From: Jacques Fontaine Date: Wed, 14 Jun 2017 14:12:10 +0000 (+0200) Subject: Update translation for new EFICAS sections. X-Git-Tag: Salome_8_3_Hydro_1_1rc1~11 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=5acf84d5c519bafa07cd423610795e2341a9c6fc;p=modules%2Fhydro.git Update translation for new EFICAS sections. --- diff --git a/doc/salome/tutorial/english/english_lancementCalcul.rst b/doc/salome/tutorial/english/english_lancementCalcul.rst index 67820625..a7a1809b 100644 --- a/doc/salome/tutorial/english/english_lancementCalcul.rst +++ b/doc/salome/tutorial/english/english_lancementCalcul.rst @@ -17,7 +17,7 @@ along with SALOME HYDRO module. If not, see . ######################################### -Launch of the TELEMAC simulation case +Lancement du calcul TELEMAC ######################################### .. |HYDROSolver| image:: /../_static/HYDROSolver.png @@ -63,8 +63,25 @@ Launch of the TELEMAC simulation case .. |CasPytelFinCalcul| image:: /../_static/CasPytelFinCalcul.png :align: middle +.. |eficas_05| image:: /../_static/eficas_05.png + :align: middle + +.. |eficas_06| image:: /../_static/eficas_06.png + :align: middle + +.. |eficas_07| image:: /../_static/eficas_07.png + :align: middle + +.. |eficas_08| image:: /../_static/eficas_08.png + :align: middle -The HYDROSolver module must now be activated via the module scrolling list or with the |HYDROSolver| icon in the ribbon. +.. |eficas_09| image:: /../_static/eficas_09.png + :align: middle + +.. |eficas_10| image:: /../_static/eficas_10.png + :align: middle + +The HYDROSolver module must now be activated via the module scrolling list or with the |HYDROSolver| icon in the ribbon. This module is responsible for the Telemac and Mascaret numerical modelling and their couplings. Creating the PYTEL Calculation Case @@ -75,76 +92,36 @@ A Pytel Calculation case is created with the command Create case for Pytel execu in the hydro menu or in a ribbon icon. * **Note**: The ribbon icons for the module currently in use (at the top right) are not necessarily visible: - the pop-up menu (right click) in the ribbon shows the groups of icons displayed and those that are not and allows them to be managed. - -A new window appears in the main view: the *Eficas Pytel* Viewer. Its ribbon contains the commands for creating, opening, saving -and editing Pytel calculation cases. - - |CreateCasePytel| - -It is necessary to redefine the main files of interest to the case here, which means retrieving and completing elements defined -in the previous step, so there will be a few repetitions. - -A new Pytel case is created with the *New* command in the *Eficas Pytel* Viewer ribbon. In the new view pane, select the *PYTEL* command -in the central panel. - - |SelectCommandPytel| - -The left hand panel displays the case tree, the structure of which appears progressively as the case is built: -the red entries are invalid, the green are valid and the yellow are incomplete. The red status indicator of an invalid entry -is applied recursively to all items in the corresponding hierarchy up to the root. -All terminal (leaf) nodes displayed in red or yellow have to be corrected or completed in order to create a valid case. - -The central panel indicates the available list of optional commands. - - |CasPytel| - -Select the REPERTOIRE_TRAVAIL (*Working directory*) Keyword option. - -This directory will contain the intermediate files that are relevant to the calculation. -The name of an *existing directory, other than the directory containing the original files*, must be entered and validated. -You can, for example, create a subdirectory *work* in the case data directory. - -The directory appears in the tree with a green status indicator. - - |CasPytelRepTravail| - -Next, select the compulsory Case File command (*FICHIER_CAS*), showing a red status in the tree, then find the existing file and validate. - - |CasPytelFichierCas| - -The status command in the tree turns green. - -Now click on Pytel in the tree to see the *MED input* and *MED output* optional commands and select the former: *ENTREE_MED*. + the pop-up menu (right click) in the ribbon shows the groups of icons displayed and those that are not and allows them to be managed. -The command appears in the tree, in yellow, indicating that it is incomplete. + |eficas_05| - |CasPytelEntreeMedIncomplete| + |eficas_06| -The two rubrics in red have to be completed with the names of the boundary conditions files and the mesh file containing the altitude field. +Use the file previously created with EFICAS. -The same has to be done for the output file, *SORTIE_MED*. Here, a non-existent file name can be given. + |eficas_07| -Once everything is complete and valid, save the case with the *Save* button in the Eficas window. +Save PYTEL case. - |CasPytelSave| + |eficas_08| -The case now appears in the study tree. +The case appears in the study tree. |CasPytelArbre| Launching the PYTEL Calculation Case ==================================== -The *Compute Case* command of the Case menu