The NODD AWS cloud is used to disseminate model outputs from National Ocean Service's operational forecast systems (OFS).
Starting November 20, 2024, model output files will be available in the current and new directory structures. The current file directory structure is: OFS/netcdf/YYYYMM, where one single folder usually contains over 7000 files and a large amount of memory is required for the THREDDS applications.
The current directory and new structures will co-exist until January 1, 2025, when the current directory structure will be decommissioned.
The upgraded Lake Erie Operational Forecast System (LEOFS) was jointly developed by NOAA/National Ocean Service's (NOS) Center for Operational Oceanographic Products and Services (CO-OPS) and Office of Coast Survey (OCS), the Great Lakes Environmental Research Laboratory (GLERL), the NOAA/National Weather Service's (NWS) National Centers for Environmental Prediction (NCEP) National Central Operations (NCO), and the University of Massachusetts-Dartmouth.
The NWS and NOS work together to run LEOFS operationally on NOAA's High Performance Computing System (HPCS). By running on NOAA's HPCS, LEOFS has direct access to National Weather Service operational meteorological products that are required for reliable operations.
LEOFS uses the Finite Volume Community Ocean Model (FVCOM), coupled with an unstructured grid version of the Los Alamos Sea Ice model (CICE), to provide users with higher resolution of nowcast (analyses of near present) and forecast guidance of water levels, currents, water temperature, ice concentration, ice thickness and ice velocity out to 120 hours, four times per day. Please note that CO-OPS is distributing ice-related products only in a digital NetCDF format. No graphical products are provided.
For more information about LEOFS, please click here.
For more information about FVCOM, please click here.
Disclaimer:
The Lake Erie Operational Forecast System (LEOFS) has been implemented by NOAA's National Ocean Service (NOS) to provide
the maritime user community with short-term predictions of water levels, water currents, and water temperatures of the Lake Erie.
LEOFS uses a numerical hydrodynamic model to generate the nowcast and forecast information; therefore, they should be considered as
model-generated nowcast and forecast guidance. For more detailed information related to the OFS disclaimer, please visit at the
Disclaimers web page.
During extreme weather conditions, water level forecast guidance data are released for public utility and should be used with appropriate caution.