source: trunk/WRF.COMMON/WRFV3/README.NMM @ 3094

Last change on this file since 3094 was 2759, checked in by aslmd, 2 years ago

adding unmodified code from WRFV3.0.1.1, expurged from useless data +1M size

File size: 7.5 KB
Line 
1
2WRF-NMM Model Version 3 (April 2008)
3
4----------------------------
5WRF-NMM PUBLIC DOMAIN NOTICE
6----------------------------
7
8WRF-NMM was developed at National Centers for
9Environmental Prediction (NCEP), which is part of
10NOAA's National Weather Service.  As a government
11entity, NCEP makes no proprietary claims, either
12statutory or otherwise, to this version and release of
13WRF-NMM and consider WRF-NMM to be in the public
14domain for use by any person or entity for any purpose
15without any fee or charge. NCEP requests that any WRF
16user include this notice on any partial or full copies
17of WRF-NMM. WRF-NMM is provided on an "AS IS" basis
18and any warranties, either express or implied,
19including but not limited to implied warranties of
20non-infringement, originality, merchantability and
21fitness for a particular purpose, are disclaimed. In
22no event shall NOAA, NWS or NCEP be liable for any
23damages, whatsoever, whether direct, indirect,
24consequential or special, that arise out of or in
25connection with the access, use or performance of
26WRF-NMM, including infringement actions.
27
28================================================
29
30V3 Release Notes:
31-----------------
32
33This is the main directory for the WRF Version 3 source code release.
34
35- For directions on compiling WRF for NMM, see below or the WRF-NMM Users' Web page (http://www.dtcenter.org/wrf-nmm/users/)
36- Read the README.namelist file in the run/ directory (or on the WRF-NMM Users' page),
37  and make changes carefully.
38
39For questions, send mail to wrfhelp@ucar.edu
40
41======================================
42
43The ./compile script at the top level allows for easy selection of
44NMM and ARW cores of WRF at compile time.
45
46   - Specify your WRF-NMM option by setting the appropriate environment variable:
47
48           setenv WRF_NMM_CORE 1
49           setenv WRF_NMM_NEST 1 (if nesting capability is desired)
50
51   - The Registry files for NMM and ARW are not integrated
52     yet. There are separate versions:
53
54          Registry/Registry.NMM         <-- for NMM
55          Registry/Registry.NMM_NEST    <-- for NMM with nesting
56          Registry/Registry.EM          <-- for ARW (formerly known as Eulerian Mass)
57
58
59How to configure, compile and run?
60----------------------------------
61
62- In WRFV3 directory, type:
63
64   configure
65
66  this will create a configure.wrf file that has appropriate compile
67  options for the supported computers. Edit your configure.wrf file as needed.
68
69  Note: WRF requires netCDF library. If your netCDF library is installed in
70        some odd directory, set environment variable NETCDF before you type
71        'configure'. For example:
72
73        setenv NETCDF /usr/local/lib32/r4i4
74
75- Type:
76        compile nmm_real
77       
78- If sucessful, this command will create nmm_real.exe and wrf.exe
79  in directory main/, and the appropriate executables will be linked into
80  the run directories under test/nmm_real, or run/.
81
82- cd to the appropriate test or run directory to run "nmm_real.exe" and "wrf.exe".
83
84- Place files from WPS (met_nmm.*, geo_nmm_nest*)
85  in the appropriate directory, type
86
87  real_nmm.exe
88
89  to produce wrfbdy_d01 and wrfinput_d01. Then type
90
91  wrf.exe
92
93  to run.
94
95- If you use mpich, type
96
97  mpirun -np number-of-processors wrf.exe
98
99=============================================================================
100
101What is in WRF-NMM V3.0?
102
103* Dynamics:
104
105  - The WRF-NMM model is a fully compressible, non-hydrostatic model with a
106    hydrostatic option.
107 
108  - Supports One-way and two-way static nesting.
109
110  - The terrain following hybrid pressure sigma vertical coordinate is used.
111 
112  - The grid staggering is the Arakawa E-grid.
113 
114  - The same time step is used for all terms. 
115
116  - Time stepping:
117     - Horizontally propagating fast-waves: Forward-backward scheme
