source: trunk/WRF.COMMON/WRFV3/README @ 3026

Last change on this file since 3026 was 2759, checked in by aslmd, 2 years ago

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

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1WRF Model Version 3.0.1 (August 5, 2008)
2http://www.mmm.ucar.edu/wrf/users/
3
4------------------------
5WRF PUBLIC DOMAIN NOTICE
6------------------------
7
8WRF was developed at the National Center for Atmospheric Research
9(NCAR) which is operated by the University Corporation for
10Atmospheric Research (UCAR). NCAR and UCAR make no proprietary
11claims, either statutory or otherwise, to this version and
12release of WRF and consider WRF to be in the public domain for
13use by any person or entity for any purpose without any fee or
14charge. UCAR requests that any WRF user include this notice on
15any partial or full copies of WRF. WRF is provided on an "AS
16IS" basis and any warranties, either express or implied,
17including but not limited to implied warranties of
18non-infringement, originality, merchantability and fitness for a
19particular purpose, are disclaimed. In no event shall
20UCAR be liable for any damages, whatsoever, whether direct,
21indirect, consequential or special, that arise out of or in
22connection with the access, use or performance of WRF, including
23infringement actions.
24
25
26======================================
27This is the main directory for the WRF Version 3 source code release.
28======================================
29
30V3.0.1.1 Release Notes:
31-----------------------
32
33Version 3.0.1.1 has only limited bug fixes compared to version 3.0.1.
34The detailed updates for WRF-ARW can be found at
35http://www.mmm.ucar.edu/wrf/users/wrfv3/updates-3.0.1.1.html, and
36for WRF-NMM at http://www.dtcenter.org/wrf-nmm/users/model/wrfv3/updates.php
37Users only need to get the new version if they are involved with one of more of the following:
38
39ARW or NMM:
40
411) Over decomposing domains
422) Using AIX/xlf with the "old" Kain-Fritsch cumulus scheme
433) Grib edition 2 output
44
45ARW Only:
46
471) ndown (offline 1-way nesting) with the ifort compiler
482) 3d sea breeze case (existing sea breeze case is 2d by default)
493) Multiple time period initialization for a global domain
504) Observation nudging using either fine grids or with dynamic initialization
51
52NMM Only:
53
541) Restart capability for single domain forecasts
552) Noise reduction on eastern boundary in areas of complex topography
563) Kain-Fritsch cumulus
57
58
59V3.0.1 Release Notes:
60------------------
61
62This is a bug fix release. The detailed updates for WRF-ARW can be found at
63http://www.mmm.ucar.edu/wrf/users/wrfv3/updates-3.0.1.html, and
64for WRF-NMM at
65http://www.dtcenter.org/wrf-nmm/users/model/wrfv3/updates.php
66
67Online User's Guides have also been updated.
68
69======================================
70
71V3.0 Release Notes:
72------------------
73
74- For directions on compiling WRF, see below or Users Web page.
75- For more information on WRF V3 release, visit WRF Users home page
76  http://www.mmm.ucar.edu/wrf/users/
77- WRF V3 works with WPS, and SI is no longer supported.
78  Please see User' Guide for WPS.
79- WRF V3 executable does not work with wrfinput/wrfbdy produced by previous versions.
80- WRF V3 has removed one obsolete namelist variable, dyn_opt. Edit with caution.
81
82======================================
83
84WRF update history:
85
86- V2.0.1: May 21, 2004
87- V2.0.2: June 3, 2004
88- V2.0.3: Nov 12, 2004
89  V2.0.3.1: Dec 3, 2004
90- V2.1: August 4, 2005
91- V2.1.1: Nov 8, 2005
92- V2.1.2: Jan 27, 2006
93- V2.2: Dec 21, 2006
94- V2.2.1: Nov 1, 2007
95
96======================================
97
98How to compile and run?
99-----------------------
100
101- In WRFV3 directory, type 'configure' - this will create a configure.wrf
102  file that has appropriate compile options for the supported computers.
103
104  Note: WRF requires netCDF library. If your netCDF library is installed in
105        some odd directory, set environment variable NETCDF before you type
106        'configure'. For example,
107
108        setenv NETCDF /usr/local/netcdf-pgi
109
110- Type 'compile case_name' where you can find the case_names by simply typing
111  compile. The following are available:
112
113      compile em_b_wave
114      compile em_grav2d_x
115      compile em_heldsuarez
116      compile em_hill2d_x
117      compile em_les
118      compile em_quarter_ss
119      compile em_real
120      compile em_seabreeze2d_x
121      compile em_squall2d_x
122      compile em_squall2d_y
123
124- If sucessful, this will create either real.exe or ideal.exe and wrf.exe
125  in directory main/, and the appropriate executables will be linked into
126  the test directoires under test/case_name, or run/.
127
128- cd to the appropriate test or run directory to run ideal/real/wrf.
129
130- If it is one of the idealized cases (b_wave, hill2d_x, grav2d_x, quarter_ss,
