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1. 5 13 Figure 5 14 Field Color Map Selection Menu Get Color option in the upper right portion of the window When Get Color is selected the current color will change to the color of the material or isosurface box clicked upon This is useful for copying colors from one place to another Changing material or isosurface colors The right side of the Color Edit submenu is lined with material and isosurface color boxes The color of a particular material or isosurface box is the color that the material or isosurface will appear in in the main viewer There is also one color box at the bottom of the list of isosurface colors labeled Anim This is the color used for isosurface animation To change a material or isosurface color first change the current color to the desired one Next click on Set Color in the upper right part of the menu When Set Color is selected any material or isosurface box you Click on will change to the current color Therefore any material or isosurface color may be reassigned At the bottom right of the Color Edit menu is a button to change the color of an isovolume This button works as described above choose a color then click in the Volume button to set the color of the isovolume to the selected color Reinstating default colors If you want to reset the GMV default colors use the Set Default option When this option is highlighted clicking on a material or isosurface box will return that bo
2. followed by on or off Sets the distance scale on off windowwidth followed by a positive integer Sets the window width windowheight followed by a positive integer Sets the window height textureflag followed by on or off Sets texture smoothing on off attributes followed by a gmv attributes file filename Specifies an attributes file to read for initial image end_gmvrc indicates the end of the gmvrc file required These keywords all have functional interactive counterparts that are available via menus and should be recognizable Note that gmvrc and end_gmvvrc are the only required keywords all others are optional If GMV encounters the attributes keyword and the file does not exist then it is ignored Fully qualified attributes filename must be specified if the attributes file is not in the current directory Placement of the attributes keyword in gmvrc is important attributes will override previous options while subsequent gmvrc options will override attributes The best way to create a gmvrc file is to have GMV generate one for you with the Save gmvrc option in the Files menu A gmvrc file will be generated with the options set to those used by the current image Sample gmvrc file gmvrc azim 120 000000 elev 20 500000 twist 0 000000 mag 1 000000 nodes off nodenumbers off ee o cellfaces off celledges off cellnumbers off polygons on polygonlines off axis off time off cycle off linesize 1 l
3. Node Select Node Group menu appears Use the left mouse button to select groups Click on the left mouse button to select a single group hold the left mouse button down and drag the mouse to select a block of groups The shift key can also be used to select a block of groups The Ctrl key and the left mouse button can be used in combination to toggle a group on off Toggle the Inside and Outside buttons to select nodes in those groups Activating node selection Be sure to click the Select On toggle button in the Node Select menu or on the specific selection menu Then click on the Apply button to start the selection process ee 3s Cells Cells are three dimensional fixed shapes in space such as cubes pyramids or prisms Cells are defined by the nodes at their vertices in the input file Viewing cell faces edges and numbers Choosing the Cells option under the Display menu brings up the Cells menu Fig 3 10 Here you may choose which aspects of the cells you wish to view The Faces option displays the face of the cells as an interpolated blended color polygon where the colors are based on the selected cell or node field If the cell face is colored by a node field the Contours option under Faces displays contour lines on the faces The contour lines are drawn at the intervals shown on the cells Color Bar The Shaded option under Faces turns on the lighting model and shades the faces The Ref
4. data contained within some subset For the Clip on Field Subset option the subset is defined by the Subset function The Subset function is found in the Controls 2 menu This function is explained later on in this text For the Clip on Cell Selection option the subset is defined by the Boolean expression created using the Select option in the Cells menu lsosurfaces will then only be drawn from node data found in the selected cells GMV only checks the status of these two buttons when an isosurface is created Therefore any changes made with these two options will not take effect until a new isosurface is calculated Coloring isosurfaces with field values The isosurfaces can be colored with the blue to red intensity color of node field values All the isosurfaces for a specific type material isosurfaces or field isosurfaces are colored according to the Close tclip on Field Subset j _jClip on Cell Selection Field pressure Hin Hax 609 593994 Hew Field Isovolume Range to Ada Del on __jColor Surface with Hode Field Field pressure Hew Field Figure 4 13 Isovolume menu selected field values To color the isosurfaces with field values first select a field with the New Field button then click on the Color Surface with Node Field button lsovolume The Isovolume option of the Calculate menu allows the creation of isovolumes the d
