Program Descriptions: Difference between revisions

Latest revision as of 16:16, 27 February 2023

At the BAW-DH there exists a comprehensive collection of software which has been mostly developed by the staff of the BAW-DH. The software was developed to assist engineers in solving practical problems. This page gives you a list in alphabetical order of the most important programs in use. For every listed program a short description of its functionality is available. More than that, you will also find information on closely related programs (fore-runners and after-runners). In addition to this an overview of required and optional input-files is given together with an enumerated list of the output-files generated by the program.

The majority of the programs are written in Fortran (FORTRAN77, Fortran90, Fortran95, Fortran 2003). For details about the Fortran programming language see e. g. Intel Language Reference

explanation of colour codes
Pre	processing of measured data, preprocessing responsible: P. Schade and G. Seiß (Working group PRE)
Sim	numerical simulation responsible: B. Fricke, A. Sehili and H. Weilbeer (Working group SIM)
Pos	postprocessing for numerical models and data analysis responsible: J. Jürges, A. Rosenhagen and S. Spohr (Working group POS)
Son	others responsible: individuals which are responsible for program maintenance.
Advice to Users
users of the programs who detect errors or deficiencies should contact one of the above mentioned responsibles in dependence on the group to which the application program belongs.
A
Pos	ABDF	analysis of data stored in direct access data files (BDF)
Pre	ADCP2BDF	conversion of ADCP workhorse data to BDF data format
Pre	ADCP2PROFILE	conversion of ADCP profile data to BDF data format
Pos	ANALTEL2D	interactive modification of a file of type selafin
B
Pos	BATCHPLOT	post processor for batch oriented visualisation of data
Pre	BFABSENK	computing of height changes inside groyne areas
Pre	BOERND	generation of boundary time-series (preparatory stage)
Pre	BSH2BAW	conversion of meteorological data into the mkwswawrt format
C
Pre	create_simple_untrim2_grid	create simple grid for UNTRIM2
Pre	CROSSPRO	calculation and output of cross-sectional profiles, lying orthographical to a defined longitudinal river fairway profile
D
Pre	DATA2GEOM	Conversion of BSH ASCII files to geom files
Pos	DATACONVERT	Conversion of Delft3D computational grid as well as computational results
Pre	DATAUS	extraction of soundings of an interesting area from ASCII-files (x,y,z) of various formats
Pos	DAVIT	interaktive visualisation and exploration of modelling results
Pre	DEPRO2D	interactive definition of profiles
Pos	DIDAMERGE	merging and thinning (in time) for synoptic data sets
Pos	DIDAMINTQ	integration and averaging for synoptic data sets along cross sections
Pos	DIDAMINTZ	calculation of depth integrated or averaged results for synoptic data sets
Pos	DIDARENAME	change of BDF file names
Pos	DIDASPLIT	splitting of large data sets or bathymetries into subdomains
Pos	display_control_volumes	tabular representation of spatially and temporally aggregated fluxes
Pos	display_percentiles	visualization of statistics calculated with profile data
Pre	DREHE2D	translation and rotation of coordinates which are stored in different file types
E
Pos	EDITOR	interactive modification and generation of GKS graphics
Pos	ENERF	calculation of synoptical quantities (e.g. energy flux) by using data results of numerical models
Pre	EVENTFILTER	filter of high and low water events and evaluation of their mean values
Pre	EXCELENZ	conversion of time-series data for further analysis or graphical display
Pos	EXKNO	extraction of time-series from model output at specific locations
F
Son	F77_TO_F90	rewrite FORTRAN77 source code to FORTRAN90 source code
Pre	FD2ADDTOPO	creates an update grid for finite differences topography from echo soundings and updates a finite differences topography
Pre	FD2BASIS	creates a basic grid with correct land/water distribution (format FIDISOR/FIDIRB) by using digitized border lines
Pre	FD2DEL	creates difference topography from FIDISOR grids / modifies a FIDISOR grid with a difference topography
Pre	FD2HYPSO	calculation of a frequency distribution of depth values of a finite difference topograph
Pre	FD2KACHEL	generation of a tile-bathymetry and tile-data for FIDISOR/FIDIRB result files
Pre	FD2MET	generation of meteorological boundary value files for finite difference methods
Pre	FD2MOD	modify an area in a difference of two finite difference topographies
Pre	FD2RIBA	dredging fairways in finite difference topographies
Pre	FD2SPUELER	filling of fairways in finite difference topographies