131  squall2d_x, squall2d_y, em_les or em_heldsuarez), cd the the appropriate directory, type
132
133  ./ideal.exe
134
135  to produce wrfinput_d01 file for wrf model. Then type
136
137  ./wrf.exe
138
139  to run.
140
141- If it is real-data case (real), place files from WPS (met_em.*)
142  in the appropriate directory, type
143
144  ./real.exe
145
146  to produce wrfbdy_d01 and wrfinput_d01. Then type
147
148  ./wrf.exe
149
150  to run.
151
152- If you use mpich, type
153
154  mpirun -np number-of-processors wrf.exe
155
156- For information on how to make nested runs, visit
157  http://www.mmm.ucar.edu/wrf/users/
158
159
160======================================
161
162What is in WRF V3?
163
164- Advanced Research WRF (ARW) solver: Eulerian mass, hydrostatic and non-hydrostatic
165  * Arakawa C-grid staggering
166  * Runge-Kutta 2nd and 3rd order timestep options
167  * scalar-conserving flux form for prognostic variables
168  * 2nd to 6th order advection options (horizontal and vertical)
169  * time-split small step for acoustic modes
170  * small step horizontally explicit, vertically implicit
171  * divergence damping option and vertical time off-centering
172  * external-mode filtering option for mass model
173  * hydrostatic option via namelist option
174  * positive-definite advection for moisture, scalar, tke and chemical tracers
175  * global modeling capability on latitude-longitude grid
176
177- Two-way nesting:
178  * multiple domains and multiple nest levels
179  * supports integer nest grid ratio
180  * feedback option for both odd and even nest grid ratios
181  * smoothing options
182
183- One-way nesting
184
185- Moving nest
186  * Specified move
187  * Automatic move using a mid-level vortex-following algorithm
188
189- Physics options:
190  * microphysics (Kessler/ WRF Single Moment 3, 5 and 6 class / Lin et al./
191    Eta Ferrier / Thompson / Goddard / 2-moment Morrison / )
192  * cumulus parameterization (Kain-Fritsch with shallow convection /
193    Betts-Miller-Janjic / Grell-Devenyi ensemble / New Grell )
194  * planetary boundary layer (Yosei University / Mellor-Yamada-Janjic / ACM2 )
195  * surface layer (similarity theory MM5 / Eta)
196  * slab soil model (5-layer thermal diffusion / Noah land-surface model (4 levels) /
197    RUC LSM (6 levels) / Pleim-Xu (2 levels)
198  * Urban canopy model (works with Noah LSM)
199  * longwave radiation (RRTM, CAM)
200  * shortwave radiation (simple MM5 scheme / Goddard / CAM)
201  * sub-grid turbulence (constant K diffusion/ 2-D Smagorinsky/ predicted TKE /
202    2-D, 6th order diffusion)
203  * Rayleigh damping for w at the upper boundary layer
204  * land-use categories determine surface properties
205
206- Nudging:
207  * three-dimensional analysis nudging
208  * observation nudging
209
210- Software
211
212  * Hierarchical software architecture that insulates scientific code
213    (Model Layer) from computer architecture (Driver Layer)
214  * Multi-level parallelism supporting shared-memory (OpenMP), distributed-memory (MPI),
215    and hybrid share/distributed modes of execution
216  * Active data registry: defines and manages model state fields, I/O,
217    nesting, configuration, and numerous other aspects of WRF through a single file,
218    called the Registry
219  * Two-way nesting:
220      Easy to extend: forcing and feedback of new fields specified by
221        editing a single table in the Registry
222      Efficient: 5-8% overhead on 64 processes of IBM
223      Moving nests.
224  * Enhanced I/O options:
225      NetCDF and Parallel HDF5 formats
226      Nine auxiliary input and history output streams separately controllable through the namelist
227      Special input streams for analysis and observation nudging
228      Output file names and time-stamps specifiable through namelist
229      Special output stream for 3DVAR
230  * Efficient execution on a range of computing platforms:
231      IBM SP systems, (e.g. NCAR "bluevista","blueice","bluefire" Power5-based system)
232      IBM Blue Gene
233      SGI Origin and Altix
234      Linux/Intel
235         IA64 MPP (HP Superdome, SGI Altix, NCSA Teragrid systems)
236         IA64 SMP
237         x86_64 (e.g. TACC's "Ranger", NOAA/GSD "wJet" )
238         PGI, Intel, Pathscale, gfortran, g95 compilers supported
239      Sun Solaris (single threaded and SMP)
240      Cray X1, X1e (vector), XT3/4 (Opteron)
241      Mac Intel/ppc, PGI/ifort/g95
242      NEC SX/8
243      HP-UX
244      Fujitsu VPP 5000
245  * RSL_LITE: communication layer, scalable to very
246    large domains, supports nesting.
247  * I/O: NetCDF, parallel NetCDF (Argonne), HDF5, GRIB, raw binary, Quilting (asynchronous I/O), MCEL (coupling)
248  * ESMF Time Management, including exact arithmetic for fractional
249    time steps (no drift).
250  * ESMF integration - WRF can be run as an ESMF component.
251  * Improved documentation, both on-line (web based browsing tools) and in-line
252
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