5. under the F designation Then click 304 797 on the Apply button to generate the 310 65831 averages The averages will be 310 87264 displayed in the scrolling list under the 286 46574 Apply button 315 42923 208 52552 Cutlines 299 97 The Cutlines function in the Calculate menu allows up to twenty cutlines to be generated A cutline is the centerline of a cylinder with a user defined radius The field value of any node that lies within the cylinder is projected onto the cutline and displayed as a blue to red color coded line Figure 4 1 Average menu Selecting a cutline Choose the Cutlines option from the Calculate main menu bar and a menu similar to Fig 4 2 will appear The numbers are the cutline number and NONE indicates that the cutline has not been generated A field name indicates that a cutline has been generated for that field Select one of the cutlines and a menu similar to Fig Clos e Write to Filef 4 3 will appear Select Cutline Creating a cutline A cutline can be created in one of five methods The line can be defined by entering the x y and z values of the two endpoints of the line These can be entered on the two rows of boxes identified as P1 and P2 A second method is to use the 1 Point option Click on the 1 Point box then move the cursor to the main viewer A crosshair cursor will appear place the cursor on a point on the screen and Ji Point J2 Polpbs
6. 0 material number will have the text color as a material color Vectors Choose the Vectors button to build and draw vectors To turn on the vectors click on the button A submenu will appear The menu contains a toggle button to toggle the vectors on and off When this button is selected each node s vector data will be displayed according to the current X Y and Z components of the vector Click Apply on the Nodes menu to activate vectors The vector is colored by the Color By selection with a tall pyramid as the arrow head The base of the arrow head is drawn in the text color to help determine direction There is also the Build Vector option Click here and a submenu ee o Figure 3 4 Node Select submenu similar to Fig 3 3 will appear With this option you can tailor the X Y and or Z components of the vectors to any field default is the velocity data U V and W To change a vector component click the New Field button under the vector component to change The Node Field Selection menu is then displayed see Fig 3 2 Choose the desired field for that vector component from the list of fields A vector component s current field will be displayed to the right of its name under the heading Active Fields Choose NONE to zero out a vector component Selecting nodes to display If you want to select certain nodes to display click on the Select button in the Nodes menu and the Node Select menu is displayed
7. Animation menu A submenu similar to Fig 5 6 will appear The first two radio buttons turn the cutsphere animation on or off Click On Underneath the on and off buttons are the input text fields that defines the center of the spheres and the beginning and ending radii for the spheres Below the text fields is the Options button Click on this button to set drawing options After the Options button is the current field from which cutspheres can be calculated Click on the New Field button to select another node field from the Node Field Selection menu During the animation sequence a new cutsphere will be drawn for each sphere radius between the beginning and ending radius one for each frame Also during the animation sequence the current cutsphere radius will be displayed at the bottom of the Cutsphere menu Click on Close to remove the submenu from view The next time an animation sequence is started cutsphere animation will be included To turn off cutsphere animation reopen the cutsphere submenu and click the Off button When the window is closed the cutsphere button in the animation menu will not be highlighted Figure 5 6 Cutsphere Animation submenu Animation flight mode In flight mode an animation menu will appear See Fig 5 7 Flight animation moves the simulated helicopter from point to point in space going up over around and through the object in the main viewer To start an animation
8. The GMV Temporary Field Files 1 3 The GMV User Interface The mouse controls Using menus Buttons Slider Bars Scroll bars 1 4 The Main GMV Window The menu bar Twist elevation and azimuth Axes orientation viewbox Magnification slider 1 5 The File Selection Menu 1 6 The GMV Resource file gmvrc gmvrc keywords Sample gmvrc file 2 0 The File Menu 2 1 Read GMV File New Simulation Same Simulation Same Simulation Same Cells Auto Read Same Simulation Auto Read Same Simulation Same Cells 2 2 Put and Get Attributes 2 3 Save gmvrc 2 4 Snapshot 2 5 Quit 3 0 The Display Menu 3 1 Nodes Viewing nodes their vectors and numbers Vectors Selecting nodes to display Selecting nodes by Materials and Flags Selecting nodes by Node Field Data Range i l i i i d d d d d d d d kek l I I i l l OMDDOOOGQGAGAQchdcaqanNmnNhNhN monk da ales aay aA Vag eB Vs oh BROOD H Selecting nodes by Search Sphere Selecting nodes by Number s Selecting nodes by Search Box Selecting nodes by Groups Activating node selection 3 2 Cells Viewing cell faces edges and numbers Coloring cells by materials fields and flags Cell vectors Face vectors Selecting cells to display Explode 3 3 Polygons Shading and outlining polygons Selecting materials to display Changing explode percentage Selecting a polygon subset Changing material order 3 4 Tracers Methods of displaying tracers Selecting data field for t