Pre	FD2TRIM	conversion of a FIDIRB-bathymetry into an equivalent TRIM-grid
Pre	FDGITTER05	graphical preprocessor for finite difference grids
Pre	FDGLUE	glues two meshes into a new finite difference grid
Pre	FFT	fast fourier transformation of time series
Pre	FILELIST_TO_GEOM	rewrite coordinates of many files containing a single location into one file
Pre	FRQ2ZEITR	calculation of time series of the waterlevel from information about the frequencies, phases and amplitudes of the tidal harmonic constituents
Pos	FRQTIE	link result data of the program FRQWF to create new relationships
Pos	FRQWF	tidal harmonic analysis of water level
G
Pre	GEOMFD2	generation of FD model bathymetry (FIDISOR/FIDIRB) and calendar-matrix
Pre	GEOTRANSFORMER	transformation of coordinates between different coordinate systems for different BAW file types.
Pos	GETDATA	Conversion of Delft3D computational results into netCDF files
Pos
Pre	GRIDCONVERT	Converts computational grids for different mathematical methods
Pre	GVIEW2D	Graphical visualization of time-dependent physical quantities at a given position (so called geo position)
Pos	GVIEW2D
H
Pre	HSV	computation of settling velocities with a steering file (sv.dat) of the SV package (SV=Settling Velocity)
Pos	HVIEW2D	two-dimensional graphical representation of CFD-data
I
Pre	IGEL2D	interactive calculation of a borderline enclosing bearing data
Pos	insel2ipds	read several insel.dat and create one ipds file
Pos	inspect_control_volumes	time series visualization of aggregated transport quantities
Son	IO_VOLUME	converting data into the volume model for visualisation software profiles
J
Pre	JANET	Interactive mesh generation and optimization tool
K
Pre	KACHEL2D	extraction of part grids out of a finite element model grid
L
Pos	LQ2PRO	visualization of data along longitudinal and/or cross-sectional profiles
Pos	LZKAF	calculation of long-term characteristic numbers of atmosphere
Pos	LZKMF	calculation of tide-independent characteristic numbers of morphodynamics
Pos	LZKSF	calculation of tide-independent characteristic numbers of salinity, temperature, suspended load, tracer load, bed load transport or eff. bed shear stress action
Pos	LZKVF	calculation of tide-independent characteristic numbers of current velocity
Pos	LZKWF	calculation of tide-independent characteristic numbers of water level
M
Pre	MEDIANGLAETTUNG	smoothing of topographical information
Pre	MESKOR	correction of time-series data
Pre	METDIDA	conversion of meteorological data into the BAW-DH direct access format
Pre	MKRDAT	Generation of soil identification numbers for TRIM-2D
N
Pos	NCAGGREGATE	aggregation for control volumes of data stored in (BAW) CF NetCDF files.
Pos	NCANALYSE	analysis program for data stored in (BAW) CF NetCDF files.
Pos	NCAUTO	classification of variables and extreme value analysis for (BAW) CF NetCDF files.
Pos	NCCHUNKIE	create chunked CF NetCDF files.
Pos	NCCUTOUT	cut out UGRID CF NetCDF files.
Pos	NCDELTA	program to compute differences for data stored in (BAW) CF NetCDF files.
Pos	NCDVAR	deletion of selected variables and dates from (BAW) CF NetCDF files.
Pos	NCMERGE	merge variables from different (BAW) CF NetCDF files in one single CF NetCDF file.
Pos	NCPLOT	plot program for visualisation of data stored in (BAW) CF NetCDF files.
Pos	NCPROFIL	plot program for visualisation of data stored in (BAW) CF NetCDF files on profiles.
Pos	NC2TABLE	data extraction program for data stored in (BAW) CF NetCDF files
O
P
Pos	PARTRACE	particle tracking within a two-dimensional depth-averaged velocity field
Pos	POLWIND	extraction of polygons out of an overall area
Pos	PLOTPROFILZEIT	Display (aggregated) profile data over time
Pre	POLYUMFORM	conversion of structure information files from several formats to a common BAW format
Pos	PGCALC	calculation of further physical quantities by using the results of a simulation
Pre	PREHYDRO	Processing of seaside boundary data for the BAW operational Model using BSHcmod data
Pre	PREMETEO	Mapping of the processed DWD atmospheric forcing on the Untrim estuary Grid
Sim	PROPTEL	The BAW Operational Tide Model
Q
Pos	quickplot	data visualization (filetype cf-netcdf.nc)
R
Pre	ROSE	analysis and graphical display of a direction dependent relative frequency of occurrence for a vector time series
Pre	RSMERGE	adjustment of UNTRIM restart data to a different grid
S
Pre	SYNGRID	generation of artificial bearing data
T
Pos	TAYLORDIAGRAM	creates a figure of type Talyor-Diagram
Pre	TC2BAGGER	dredger-program for two-dimensional finite element grids
Pre	TC2GEOM	conversion of a finite element topography into a finite difference topography
Pre	TC2TR2	conversion of a TICAD topography into a TRIM topography
