WRF EMS MODEL RUN SUMMARY FOR T WRF REAL program WRF NMM core ------------------------------------------------------------------------------ System Name Scheduled Processors localhost : 02 02 Total Processors : 02 02 Domain Decomposition : Internal Internal Active Domains Domain 01 ------------------------------------------------------------------------------ Domain & Run Information Domain Type : Limited Area Primary Time Step : 12.5 Seconds Grid dimensions (NX x NY) : 42 x 70 Vertical Layers (NZ) : 50 Grid Spacing : 5.95 km Top of Model Atmosphere : 50mb Parent Domain : NA Timing Information Start Date : 2012 mar 07 06:00 UTC End Date : 2012 mar 09 12:00 UTC Simulation Length : 54 Hours Boundry Update Freq : 03 Hours File Output Information File Output Freq : 01 Hour Output File Format : netCDF Aux 1 File Output Freq : 03 Hours Aux 1 File Format : netCDF Adjust Output Times : Yes Model Physics Cumulus Scheme : Simplified Arakawa-Schubert Microphysics Scheme : Thompson Double-Moment 6-Class PBL Scheme : Mellor-Yamada-Janjic Land Surface Scheme : Noah 4-Layer LSM Number Soil Layers : 4 Surface Layer Physics : Monin-Obukhov (Janjic) Long Wave Radiation : GFDL Long Wave Radiation Short Wave Radiation : GFDL Short Wave Radiation NMM Core Model Dynamics Dynamics : Non-Hydrostatic Gravity Wave Drag : Off Time-Integration : Horizontally propagating fast-waves - Forward-backward scheme : Vertically propagating sound waves - Implicit scheme Horizontal : Adams-Bashforth Vertical : Crank-Nicholson Advection of T, U, and V Horizontal : Energy and enstrophy conserving, quadratic conservative, 2nd order Vertical : Quadratic conservative, 2nd Order TKE and Moisture Adv : Explicit, Upstream, Flux-Corrected, Positive Definite, Conservative Vertical Diffusion : Handled by PBL and Surface Layer Schemes Lateral Diffusion : Smagorinsky Non-linear Approach Divergence Damping : Horizontal component of divergence is damped