9. a range of numbers with a stride The format used to define a range of node numbers is first last e g 1 10 The format used to define a range Close Apply J Select On Figure 3 8 Node Number submenu Close Apply J Select On xmin jf 501992989 xmaxfo i SOCOCOC C__ 8 01992989 ynin 501992989 ymaxf UOS 1999989 zmin of 0 04592461 zmax e OLON 1613836 N Inside _ Outside Figure 3 9 Node Search Box submenu of node numbers with a stride is first last stride e g 20 100 10 All node numbers must be greater than 0 and any number greater than the maximum node number will be reset to the maximum node number If a line contains an invalid character an error message will appear in the Node Select menu indicating the line number with the error Selecting nodes by Search Box To select nodes within or outside a user defined search box click on the Search Box button and the Node Search Box Fig 3 9 menu appears To define the search box either enter the xmin ymin zmin and xmax ymax zmax which define the coordinates of two points at opposite corners of the box or move the sliders to interactively define the box When the sliders are moved a green box appears that defines the search box Toggle the Inside and Outside buttons to select nodes in those regions Selecting nodes by Groups To select nodes defined in a group click on the Node Group button and the
10. axis Reflection Choose this button to reflect the mesh data about the X axis Y axis Reflection Choose this button to reflect the mesh data about the Y axis Z axis Reflection Choose this button to reflect the mesh data about the Z axis Mirror Imaging A special word of caution is in order Please note that reflecting about more than one axis is cumulative For example GMV when requested to reflect about an axis will always reflect whatever is in the main viewer even if half that data is reflected data Mirror imaging is useful for problems that have a great deal of symmetry in them The designer might want to include data for only half a fourth or an eighth of the problem and then create the rest of the image by reflecting the data about an axis This method saves much time and memory when running the simulation The View Menu The options in the view menu are designed to allow three different ways to project the object on the main viewer The three different ways GMV can display objects are orthographic perspective and flight Only one can be chosen at a time Orthographic The orthographic projection is the default setting for GMV It displays the object with parallel sides Perspective The perspective projection represents object depth on the two dimensional screen The difference between orthographic and perspective becomes clearer with an example To draw a road going off into the distance the orthog
11. between the minimum and maximum values for the selected field The range of min and max values appears on the right and left hand side of this particular box Finally you must choose a color for the isosurface Down the middle of the Field Isosurface menu is a column of colored boxes numbered one through twenty Choose a color for the isosurface Click on Add next to the desired color GMV will beep and display the isosurface If the contour value is not within the range specified on the sides of the contour value data box or if the isosurface for a particular value simply does not exist GMV will show nothing GMV lists the field and contour value of each isosurface next to the surface s color box in the isosurface window To delete an isosurface click on Del next to the appropriate isosurface color box lsosurfaces can be turned on and off L i Ad Add D Ada De1 4 Close _1clip on Field Subset Clip on Cell Selection EIEE eN e i D jmi ERRER 2 gt an a te mS D D BE t m BE t D p m p T m BE t t e p D e E 1j 19 Contour Value Hew Field _jColor Surface with Hode Field Field pressure Hew Field Figure 4 12 Field lsosurface menu 4 14 by clicking on the colored box Clip on field subset and cell selection These two toggle buttons tell GMV to draw isosurfaces based only on
12. button to activate the selections Coloring cells by materials fields and flags Click on the Color By button to display the Cell Color By submenu see Fig 3 12 Cell edges are colored by material color flag values or a blue to red intensity color for cell centered node centered or face centered field values If node field values are selected the edges are smoothly colored The cell faces can be colored by material or flag values as well as a blue to red intensity color of cell centered or node centered field values Cell faces can also be colored by cell groups or face groups only cells or faces that are in a group are displayed To see cells that have a 0 material number or not in a group press the Show cells with 0 material no button Any cells with 0 material number will have the text color as a material color Cell vectors If there is cell centered data cell vectors can be built Click on the Vectors button to bring up the 3 appropriate submenu The procedure to display and build Figure 3 11 Cell vectors is the same as node vectors Color By submenu Face vectors If there is face centered data cell vectors can be built Click on the Vectors button to bring up the appropriate submenu The procedure to display and build vectors is the same as node vectors Face vectors are drawn in a grey color Selecting cells to display This is done in the same manner as described in the previous sectio