Pos	TDKLF	computation of the tidal characteristic numbers of bed load transport or eff. bed shear stress action
Pos	TDKSF	computation of the tidal characteristic numbers of salinity, suspended sediment concentration, tracer concentration and temperature
Pre	TDKTIE	linking TIDKEN results
Pos	TDKVF	computation of the tidal characteristic numbers of current
Pos	TDKWF	computation of the tidal characteristic numbers of water level and morphodynamics
Sim	TELEMAC-2D	two-dimensional finite element numerical model
Pre	TEO	extraction of bearing data points from a KUEDAT bearing file
Pre	TEOAX	extraction of bearing axes from a KUEDAT bearing file
Pre	TICLQ2	extraction of bathymetry along longitudinal/cross-sectional profiles
Pre	TICTRI	grid conversion into TRIGRID-format
Pre	TIDKEN	computation of tidal characteristc numbers for individual time series
Pre	TIMESHIFT	correction of profile data in time
Pos	TM2DIDA	data conversion of the TELEMAC-2D-results
Pre	TM2RND	generation of boundary values for TELEMAC-2D
Pre	TOPVF	calculation of 2D/3D-areas and volumes of finite element meshes
Pre	TOUTR	conversion of a grid file of any type to a grid file for the numerical model UNTRIM
Son	TR2APP	analysis of TRIM-2D-results
Pos	TR2ASCII	data conversion of the TRIM-2D-results into ASCII format
Pos	TR2DIDA	data conversion of the TRIM-2D-results
Pre	TR2FIDI	conversion of a TRIM-bathymetry into a FIDISOR/FIDIRB bathymetry
Pre	TR2GEOM	conversion of a TRIM-bathymetry into an equivalent finite element grid
Pos	TR2ISSUSKONVERT	Support of ship handling simulators with 2D current data from hydronumeric simulations (TRIM2D/UNTRIM/TELEMAC)
Pos	TR2KACHEL	generation of a tile-bathymetry and tile-data for TRIM-2D result files
Pre	TR2LQ2	extraction of bathymetry along longitudinal/cross-sectional profiles from a TRIM bathymetry
Pos	TR2MODATE	modification of date and time in a TRIM-2D results file
Pre	TR2REFRESH	update a TRIM bathymetry
Pre	TR2RND	generation of boundary value files for TRIM-2D
Pre	TR2VOR	generation of an optimized bathymetry as well as some index arrays for TRIM-2D
Pos	TR3DIDA	data conversion of the TRIM-3D-results
Pos	TR3KACHEL	extraction of bathymetry, index-arrays and results out of a TRIM-3D-overall-area
Pos	TR3MODATE	modification of date and time in a TRIM-3D results file
Pre	TRASSE	generation of data for a fairway finite element grid
Pre	TRGITTER05	graphical preprocessor for a finite difference TRIM-2D grid
Sim	TRIM-2D	two-dimensional finite difference model TRIM-2D
Sim	TRIM-3D	three-dimensional finite difference model TRIM-3D
Pos	TRIMKACH	generation of general input files and extraction of data by TR2KACHEL or TR3KACHEL
Pos	TRVZR	analysator of area result files of the numerical methods TRIM-2D or TRIM-3D
Pre	TSCALC	mathematical operations on time series data
U
Pos	UNK	spectral wave model with non-linear dissipation
Pos	UNS	postprocessor with SediMorph functionality independent of a coupled hn model
Sim	UNTRIM	finite difference/volume model (2D/3D) for unstructured grids UNTRIM
Sim	UNTRIM2	finite difference/volume model (2D/3D) for unstructured grids UNTRIM2, with sub grid technology for precise representation of bathymetry
Sim	UNTRIM2007	finite difference/volume model (2D/3D) for unstructured grids with static or dynamic bathymetry
Sim	UNTRIM2007MONITOR	extraction of time series data out of an UnTRIM2007 message file
Sim	UNTRIMMONITOR	The program is used for the graphical visualization of information from the UnTRIM-Message-file
Pre	UPDA2D	update a model bathymetry and alignment of edges of elements along structures
Sim	UPLAY	gui around UNTRIM2 and NCPLOT to change grid depths, to let compute the hydrodynamic effect and to look at the computational results
Pre	UTRPRE	rounding UnTRIM2007 depths in order to get identical number of computational points
Pre	UTRRND	generation of boundary time series data from measured or computed data
V
Pre	VOLUMETH	calculation of area distribution and volume sum function of a region inside an FE mesh
Pre	VOLUMETHAUTO	daemon for the programm VOLUMETH
Pos	VTDK	calculation of differences between tidal characteristic numbers
Pos	VVIEW2D	two-dimensional graphical representation of CFD-data for vertical sections
W
Sim	WARM	mathematical wave model
Son	WESPE	computation of one-dimensional wave spectra (JONSWAP and TMA)
X
Pos	XTRDATA	extraction of ASCII-data from binary direct access files
Pos	XTRLQ2	extraction of binary data for longitudinal and/or cross-sectional profiles
Y
Z
Pos	ZEITR	conversion of synoptic data sets into equivalent time-series data
Pre	ZEITRIO	reading, formatting and writing of time series of different formats
Pre	ZWISCHENPUNKTE	generated topographical information

