Title :
Petascale WRF simulation of hurricane sandy: Deployment of NCSA´s cray XE6 blue waters
Author :
Johnsen, Peter ; Straka, M. ; Shapiro, Marc ; Norton, Alan ; Galarneau, Thomas
Author_Institution :
Performance Eng. Group, Cray, Inc., St. Paul, MN, USA
Abstract :
The National Center for Atmospheric Research (NCAR) Weather Research and Forecasting (WRF) model has been employed on the largest yet storm prediction model using real data of over 4 billion points to simulate the landfall of Hurricane Sandy. Using an unprecedented 13,680 nodes (437,760 cores) of the Cray XE6 “Blue Waters” at NCSA at the University of Illinois, researchers achieved a sustained rate of 285 Tflops while simulating an 18-hour forecast. A grid of size 9120×9216×48 (1.4Tbytes of input) was used, with horizontal resolution of 500 meters and a 2-second time step. 86 Gbytes of forecast data was written every 6 forecast hours at a rate of up to 2 Gbytes/second and collaboratively post-processed and displayed using the Vapor suite at NCAR. Opportunities to enhance scalability in the source code, run-time, and operating system realms were exploited. The output of this numerical model is now under study for model validation.
Keywords :
geophysics computing; operating systems (computers); parallel machines; source code (software); storms; weather forecasting; NCSA cray XE6 blue waters; National Center for Atmospheric Research Weather Research and Forecasting model; Petascale WRF simulation; forecast data; hurricane sandy; numerical model; operating system; source code; storm prediction model; time 18 hour; vapor suite; Atmospheric modeling; Computational modeling; Computer architecture; Manganese; Reliability; SDRAM; Weather forecasting; Cray; High Performance Computing; NCAR; NCSA; WRF; forecast; hurricane; prediction; simulation; storm; weather;
Conference_Titel :
High Performance Computing, Networking, Storage and Analysis (SC), 2013 International Conference for
Print_ISBN :
978-1-4503-2378-9
DOI :
10.1145/2503210.2503231
