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|name_de=DAVIT
|name_de=DAVIT
|name=DAVIT
|name=DAVIT
|version=2.16
|version=2.27
|version_descr=January 2017
|version_descr=September 2022
|catchwords=model results<br />
|catchwords=model results<br />
visualisation<br />
visualisation<br />
data exploration<br />
data exploration<br />
data analysis<br />
data analysis<br />
UGRID CF NetCDF
UGRID CF NetCDF<br>
Acknowledgment: ''This project took advantage of netCDF software developed by UCAR/Unidata ([http://www.unidata.ucar.edu/software/netcdf/ www.unidata.ucar.edu/software/netcdf/]).''
DMQS metadata for Datenfinder-BAW<br>
content of BAW steering files<BR>
md5 checksum<BR>
Acknowledgment: ''This project took advantage of netCDF software developed by UCAR/Unidata ([http://www.unidata.ucar.edu/software/netcdf/ www.unidata.ucar.edu/software/netcdf/]).''
|shortdescription=Davit is an interactive tool for visualisation and exploration of results of hydronumerical models. Analysis of grids and results is possible as well. 2D and 3D data can be displayed.  <BR>
|shortdescription=Davit is an interactive tool for visualisation and exploration of results of hydronumerical models. Analysis of grids and results is possible as well. 2D and 3D data can be displayed.  <BR>
A sophisticated GUI enables intuitive use of Davit, see picture.
A sophisticated GUI enables intuitive use of Davit, see picture.
[[File:Davit_gui.png]]
[[File:Davit_gui.png]] <br>
It has been developed by [http://www.smileconsult.de/ smile consult GmbH], Hannover (Germany).  
It has been developed by [http://www.smileconsult.de/ smile consult GmbH], Hannover (Germany).  
|inputfiles=
|inputfiles=
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# Marina Randwerte Datei (.baw)
# Marina Randwerte Datei (.baw)
# Microstation (.dgn)
# Microstation (.dgn)
# NetCDF-Raster-Format (Postprocessing) (.nc)  '''(since Sep. 2019)'''
# [[TECPLOT|Tecplot]] ASCII format (.plt)
# [[TECPLOT|Tecplot]] ASCII format (.plt)
# [[SELAFIN|TELEMAC mesh or results]](.bin, .sel, .res)
# [[SELAFIN|TELEMAC mesh or results]](.bin, .sel, .res)
# [[GITTER05.DAT and GITTER05.BIN|TICAD ASCII file]] (.dat)
# [[GITTER05.DAT and GITTER05.BIN|TICAD ASCII file]] (.dat)
# Smilesoftware binary format (.sbf)
# TICAD syserg.bin (.bin)
# TICAD syserg.bin (.bin)
# UGRID [[NetCDF|NetCDF]] format for bathymetries (.nc)
# UGRID [[NetCDF|NetCDF]] format for bathymetries (.nc)
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# UnTRIM result, Big_Endian (.dat, .grd)
# UnTRIM result, Big_Endian (.dat, .grd)
# UnTRIM result, Little_Endian (.dat, .grd)
# UnTRIM result, Little_Endian (.dat, .grd)
# XDMF-/HDF5-Format (.xmf) '''(since Sep. 2019)'''
|outputfiles=
|outputfiles=
# ASCII format for point data, at the BAW [[GEOM.DAT|geom.dat]] (.xyz, .dat)
# ASCII format for point data, at the BAW [[GEOM.DAT|geom.dat]] (.xyz, .dat)
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# BSquat Format (.xml)
# BSquat Format (.xml)
# ESRI shape file (.shp)
# ESRI shape file (.shp)
# [[GITTER05.DAT and GITTER05.BIN|TICAD ASCII file]] (.dat)
# [[INSEL.DAT|insel.dat]] for structures (.dat)
# [[INSEL.DAT|insel.dat]] for structures (.dat)
# Janet binary format (.bin, .jbf)
# Janet binary format (.bin, .jbf)
# Keyhole Markup Language Format (.kml)
# Keyhole Markup Language Format (.kml)
# [[SELAFIN|TELEMAC mesh or results]](.bin, .sel, .res)
# [[SELAFIN|TELEMAC mesh or results]](.bin, .sel, .res)
# [[GITTER05.DAT and GITTER05.BIN|TICAD ASCII file]] (.dat)
# Smilesoftware binary format (.sbf)
# UGRID [[NetCDF|NetCDF]] format for bathymetries (.nc)
# UGRID [[NetCDF|NetCDF]] format for bathymetries (.nc)
# [[UNTRIM_GRID.DAT|UnTRIM_Grid_VC]] ASCII format (.dat, .grd)
# [[UNTRIM_GRID.DAT|UnTRIM_Grid_VC]] ASCII format (.dat, .grd)
# DMQS metadata in XML format
# XDMF-/HDF5-Format (.xmf) '''(since Sep. 2019)'''
# DMQS metadata as PDF
# metadata in XML format
# skripts for editing and moving DMQS files
# metadata as PDF
# log files for metadata generation (.log)
|methodology=
|methodology=
The functionality is based on a set of Java libraries, which are also used in the grid generator [[JANET|Janet]] and the digital terrain modeling tool Gismo.<BR>
The functionality is based on a set of Java libraries, which are also used in the grid generator [[JANET|Janet]] and the digital terrain modeling tool Gismo.<BR>
The output of DMQS metadata can be activated in DAVIT's screenshot menue. In active mode for each png file a DMQS XML describing the PNG and a DMQS XML describing the underlying NetCDF file is generated. How to generate the DMQS files can be found in these guidelines.
<BR>
|preprocessor=[[DATACONVERT]], [[GRIDCONVERT]], [[NCAGGREGATE]], [[NCANALYSE]], [[NCDELTA]], [[UNK]], [[UNTRIM2007]], [[UNTRIM2]], [[GRIDCONVERT]]
New features in version 2.27.0:
|postprocessor=[[GRIDCONVERT]]
* Improvements in data management of simulation results: Automated workflow for archiving data and metadate in a portal
* Timeseries icon with different temporal zooms
* High resolution land water borderline based upon subedges
 