13. displayed on the screen This feature is available whenever nodes are displayed by the Nodes display option Click on the Get Node Data From Screen button and move the cursor to the image then move the crosshair ee 4 16 Close Node Values Hode oo JGet Node Data From Screen Get Node No 7 From Field Value Get Values 535 3411016 1 471402 353 7321388 0 2 flame 2 11 fre Distance between 4 last nodes 118 58541 Cell Info Cell 1 _jJ Get Cell Data From Screen yeh defii Eis Maem Eto dc ihe Baw Cell Values Cell Node Ids 130 T 200 32 Figure 4 14 Query Data menu cursor to a node and press the left mouse button The number of the node closest to the crosshair will be displayed in the Nodes box Also the data for the node will be updated You may continue to probe nodes until you click off the Get Node Data From Screen button Similarly the Get Cell Data From Screen button returns the cell number and data of the cell whose cell center is closest to the crosshair when cells are displayed Getting node and cell numbers by field value You can retrieve a node number by node field value by clicking the Get Node No From Field Value button When selected a menu similar to Fig 4 15 ee 4 7 appears Select a field to query and the field data minimum and maximum are displayed along with the first node number at these extremes If there is more than on
14. exists on that side of the face Note face data includes cell information do NOT mix both cells and faces within one GMV input file nodeids Alternate node id numbers for display ids nnodes Integer alternate node ids cellids Alternate cell id numbers for display ids ncells Integer alternate cell ids faceids Alternate face id numbers for display ids nfaces Integer alternate face ids material nmats data_type Material data number of materials and data type O cells 1 nodes matnames nmats 8 character material names matids ncells Integer material ids for cells or matids nnodes Integer material ids for nodes velocity data_type Velocity data and data type O cells 1 nodes 2 faces u ncells v ncells For cells w ncells or 10 4 u nnodes v nnodes For nodes w nnodes or u nfaces v nfaces For faces w nfaces variable Keyword indicating that other cell or node data sets follow The data sets have the form anyname data_type An eight character name for the data the data type O cells 1 nodes 2 faces data ncells nnodes or nfaces array of float data Examples DO NOT use quotes in actual file density 0 density_data ncells temp 0 temp_data ncells pressure 1 pressure_data nnodes flow 2 flow_data nfaces endvars Keyword indicating end of variable data subvars Keyword indic
15. fields consistent from frame to frame Any field value in other files that is below the range in this file will be colored the minimum field color dark blue values above the range will be colored the maximum color bright red When setup is complete click on the Put Attributes button and specify a name for this attributes file Hint use the suffix attr to differentiate attributes files from other files 3 Start up GMVMOVIE and fill in the blanks on the menu see Fig 10 1 The Input Mode options are Local CFS Script Script and CFS Local means that the GMV input files are stored on the workstation usually in the 11 3 current directory CFS means the files are stored on CFS LANL s Common File System mass storage system Script means the files are stored locally but the file prefix and the first last and stride values are read from the script file This is useful in combining GMV input files with different file prefix names into one movie Script and CFS is used when the files are stored on CFS and a script file determines the GMV input files to retrieve from CFS The box labeled CFS Directory or Alternate Path should contain the CFS path or Unix path if different from the current directory If the data is in the current directory leave this box blank Enter the prefix of the file names in the File Prefix box For example if the input files are stored on CFS node my mesa node and the files are n
16. file see the fromfile description below Nodev The nodev keyword is an alternate form of the nodes keyword Use nodev to input the node coordinates as a triplet on each line There will be nnodes lines of the x y and z coordinate on each line The nodev keyword cannot process a structured brick mesh Cells The cells keyword indicates the beginning of cell descriptions The variable ncells on this line are the number of cell descriptors that follow There are six standard cell types that GMV can read line tri quad tet hex pyramid prism phex amp and phex20 The type is followed by the number of vertices contained in the cell 2 for line 3 for tris 4 for quads 4 for tets 8 for hex 5 for pyramid 6 for prisms 8 for phex8 and 20 for phex20 The next line contains the node numbers for the cell vertices The vertex ordering for selected standard cell types is shown in Fig 9 1 This ordering must be followed in order to ensure outward pointing normals The tri and quad cells are simple two dimensional entities that employ a sequential vertex numbering scheme counterclockwise around the periphery of the cell The general cell type is available for nonstandard cells These cells are described by their faces The nfaces variable indicates the number of faces for the cell The next line of data is the number of vertices for each cell face The third line E 10 10 of the set contains the node numbers of the vertices for each fa