is used to launch the Telemac simulation. +The *Compute Case* command of the Case menu is used to launch the Telemac simulation - |CasPytelComputeCase| + |eficas_09| -While the calculation is running, an onscreen listing of the computation (log file) is displayed in a window. +While the calculation is running, an onscreen listing of the computation (log file) is displayed in a window. - |CasPytelCalcul| + |eficas_10| -The window can be closed at the end of the computation. +The window can be closed at the end of the computation. |CasPytelFinCalcul|   diff --git a/doc/salome/tutorial/english/english_miseEnDonneesTelemac.rst b/doc/salome/tutorial/english/english_miseEnDonneesTelemac.rst index 8aa99ffd..0b457d53 100644 --- a/doc/salome/tutorial/english/english_miseEnDonneesTelemac.rst +++ b/doc/salome/tutorial/english/english_miseEnDonneesTelemac.rst @@ -17,53 +17,90 @@ along with SALOME HYDRO module. If not, see . ######################################### -TELEMAC data entry +TELEMAC setup ######################################### +.. |HYDROSolver| image:: /../_static/HYDROSolver.png + :align: middle + :width: 16pt + :height: 16pt + +.. |eficas_04| image:: /../_static/eficas_04.png + :align: middle + :width: 16pt + :height: 16pt + .. |genereCondlim| image:: /../_static/genereCondlim.png :align: middle -Once the mesh is generated with the altimetry data, it remains to define the nature of the boundary condition regions, -the values of the flow rate and water depth boundary conditions over time and all the physical and numerical model parameters. -The Telemac manual should be consulted for the parameter definitions. +.. |eficas_01| image:: /../_static/eficas_01.png + :align: middle + +.. |eficas_02| image:: /../_static/eficas_02.png + :align: middle + +.. |eficas_03| image:: /../_static/eficas_03.png + :align: middle + +.. |eficas_20| image:: /../_static/eficas_20.png + :align: middle + +.. |eficas_21| image:: /../_static/eficas_21.png + :align: middle + +.. |eficas_22| image:: /../_static/eficas_22.png + :align: middle + +.. |eficas_23| image:: /../_static/eficas_23.png + :align: middle + +Once the mesh is generated with the altimetry data, it remains to define the nature of the boundary condition regions, +the values of the flow rate and water depth boundary conditions over time and all the physical and numerical model parameters. +The TELEMAC manual should be consulted for the parameter definitions. This information is compiled in several text files (ASCII) that are now going to be generated or manually edited. **The abovementioned files will be stored in the same directory as the mesh.** +You must activate the HYDROSOLVER module, through the scrolling list of imodules, or its icon in the banner: |HYDROSolver|. +The HYDROSOLVER module supports physico-numerical data setup and calculations for codes +TELEMAC and MASCARET and their couplings. + Characterization of boundary regions ==================================== -The boundary condition regions were defined in the previous steps and are incorporated by named groups of mesh elements. +The boundary condition regions were defined in the previous +steps and are incorporated by named groups of mesh elements. The *condlim.bcd* file associates specific types of boundary condition (inlet, outlet, wall, etc.) to each group. -Four integer values define a boundary condition type. +Four integer values define a boundary condition type. -The first line indicates the number of boundary conditions defined and is followed by four lines: -one per boundary condition. Each line contains four integers (the type) as well as the name of the group. +The first line indicates the number of boundary conditions defined and is followed by four lines: +one per boundary condition. Each line contains four integers (the type) as well as the name of the group. -Nous pouvons générer le fichier à partir de la commande *Edit boundary conditions file* du module *HYDROSOLVER*. +This file caan be created with de command *Edit boundary conditions file* from *HYDROSOLVER* module. -Il faut définir en entrée le chemin du fichier MED utilisé, et en sortie, le chemind du fichier des zones de conditions limites. -L'entree *Boundary condition file* ne sert que pour lire un fichier existant. +The path of the MED file used must be defined as input, and the file path of the boundary condition fields as output. +The *Boundary condition file* entry is used only to read/edit an existing file. -Il faut sélectionner le type de condition limite sur les zones amont, aval, bord gauche et droit, et ne rien mettre sur les autres groupes. +You must select the boundary condition type on the upstream, downstream, left and right bank, +and do not put anything on the other groups. |genereCondlim| - + The result file looks like this: .. literalinclude:: ../condlim.bcd :lines: 1- * **Note**: It is no longer necessary to create the .cli file specified in the Telemac manual, - which lists all the boundary condition nodes with the types associated. This file