|preprocessor=[[DATACONVERT]], [[GRIDCONVERT]], [[NCAGGREGATE]], [[NCANALYSE]], [[NCCUTOUT]], [[NCDELTA]], [[NCDVAR]], [[NCMERGE]], [[UNK]], [[UNTRIM2007]], [[UNTRIM2]]
|postprocessor=[[GRIDCONVERT]], ParaView, InGrid
|language=Java
|language=Java
|add_software=Java Runtime Environment  
|add_software=Java Runtime Environment  
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* open the command line window, e.g. via Total Commander -> commands -> command line window
* open the command line window, e.g. via Total Commander -> commands -> command line window
* include %PROGHOME%\bin\win into your PATH variable
* include %PROGHOME%\bin\win into your PATH variable
* davit_gei [mmm] for importing BDF files; mmm standing for the allocated memory in MegaByte. Maximum for Windows is 1200 MB.
* davit_gei [mmm] for importing BDF files; mmm standing for the allocated memory in MegaByte. Maximum for Windows is 1150 MB.
* davit [mmm] for importing non-BDF files; mmm standing for the allocated memory in MegaByte. Maximum depends from the used hardware.
* davit [mmm] for importing non-BDF files; mmm standing for the allocated memory in MegaByte. Maximum depends on the used hardware.
|contact_original=[http://www.smileconsult.de/ smile consult GmbH]
|contact_original=[http://www.smileconsult.de/ smile consult GmbH]
|contact_maintenance=[mailto:peter.schade@baw.de P.Schade],[mailto:morten.kloepper@baw.de M.Klöpper], forwarding feedback to smile consult.
|contact_maintenance=[mailto:pre.proghome@baw.de Working group PRE], forwarding feedback to smile consult.
|documentation=The DAVIT versions are documented on BAW's file system in $PROGHOME\java\janet''k_mm_nn''\docs\ with k, mm and nn representing the version numbers. <BR>
|documentation=
A function reference can be found under \\themis\system\akprog\java\janet2_15_10\docs\function_reference\funktionsreferenz.pdf.<br />
* The release notes are stored on BAW's file system in $PROGHOME\java\janet''k_mm_nn''\docs\ with k, mm and nn representing the version numbers. <BR>
* recent smile consult release notes see: %PROGHOME%\java\janet2_27_0\docs\version_info
* function reference: %PROGHOME%\java\janet2_25_0\docs\function_reference\funktionsreferenz.pdf.
* examples: %PROGHOME%\examples\davit
* [http://blog.smileconsult.de smile consult blog]
}}
}}

Latest revision as of 13:44, 6 June 2023

Basic Information

Name of Program

DAVIT

Version-Date

2.27

Description-Date

September 2022

Catchwords

model results
visualisation
data exploration
data analysis
UGRID CF NetCDF
DMQS metadata for Datenfinder-BAW
content of BAW steering files
md5 checksum
Acknowledgment: This project took advantage of netCDF software developed by UCAR/Unidata (www.unidata.ucar.edu/software/netcdf/).