17. from CFS If the input mode is Script or Script and CFS the file prefix and the start end and stride data are read from the script file The Script input mode can be used to combine GMV input files with different prefixes For example the following script data will process gmvfiles gmva001 to gmva005 then files gmvb001 to gmvb010 gmva 15 1 gmvb 1 10 1 If you have GMV input files in your directory and they have the same names as files that GMUVMOVIE will be getting from CFS the existing input files will be overwritten You can run up to four gmvmovies at a time by selecting different quadrants for each movie as long as the workstation has a 1280 x 1024 pixel resolution Just make sure that the quadrants do not overlap and there are no other graphics images or menus running in the quadrants If you cannot get GMUVMOVIE to stop go to another window and type ps ef grep gmvmovie You will see something like this jxf 5503 4991 80 11 35 36 ttyq9 0 45 gmvmovie jxf 5507 5471 1 11 36 28 console 0 00 grep gmvmovie Locate the process number for GMVMOVIE in this case 5503 and then kill it by typing kill process number e g kill 9 5503 If you are running the OpenGL version of GMV on an SGI the window manager will require you to place the window on the screen contrary to the w option To prevent this interactive placement problem add the following lines to your Xdefaults file then log in to activate the resources 4
18. see Fig 3 4 Use this menu to select nodes by materials and or flags by a data range of a node field by a search sphere by node numbers a search box or node groups To specify a selection type click on one of the category buttons to bring up a selection menu After specifying the selection criteria click on the Select On toggle button to use the selection type If more than one selection type is set on GMV will use a logical and to combine the selections Click on the Apply button to process the search criteria Selecting nodes by Materials and Flags To select nodes by materials and flags click on the Materials and en 3 3 Haterials E Figure 3 5 Node Materials and Flags submenu Flags button and the Node Materials and Flags Menu appears see Fig 3 5 The available materials will be listed on the left icl Appl side of the menu Following the materials are all Llose Apply the flag types if any followed by the different flag values Between each column of selection E criteria are the two logical operators AND and Field pressure Hew Field J Select On OR Highlight the desired materials then highlight the desired flag values The On and Off buttons are used to select or unselect all of the materials or flags Next decide on the logical operator and or to build a in 0 left to right boolean operation fa 03708229 Selecting nodes by Node Field Data Range To select n
19. set verbose set k 1 21 foreach i k gmvBatch a iso attr w 639 0 640 512 i gmvout3 i s ksbmiso i rgb end Helpful Hints 1 Nodes are more visible with a black background To change the background color select Background Color under Color Edit All three colors sliders red green and blue must be all the way to the left for a black background 2 Shaded objects such as polygons and isosurfaces look better with a white background All three color controls must be to the right for a white background 3 When selecting polygons turn off the Shaded and Edges buttons First select everything you need to view and then shade the polygons This way GMV only has to update the screen once instead of every time you change your selection This is especially helpful for large problems 4 Hint number three also applies for cells Turn everything off and select what you need first Then turn on faces or edges as needed 5 Workstations without any graphics acceleration or ones running the Mesa OpenGL to X version are especially slow running GMV Therefore it is to your advantage not to overwork the machine and only force GMV to do something when it is necessary The mouse controls are not very useful when running the slow version of GMV It is more efficient to use the slider bars above the main viewer to manipulate the object This will be more accurate and save time Starting GMV with a smaller window will also
20. slider bar To scroll through a list click and drag the slider back and forth in its track until the desired part of the list is in view You may also click in the scroll bar s track on either side to move through the list more slowly The main GMV window see Fig 1 2 amp 1 3 The menu bar The menu bar is located at the very top of the main GMV window The menu names listed in order are file display calculate ctl 1 controls 1 ctl 2 controls 2 ctl 3 controls 3 reflections and view es es Figure 1 4 Twist elevation amp azimuth controls Twist elevation and azimuth These three slider bars are located above the main viewer and control the viewing angle see Fig 1 4 Azimuth is the angle on the X Y plane measured from the X axis It has the same effect as using the left mouse button and moving left and right Elevation is the angle in the direction of the Z axis measured from the X Y plane It has the same effect as using the left mouse button and moving up and down The Twist adjustment cannot be done with the mouse The twist slider rotates the object about the X axis Axes orientation view box This box is located up and to the left of the light source box see Fig 1 5 The box shows the orientation of the X Y and Z axes at all times even if the ee 8 5 Figure 1 6 Magnification Figure 1 5 Axes view box control axes in the main viewer are turned off It is u