back to BAW-Software Documentation

Overview

@@ Line 13: / Line 13: @@
 |- bgcolor="#d3d3d3"
 ! colspan="3" | explanation of colour codes
-|- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
-| colspan="2" width="95%" valign="top" |
-'''preparation and analysis of measured data'''<br />''responsible''<nowiki>: </nowiki>[mailto:benjamin.fricke@baw.de B. Fricke] and [mailto:peter.schade@baw.de P. Schade]
 |- valign="top"
 | width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | colspan="2" width="95%" valign="top" |
-'''preprocessing for numerical methods'''<br />''responsible''<nowiki>: </nowiki>[mailto:jens.juerges@baw.de J. Jürges] and [mailto:guntram.seiss@baw.de G. Seiß]
+'''processing of measured data, preprocessing'''<br />''responsible''<nowiki>: </nowiki>P. Schade and G. Seiß ([mailto:pre.proghome@baw.de Working group PRE])
 |- valign="top"
 | width="5%" bgcolor="#0000ff" valign="top" | <font color="rgb(255, 255, 0)">Sim</font>
 | colspan="2" width="95%" valign="top" |
-'''numerical simulation'''<br />''responsible''<nowiki>: </nowiki>[mailto:anton.rosenhagen@baw.de A. Rosenhagen], [mailto:elisabeth.rudolph@baw.de E. Rudolph], [mailto:aissa.sehili@baw.de A. Sehili] and [mailto:holger.weilbeer@baw.de H. Weilbeer]
+'''numerical simulation'''<br />''responsible''<nowiki>: </nowiki>B. Fricke, A. Sehili and H. Weilbeer ([mailto:sim.proghome@baw.de Working group SIM])
 |- valign="top"
 | width="5%" bgcolor="#ffa500" valign="top" | <font color="rgb(0, 0, 0)">Pos</font>
 | colspan="2" width="95%" valign="top" |
-'''postprocessing for numerical models and data analysis'''<br />''responsible''<nowiki>: </nowiki>[mailto:guenther.lang@baw.de G. Lang], [mailto:susanne.spohr@baw.de S. Spohr], [mailto:marie.naulin@baw.de M. Naulin] and [mailto:anna.zorndt@baw.de A. Zorndt]
+'''postprocessing for numerical models and data analysis'''<br />''responsible''<nowiki>: </nowiki>J. Jürges, A. Rosenhagen and S. Spohr ([mailto:pos.proghome@baw.de Working group POS])
 |- valign="top"
 | width="5%" bgcolor="#ffff00" valign="top" | <font color="rgb(0, 0, 0)">Son</font>
@@ Line 44: / Line 40: @@
 | width="75%" valign="top" | analysis of data stored in direct access data files (BDF)
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[ADCP2BDF]]
 | width="75%" valign="top" | conversion of ADCP workhorse data to BDF data format
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[ADCP2PROFILE]]
@@ Line 105: / Line 101: @@
 | width="75%" valign="top" | Conversion of Delft3D computational grid as well as computational results
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[DATAUS]]
@@ Line 150: / Line 146: @@
 | width="75%" valign="top" | tabular representation of spatially and temporally aggregated fluxes
 |- valign="top"
-| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
+| width="5%" bgcolor="#ffa500" valign="top" | <font color="rgb(0, 0, 0)">Pos</font>
 | width="20%" valign="top" |
 [[DISPLAY_PERCENTILES|display_percentiles]]
@@ Line 172: / Line 168: @@
 | width="75%" valign="top" | calculation of synoptical quantities (e.g. energy flux) by using data results of numerical models
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[EVENTFILTER]]
 | width="75%" valign="top" | filter of high and low water events and evaluation of their mean values
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[EXCELENZ]]