Short Description of Functionality

Davit is an interactive tool for visualisation and exploration of results of hydronumerical models. Analysis of grids and results is possible as well. 2D and 3D data can be displayed.
A sophisticated GUI enables intuitive use of Davit, see picture. Davit gui.png
It has been developed by smile consult GmbH, Hannover (Germany).

Input-Files

  1. ASCII format for point data, at the BAW geom.dat (.xyz, .dat)
  2. AVS/Express UCD format (.inp)
  3. Basement result (.bmc)
  4. Bathymetric Attribute Grid Format (.bag)
  5. BDF, Little Endian (.bin, .bdf)
  6. Bottom Friction Model (.gen)
  7. Current3DErg format (.bin)
  8. DFlowFM NetCDF (.nc)
  9. ESRI ASCII grid format (.asc, .dat, .grd, .txt)
  10. ESRI shape file (.shp)
  11. HydroAs2D results (.2dm)
  12. insel.dat for structures (.dat)
  13. Janet binary format (.bin, .jbf)
  14. Keyhole Markup Language Format (.kml)
  15. Marina Randwerte Datei (.baw)
  16. Microstation (.dgn)
  17. NetCDF-Raster-Format (Postprocessing) (.nc) (since Sep. 2019)
  18. Tecplot ASCII format (.plt)
  19. TELEMAC mesh or results(.bin, .sel, .res)
  20. TICAD ASCII file (.dat)
  21. Smilesoftware binary format (.sbf)
  22. TICAD syserg.bin (.bin)
  23. UGRID NetCDF format for bathymetries (.nc)
  24. UGRID NetCDF format post-processing (.nc)
  25. UnTRIM_Grid_VC ASCII format (.dat, .grd)
  26. UnTRIM result, Big_Endian (.dat, .grd)
  27. UnTRIM result, Little_Endian (.dat, .grd)
  28. XDMF-/HDF5-Format (.xmf) (since Sep. 2019)

Output-Files

  1. ASCII format for point data, at the BAW geom.dat (.xyz, .dat)
  2. Bathymetric Attribute Grid Format (.bag)
  3. BSquat Format (.xml)
  4. ESRI shape file (.shp)
  5. TICAD ASCII file (.dat)
  6. insel.dat for structures (.dat)
  7. Janet binary format (.bin, .jbf)
  8. Keyhole Markup Language Format (.kml)
  9. TELEMAC mesh or results(.bin, .sel, .res)
  10. Smilesoftware binary format (.sbf)
  11. UGRID NetCDF format for bathymetries (.nc)
  12. UnTRIM_Grid_VC ASCII format (.dat, .grd)
  13. XDMF-/HDF5-Format (.xmf) (since Sep. 2019)
  14. metadata in XML format
  15. metadata as PDF
  16. log files for metadata generation (.log)

Methodology

The functionality is based on a set of Java libraries, which are also used in the grid generator Janet and the digital terrain modeling tool Gismo.

New features in version 2.27.0:

  • Improvements in data management of simulation results: Automated workflow for archiving data and metadate in a portal
  • Timeseries icon with different temporal zooms
  • High resolution land water borderline based upon subedges

Program(s) to run before this Program

DATACONVERT, GRIDCONVERT, NCAGGREGATE, NCANALYSE, NCCUTOUT, NCDELTA, NCDVAR, NCMERGE, UNK, UNTRIM2007, UNTRIM2

Program(s) to run after this Program

GRIDCONVERT, ParaView, InGrid

Additional Information

Language

Java

Additional software

Java Runtime Environment

Executables

On Linux-Workstations start DAVIT in the command line window:

  • davit [mmm]; mmm standing for the allocated memory in MegaByte.

On Windows PCs:

  • open the command line window, e.g. via Total Commander -> commands -> command line window
  • include %PROGHOME%\bin\win into your PATH variable
  • davit_gei [mmm] for importing BDF files; mmm standing for the allocated memory in MegaByte. Maximum for Windows is 1150 MB.
  • davit [mmm] for importing non-BDF files; mmm standing for the allocated memory in MegaByte. Maximum depends on the used hardware.

Original Version

smile consult GmbH

Maintenance

Working group PRE, forwarding feedback to smile consult.

Documentation/Literature

  • The release notes are stored on BAW's file system in $PROGHOME\java\janetk_mm_nn\docs\ with k, mm and nn representing the version numbers.
  • recent smile consult release notes see: %PROGHOME%\java\janet2_27_0\docs\version_info
  • function reference: %PROGHOME%\java\janet2_25_0\docs\function_reference\funktionsreferenz.pdf.
  • examples: %PROGHOME%\examples\davit
  • smile consult blog

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Overview