21. the New Field button to select another node field from the Node Field Selection menu After a field is chosen GMV places the default data range for that particular field in the Begin and End boxes near the bottom of the window The default data range is defined as the minimum and maximum values in the current field To change the data range click on either the Begin or End data box and enter the desired value GMV will divide the data range into as many equal increments as there are frames During the animation sequence a new isosurface will be drawn for each contour value in the data range one for each frame Also during the animation sequence the current isosurface contour value will be displayed at the bottom of the Isosurface menu The color of the isosurface animation can be changed using the Color Edit function in the Controls 1 menu Click on Close to remove the submenu from view The next time an animation sequence is started isosurface animation will be included To turn off isosurface animation reopen the isosurface submenu and click the Off button When the cise Aof Field density Hew Field Data kange to 8 9395 0 8 9395 Begin End Figure 5 5 Isosurface Animation submenu 5 6 window is closed the isosurface button in the animation menu will not be highlighted Cutsphere animation Cutspheres may be added to an animation sequence by toggling the Cutsphere button in the
22. the button desired It will temporarily depress to indicate that it has been activated The toggle buttons used in GMV are small and square in shape with labels next to them These buttons have two different states on or off The little indented square will appear yellow when it is on and grey when it is off Radio buttons are a set of toggle buttons that allow only one selection of the set and are diamond shaped Dodecahedron Polygons Figure 1 2 Main GMV window TTT uTHTWT1 X TTTTHY WT1Y 2JSJT Axes Main Menu Bar Twist Elevation View File Information Line amp Azimuth Box e a n n a 8 O ao Title Dodecahedron Title Polygons Magnification Slider Main Viewer Object in Main Viewer ee 4 Slider bars Slider bars are control devices used throughout the GMV user interface The use of slider bars is very easy Just click and hold the left mouse button on the rectangular shaped slider control and drag it back and forth until the desired adjustment has been made When more precise changes are desired you can click the left mouse button on a portion of the slider bar not covered by the slider control and the slider will move at predetermined units Scroll bars Many menus within the GMV environment contain lists of things to choose from Lists are placed into scroll boxes On the right side of a scroll box is the scroll bar The scroll bar is much like a
23. the cylinder radius in the Search Radius box if the default radius is not appropriate Hint Use the Distance option of the Calculate menu to determine an appropriate distance Next select a field whose node or cell data will be color coded along the line Finally click on the Ada button to create the cutline a message will then be displayed along the bottom of the menu showing the number of nodes selected for this cutline The corresponding button in the Cutplane Selection will display the field value selected Cutline display options The On button toggles the cutline display for the selected cutline on or off The Nodes button when on displays the nodes selected for the cutline The Nos button displays the node numbers for the nodes selected for the Cutline The Wave toggle button with its slider is used to display the function wave of the data along the cutline Use the wave slider to increase decrease the amplitude of the wave The Delete option deletes the current cutline deleting a Cutline causes the corresponding button in the Cutline Select menu to display NONE Cutline 2D plot When cutlines are generated a 2D plot of the cutlines appears The plot automatically scales all cutlines and stays visible until all cutlines are deleted or the main cutline menu is closed Cutplanes A cutplane is a plane through the simulation onto which data is interpolated GMV will display only the parts of the cutplane that i
24. the number of vertices in the face the processor number for the face the opposite face number the processor number for the opposite face the cell in which this face is part of and the list of node numbers of the vertices for the face Order the face vertices to generate an outward normal using the right hand rule If the face describes a vface2d face then it must contain only two vertices Vface data input may also be performed by consulting a remote file see the fromfile description below Faces The faces keyword indicates the beginning of polygonal face descriptions and their associated cells The variable nfaces on this line is the number of face descriptors that follow and the variable ncells is the number of cells in the problem There are nfaces descriptor lines that contain the number of vertices in the face the nodes that define the face the cell that is to the left of the face and the cell to the right of the face Each polygonal face can be a part of up to two cells if the face is part of only one cell a cell number of O zero must be input Face data input may also be performed by consulting a remote file See the fromfile description below A o The cells keyword and the faces keyword must NOT both exist in the same GMV input file since they are alternate forms of the same mesh information Nodeids The keyword nodeids indicates that an optional list of alternate node id numbers follows These alternate id numb
