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|name=DIDAMINTZ  
|name=DIDAMINTZ  
|version=2.x / January 2001  
|version=2.x / January 2001  
|version_descr=October 2001
|version_descr=September 2022
|catchwords=
|catchwords=
energetic data<br />
energetic data<br />
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# '''general input''' data file (filetype [[DIDAMINTZ.DAT|didamintz.dat]])
# '''general input''' data file (filetype [[DIDAMINTZ.DAT|didamintz.dat]])
# '''configuration file''' with definitions of possible physical quantities for depth integration (filetype [[DIDAMINTZ.CFG.DAT|didamintz.cfg.dat]])
# '''configuration file''' with definitions of possible physical quantities for depth integration (filetype [[DIDAMINTZ.CFG.DAT|didamintz.cfg.dat]])
# '''grid''' for 2D/3D-data (filetype [[GITTER05.DAT/BIN|gitter05.dat/bin]] or filetype [[UNTRIM_GRID.DAT|untrim_grid.dat]])
# '''grid''' for 2D/3D-data (filetype [[GITTER05.DAT and GITTER05.BIN|gitter05.dat/bin]] or filetype [[UNTRIM_GRID.DAT|untrim_grid.dat]])
#: '''or''' profile-topography for profile-data (filetype [[PROFIL05.BIN|profil05.bin]])
#: '''or''' profile-topography for profile-data (filetype [[PROFIL05.BIN|profil05.bin]])
#: '''or''' system file for specific locations (filetype [[LOCATION_GRID.DAT|location_grid.dat]])
#: '''or''' system file for specific locations (filetype [[LOCATION_GRID.DAT|location_grid.dat]])
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All output data 2D. If the input data is a vector, only the x- and y-components are kept.
All output data 2D. If the input data is a vector, only the x- and y-components are kept.
|preprocessor=
|preprocessor=
[[DIDARENAME]], [[DIDASPLIT]], [[ENERF]], [[PGCALC]], [[TELEMAC2D]], [[TR3DIDA]], [[TRIM-3D]]  (along profiles), [[UNTRIM]]
[[DIDARENAME]], [[DIDASPLIT]], [[ENERF]], [[PGCALC]], [[TELEMAC-2D]], [[TR3DIDA]], [[TRIM-3D]]  (along profiles), [[UNTRIM]]
|postprocessor=
|postprocessor=
[[ABDF]], [[DIDARENAME]], [[DIDASPLIT]], [[ENERF]], [[GVIEW2D]], [[HVIEW2D]], [[LQ2PRO]], [[ZEITR]]
[[ABDF]], [[DIDARENAME]], [[DIDASPLIT]], [[ENERF]], [[GVIEW2D]], [[HVIEW2D]], [[LQ2PRO]], [[ZEITR]]
|language=Fortran90
|language=Fortran90
|add_software= -  
|add_software= -  
|contact_original=[mailto:info.hamburg@baw.de A. Cords]
|contact_original=A. Cords
|contact_maintenance=[mailto:guenther.lang@baw.de G. Lang]
|contact_maintenance=[mailto:pos.proghome@baw.de Working group POS]
|documentation=please refer to $PROGHOME/examples/DidaMintZ/DidaMintZ.dat<br />
|documentation=please refer to $PROGHOME/examples/DidaMintZ/DidaMintZ.dat<br />
and also to $PROGHOME/cfg/DidaMintZ.cfg.dat
and also to $PROGHOME/cfg/DidaMintZ.cfg.dat
}}
}}

Latest revision as of 09:07, 6 September 2022

Basic Information

Name of Program

DIDAMINTZ

Version-Date

2.x / January 2001

Description-Date

September 2022

Catchwords

energetic data
calculation with synoptical data
potential energy density
kinetic energy density
universal direct access data format

Short Description of Functionality

The program DIDAMINTZ computes several derived data from synoptic data. Depth integrated or depth averaged quantities can be calculated from different physical input data.

Input-Files

  1. general input data file (filetype didamintz.dat)
  2. configuration file with definitions of possible physical quantities for depth integration (filetype didamintz.cfg.dat)
  3. grid for 2D/3D-data (filetype gitter05.dat/bin or filetype untrim_grid.dat)
    or profile-topography for profile-data (filetype profil05.bin)
    or system file for specific locations (filetype location_grid.dat)
  4. synoptic data with necessary physical quantities as input data (filetype dirz.bin.r, dirz.bin.i and dirz.bin)

Output-Files

  1. result data calculated by using the input data (filetype dirz.bin.r, dirz.bin.i and dirz.bin)
  2. informative printer file (filetype didamintz.sdr)
  3. (optional) trace of program execution (filetype didamintz.trc)

Methodology

This program is able to calculate depth integrated or averaged physical quantities out of synoptical results from numerical models.

To calculate depth averaged 2D-output quantities corresponding 3D-input data is needed. Only for special quantities a depth integration (2D or 3D) is permitted, since the integration changes the unit of a physical quantity. For instance the specific kinetic energy (kJ/m³) becomes the kinetic energy density (kJ/m²) through depth integration.

Physical quantities admitted for depth integration are defined in the configuration file (didamintz.cfg.dat).

All output data 2D. If the input data is a vector, only the x- and y-components are kept.

Program(s) to run before this Program

DIDARENAME, DIDASPLIT, ENERF, PGCALC, TELEMAC-2D, TR3DIDA, TRIM-3D (along profiles), UNTRIM

Program(s) to run after this Program

ABDF, DIDARENAME, DIDASPLIT, ENERF, GVIEW2D, HVIEW2D, LQ2PRO, ZEITR

Additional Information

Language

Fortran90

Additional software

-

Original Version

A. Cords

Maintenance

Working group POS

Documentation/Literature

please refer to $PROGHOME/examples/DidaMintZ/DidaMintZ.dat
and also to $PROGHOME/cfg/DidaMintZ.cfg.dat


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