118     - Veryically propagating sound waves: Implicit scheme
119
120  - Advection (time):
121     T,U,V:
122      - Horizontal: The Adams-Bashforth scheme
123      - Vertical:   The Crank-Nicholson scheme
124     TKE, water species: Forward, flux-corrected (called every two timesteps).
125
126  - Advection (space):
127     T,U,V:
128      - Horizontal: Energy and enstrophy conserving,
129      quadratic conservative,second order
130     
131      - Vertical: Quadratic conservative,second order TKE,
132       
133      - Water species: Upstream, flux-corrected, positive definite, conservative
134
135  - Horizontal diffusion: Forward, second order "Smagorinsky-type"
136
137  - Vertical Diffusion:
138     See "Free atmosphere turbulence above surface layer" section
139     in "Physics" section given in below.
140
141* Physics:
142
143  - Explicit Microphysics (WRF Single Moment 5 and 6 class /
144    Ferrier (Used operationally at NCEP.)/ Thompson [a new version in 2.2])
145
146  - Cumulus parameterization (Kain-Fritsch with shallow convection /
147    Betts-Miller-Janjic (Used operationally at NCEP.)/ Grell-Devenyi ensemble
148    / Simplified Arakawa-Schubert)
149 
150  - Free atmosphere turbulence above surface layer: Mellor-Yamada-Janjic (Used operationally at NCEP.)
151 
152  - Planetary boundary layer: YSU /  Mellor-Yamada-Janjic (Used operationally at NCEP.)
153    / GFS
154 
155  - Surface layer: Similarity theory scheme with viscous sublayers
156                   over both solid surfaces and water points (Janjic - Used operatinally at NCEP).
157    / GFS / YSU
158
159  - Slab soil model: Noah land-surface model (4-level - Used operationally at NCEP) /
160    RUC LSM (6-level)
161
162  - Radiation:
163    - Longwave radiation: GFDL Scheme  (Fels-Schwarzkopf) (Used operationally at NCEP.) / RRTM
164    - Shortwave radiation: GFDL-scheme (Lacis-Hansen) (Used operationally at NCEP.) / Dudhia
165
166  - Gravity wave drag: none
167
168
169* WRF Software:
170
171  - Hierarchical software architecture that insulates scientific code
172    (Model Layer) from computer architecture (Driver Layer)
173  - Multi-level parallelism supporting shared-memory (OpenMP), distributed-memory (MPI),
174    and hybrid share/distributed modes of execution
175  - Serial compilation can be used for single-domain runs but not for runs with
176nesting at this time.
177  - Active data registry: defines and manages model state fields, I/O,
178    configuration, and numerous other aspects of WRF through a single file,
179    called the Registry
180  - Enhanced I/O options:
181      NetCDF and Parallel HDF5 formats
182      Five auxiliary history output streams separately controllable through the namelist
183      Output file names and time-stamps specifiable through namelist
184
185  - Testing: Various regression tests are performed on HP/Compaq systems at
186    NCAR/MMM whenever a change is introduced into WRF cores.
187
188  - Efficient execution on a range of computing platforms:
189      IBM SP systems, (e.g. NCAR "bluevista","blueice" and NCEP's "blue", Power4-based system)
190      HP/Compaq Alpha/OSF workstation, SMP, and MPP systems (e.g. Pittsburgh
191         Supercomputing Center TCS)
192      SGI Origin and Altix
193      Linux/Intel
194         IA64 MPP (HP Superdome, SGI Altix, NCSA Teragrid systems)
195         IA64 SMP
196         Pentium 3/4 SMP and SMP clusters (NOAA/FSL iJet system)
197      PGI and Intel compilers supported
198      Alpha Linux (NOAA/FSL Jet system)
199      Sun Solaris (single threaded and SMP)
200      Cray X1
201      HP-UX
202      Other ports under development:
203         NEC SX/6
204         Fujitsu VPP 5000
205  - RSL_LITE: communication layer, scalable to very
206    large domains
207  - ESMF Time Management, including exact arithmetic for fractional
208    time steps (no drift); model start, stop, run length and I/O frequencies are
209    now specified as times and time intervals
210  - Improved documentation, both on-line (web based browsing tools) and in-line
211
212--------------------------------------------------------------------------
213
Note: See TracBrowser for help on using the repository browser.