@@ Line 254: / Line 250: @@
 | width="75%" valign="top" | glues two meshes into a new finite difference grid
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[FFT]]
@@ Line 300: / Line 296: @@
 | width="75%" valign="top" |
 |- valign="top"
-| width="5%" bgcolor="#ffa500" valign="top" | <font color="rgb(0, 0, 0)">Pos</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[GRIDCONVERT]]
 | width="75%" valign="top" | Converts computational grids for different mathematical methods
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
-| rowspan="3" width="20%" valign="top" |
+| rowspan="2" width="20%" valign="top" |
 [[GVIEW2D]]
-| rowspan="3" width="75%" valign="top" | Graphical representation of time-dependent physical quantities at a given position (so called geo position)
+| rowspan="2" width="75%" valign="top" | Graphical visualization of time-dependent physical quantities at a given position (so called geo position)
-|- valign="bottom"
-| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 |- valign="bottom"
 | width="5%" bgcolor="#ffa500" valign="top" | <font color="rgb(0, 0, 0)">Pos</font>
@@ Line 396: / Line 390: @@
 ! colspan="3" | M
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[MEDIANGLAETTUNG]]
 | width="75%" valign="top" | smoothing of topographical information
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[MESKOR]]
@@ Line 492: / Line 486: @@
 | width="75%" valign="top" | Display (aggregated) profile data over time
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[POLYUMFORM]]
@@ Line 526: / Line 520: @@
 ! colspan="3" | R
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[ROSE]]
@@ Line 575: / Line 569: @@
 | width="75%" valign="top" | computation of the tidal characteristic numbers of salinity, suspended sediment concentration, tracer concentration and temperature
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[TDKTIE]]
@@ Line 595: / Line 589: @@
 | width="75%" valign="top" | two-dimensional finite element numerical model
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[TEO]]
 | width="75%" valign="top" | extraction of bearing data points from a KUEDAT bearing file
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[TEOAX]]
@@ Line 615: / Line 609: @@
 | width="75%" valign="top" | grid conversion into TRIGRID-format
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[TIDKEN]]
 | width="75%" valign="top" | computation of tidal characteristc numbers for individual time series
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[TIMESHIFT]]
@@ Line 815: / Line 809: @@
 ! colspan="3" | V
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[VOLUMETH]]
 | width="75%" valign="top" | calculation of area distribution and volume sum function of a region inside an FE mesh
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[VOLUMETHAUTO]]
@@ Line 873: / Line 867: @@
 | width="75%" valign="top" | reading, formatting and writing of time series of different formats
 |- valign="top"
-| width="5%" bgcolor="#00ff00" valign="top" | <font color="rgb(0, 0, 0)">Mes</font>
+| width="5%" bgcolor="#ff0000" valign="top" | <font color="rgb(0, 0, 0)">Pre</font>
 | width="20%" valign="top" |
 [[ZWISCHENPUNKTE]]

Program Descriptions: Difference between revisions

From BAWiki

Latest revision as of 16:16, 27 February 2023