changing climate on the frequency and intensity of hurricanes.


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NCSA Grants $2.6M in Blue Waters Awards to Illinois Researchers


Jul 6, 2017

The National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana-Champaign has awarded 3,697,000 node hours (NH) of time on the Blue Waters supercomputer to Illinois researchers from Spring 2017 proposal submissions. The combined value of these awards is over $2.6 million dollars, and through the life of the Blue Waters program, NCSA has awarded over 43 million node hours to UI researchers—a value of nearly $27 million. Some of the time allocated for Blue Waters will go to projects that focus on HIV research, Laser Interferometer Gravitational-Wave Observatory (LIGO) simulations, genomics and global warming research.


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Blue Waters Illinois allocations awarded to 26 research teams


Mar 7, 2017

Twenty-six research teams at the University of Illinois at Urbana-Champaign have been allocated computation time on the National Center for Supercomputing Application's (NCSA) sustained-petascale Blue Waters supercomputer after applying in Fall 2016. These allocations range from 25,000 to 600,000 node-hours of compute time over a time span of either six months or one year. The research pursuits of these teams are incredibly diverse, ranging anywhere from physics to political science.


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