DATACONVERT
From BAWiki
Basic Information
Name of Program
DATACONVERT
Version-Date
7.x / August 2010
Description-Date
August 2010
Catchwords
conversion of Delft3D computational grid
conversion of Delft3D computational results
conversion of (DWD) NetCDF data files
merge of (DWD) NetCDF data files in one NetCDF file
Short Description of Functionality
Program DATACONVERT is used to convert computational results and data:
- mode 1: conversion of computational results from the integrated modelling system Delft3D into BAW-specific data formats, with
- conversion of a Delft3D computational grid into UnTRIM grid format,
- conversion of two-dimensional (depth averaged) Delft3D computational results into BDF data format (2D),
- conversion and depth averaging of three-dimensional Delft3D computational results into BDF data format (2D), and
- conversion of three-dimensional Delft3D computational results (sigma-coordinates) into BDF data format (3D, z-layers).
Dynamic model bathymetry (morphodynamics) is supported for 2D as well as 3D computational results. If Delft3D model results have been produced for a domain decomposition run, the converted results are written to different domain-specific data files and are not yet combined into one single file.
Conversion of subsequent physical quantities is currently possible:
- water level,
- current velocity,
- salinity,
- temperature,
- suspended sediment (several fractions),
- bathymetry (static),
- transient bathymetric depth, and
- vertical erosion.
- mode 2: conversion of (DWD) NetCDF data files into BAW-specific data formats, with
- generation of a grid from data points defined in the NetCDF data file, and
- conversion of NetCDF data into BAWs BDF file format.
- mode 3: merge contents of several (DWD) NetCDF data files into a single NetCDF data file, with
- transfer of meta data as well as data for identical dates into a single NetCDF data file.
Input-Files
- steering data
- file of type dataconvert.dat. The extended description for this file contains comprehensive informations with respect to steering data, input as well as output data files.
- computational grid
- mode 1
- delft3d.grd,
- delft3d.dep, and
- delft3d.enc.
- (optional) delft3d.dry,
- (optional) delft3d.thd,
- (optional) delft3d.lwl,
- (optional) delft3d.ext, as well as
- (optional) delft3d.bnd.
- mode 2 - no grid file required
- mode 3 - no grid file required
- mode 1
- computational results or data
- mode 1
- mode 2
- mode 3
- (optional) vertical structure
- mode 1
- mode 2 - no vertical structure required
- mode 3 - no vertical structure required
Output-Files
- converted computational grid
- mode 1
- mode 2
- mode 3 - no grid generated
- converted computational results
- mode 1
- dirz.bin.r,
- dirz.bin.i, and
- dirz.bin.
- mode 2
- dirz.bin.r,
- dirz.bin.i, and
- dirz.bin.
- mode 3
- mode 1
- printer file
- dataconvert.sdr.
- (optional) trace file
- dataconvert.trc.
Methodology
The original computational grid is converted using methods from software package H_GRID. Conversion of computational results is performed using methods from the H_IP package. Read and Write of computational data is carried through using several methods from software package IO_DATASET.
Program(s) to run before this Program
Program(s) to run after this Program
ABDF, ADCP2PROFILE, DIDAMERGE, DIDARENAME, DIDASPLIT, ENERF, GVIEW2D, HVIEW2D, IO_VOLUME, PARTRACE, PARTRACE-3D, PGCALC, UNK, UNS, VTDK, XTRDATA, XTRLQ2, ZEITR.
Additional Information
Language
Fortran90
Additional software
-
Original Version
Maintenance
Documentation/Literature
for example input files please refer to $PROGHOME/examples/dataconvert/
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