Overview
The Weather Research and Forecasting (WRF) Model is a mesoscale numerical weather prediction system designed to serve both forecasting and atmospheric research needs.
In order to produce high-resolution forecasts for North Carolina, RENCI is running WRF at 12km and 4km resolution twice a day to produce a 36 hour forecast. RENCI can also run sections of North Carolina at a resolution of 1.3km for special cases. With this resolution, WRF has nine times the resolution of National Weather Service forecasts, making it possible to zero in on storm effects in a 4-kilometer radius. WRF can also be used in ensemble forecasting and running past tropical storm events at high resolution.
To make the daily WRF output run on RENCI’s BlueGene/L supercomputer more accessible, the RENCI Visualization Group coupled the simulation to high-speed networks and piped the output to GoogleEarth interface. This visualization represents one-hour timesteps that show temp (blue-to-red), pres (contour lines), wind direction (vectors) and accumulated precipitation (contours).
Overview
The Weather Research and Forecasting (WRF) Model is a mesoscale numerical weather prediction system designed to serve both forecasting and atmospheric research needs.
In order to produce high-resolution forecasts for North Carolina, RENCI is running WRF at 12km and 4km resolution twice a day to produce a 36 hour forecast. RENCI can also run sections of North Carolina at a resolution of 1.3km for special cases. With this resolution, WRF has nine times the resolution of National Weather Service forecasts, making it possible to zero in on storm effects in a 4-kilometer radius. WRF can also be used in ensemble forecasting and running past tropical storm events at high resolution.
To make the daily WRF output run on RENCI’s BlueGene/L supercomputer more accessible, the RENCI Visualization Group coupled the simulation to high-speed networks and piped the output to GoogleEarth interface. This visualization represents one-hour timesteps that show temp (blue-to-red), pres (contour lines), wind direction (vectors) and accumulated precipitation (contours).
Project Team
Jason Coposky
Hong Yi
Collaborators
Dr. Gary Lackman