is automatically generated. + which lists all the boundary condition nodes with the types associated. This file is automatically generated. Values of the discharge and water elevation boundary conditions =============================================================== -The *init.lqd* file contains the values of the flow rate and water depth boundary conditions over time. -Reference should be made to the Telemac manual for more precise details on the file definition. +The *init.lqd* file contains the values of the flow rate and water depth boundary conditions over time. +Reference should be made to the Telemac manual for more precise details on the file definition. .. literalinclude:: ../init.lqd :lines: 1- @@ -73,15 +110,117 @@ Physical and numerical parameters of the simulation The *init.cas* file lists the other files, which must be in the same directory. It then gives the different physical and numerical parameters required for the simulation (calculation case). -As mentioned before, the Telemac manual should be consulted for the definition of these parameters. +As mentioned before, the Telemac manual should be consulted for the definition of these parameters. * **Note**: for version 1.0 (March 2016), the presence of a Fortran file is compulsory, even if it only contains one comment line - (it is necessary to force the recompilation of the TELEMAC executable). In the init.cas file, - the comment in front of the FORTRAN FILE keyword must be deleted and the corresponding file created. + (it is necessary to force the recompilation of the TELEMAC executable). In the init.cas file, + the comment in front of the FORTRAN FILE keyword must be deleted and the corresponding file created. .. literalinclude:: ../init.cas :lines: 1- -  + +Steering file setup through EFICAS +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +There are 2 methods to perform this, with the module *HYDROSOLVER*: + +* **with the menus:** in HYDRO menu, click on *Edit cas file* + + |eficas_01| + +* **with the icons:** When the Hydrosolver module is activated, new buttons appear in the toolbar. + Right click on Edit case file + + |eficas_02| + +Click New to create a case file. + + |eficas_03| + +Complete all red items. When a sub-heading or heading is complete it changes to green. +Some green items are setup with the default value but the user can overwrite them. +Save (regularly) the created case. To do this, go to *File/Save* or *Save as* +or click on the icon |eficas_04|. +The file will be saved as *.comm* or *.jdc*. + +How EFICAS works? +~~~~~~~~~~~~~~~~~ + +In thecentral interface, at the level of the heading, in the right-hand section entitled Settings *NOM DE RUBRIQUE*, +optional keywords appear and can be added to the corresponding sub-heading, +by double-clicking the square box in front of the keyword. + +**Example:** To add the keyword *Control_section* in *Output_Files*. Double-click on the right: + + |eficas_20| + +It appears in the *Output_Files* sub-section. In the central screen, other keywords appears in the right part under the title +*Control_Section*. I can add them in the same way. + + |eficas_21| + +It is also possible to have the help of the keyword. To do this, simply move the mouse over the keyword and the help appears: + +|eficas_22| + +If you click on the keyword with the mouse the help appears at the bottom left: + + |eficas_23| + +**Parameters by section and sub-section** + +In *Computation_Environment*, by default, we find: + + * *Initialization*: concerns input data files such as the geometry file and the boundary conditions file. + To take the title into account, type the desired name and enter. + + * *Restart*: to restart from a previous computation. + + * *Output_files*: result files, listing and their options. + +In *Hydro*, by default, we find: + + * *Boundary_Conditions*: boundary condition files + (files for liquid boundaries, stage-discharge curves, prescribed elevation or flowrate…) + + * *Physical_Parameters_Hydro*: Physical parameters for hydrodynamics. Waves, meteo, source terms… + + * *Numerical_Parameters_Hydro*: Numerical parameters for hydrodynamics, linear system options. + +In *General_Parameters*, by default, we find: + + * *Debugger*: debugger mode or not. + + * *Time*: time step, duration… + + * *Location*: coordinates origin… + +In *Numerical_Parameters*, by default, we find: + + * *Solver_Info*: solver setup + + * *Discretizations_Implicitation*: implicitation for depth, velocity, space discretization… + + * *Propagation_Info* + + * *Advection_Info*: mass lumping, free surface gradient compatibility… + + * *Diffusion*: velocity diffusion, option for velocity diffusion… + + * *Automatic_Differentiation* + + * *Advanced*: matrix storage, matrix-vector product… + +**Developement in progress** + +In the end, the user can choose from pre-filled "template case files". These include: + + * A flood model case file, + + * A maritime model case file, + + * A thermal case model file. + .. only:: html   :ref:`ref_exempleInondation`