25. time series family of input files created from the same simulation but with possibly different cell configurations The filenames to be read by this option must all be the same except for a numeric suffix The numeric suffix must all be either a 3 or 4 digit number within the family Also the current GMV file must be a member of the family The files are read in a user determined sequence and the image produced after a file is read will have the same attributes as the last image from the previous file As in the read Same Simulation option it is important to have the plotbox field data range and subsets set to values that reflect data for the family of files The attributes can be changed however by pausing the sequence and manually setting attributes or reading an attributes file You can then resume the sequence or start over Selecting this option will display the Auto Read menu see Fig 2 1 unless the current file does not contain a numeric suffix In the First and Last text boxes enter the range of input files to read Enter a stride skip value J Houpet guir l Close aFirst aLast Stride E Direction s s55 Forwards Forward to Latest Backwards Search time sec _JAuto Snapshots Start pause Rha Baek PETH HOKE Figure 2 1 Auto Read Menu in the Stride text box Next select one of the direction options The Forwards direction option reads file
26. to Know GMV Left mouse button Use for selection and rotation Right mouse button Use for magnification Middle mouse button n Use to pan Figure 1 1 Mouse button schematic Starting GMV To start GMV the location of the executable must be known If GMV is in the current path simply type gmv on the console and press the enter key The main GMV window will appear first followed by a File Selection menu requesting the name of a GMV input file Double click on the name of an input file or select the file and click on OK If the requested file is not a valid GMV input file then a box stating this fact will appear and allow you another chance to select a valid GMV input file After the file is chosen the mouse pointer will change into a watch indicating that GMV is processing the input file and preparing to display the data on the screen Be patient this may take a few seconds or even minutes depending on the size of the input file An object will then be displayed on the screen The object displayed depends on the input data and the following order polygons cells nodes If polygons exist they are drawn first If no polygons exist then cells are drawn If no cells exist then nodes are drawn which must exist in a valid input file In addition the Display window corresponding to whatever was displayed first will pop up For example if the input file contains polygon data the Polygons window will automatically pop
27. upper left corner of the main viewer Cycle numbers are sometimes included in input files to help you keep track of which simulation cycle generated the file If no cycle information exists in the input file GMV will display a zero Data limits The Data Limits option is in the Ctl 2 menu This allows you to specify the minimum and maximum values of the color bar for Node Fields Cell Fields and for any tracers When the limits of the color bars are changed the object in the main viewer will appear in colors that correspond to the new range of the color bar Setting new field limits is extremely useful when making time sequence movies Set the limits to the simulation minimum and maximum field values to have a consistent color range throughout the time sequence When you click on the Data Limits option button in the menu a submenu will appear on the right From the sub menu choose either Node Fields Cell Fields or Tracers After a selection is made additional submenus will appear depending on your choice Fields Choosing Node Fields or Cell Fields will bring up a submenu similar to the one pictured here see Fig 5 14 The current field whose limits may be changed is displayed after the Field label To change the current field click on the New Field button to pop up the node or cell field selection menu depending on which submenu was selected Below the current field are four boxes in which the original and current
28. 3 Use the Explode slider to adjust the amount of separation of cell groups as a percentage of the distance Use the Explode On radio buttons to select the material number Mat No or flag type to group the cells Click on Apply to display the separated groups of cells To return to the initial setup return the slider bar back to zero and press apply Close Apply J Select On f q J Select Haterial From Screen _ Remove Material From Screen Figure 3 12 Cell Materials and Flags submenu close App ly m Explode Explode on Figure 3 13 Cell Explode submenu 3 9 Polygons The Polygons menu is used to view the surfaces made by the input polygons see Fig 3 14 Polygons are surface facets that are shaded according to the location of the light source The polygons are colored by material color as specified in the input file Shading and outlining polygons To change the way GMV displays polygon data choose the Polygons option from the display menu The Apply button is used to activate the desired selection from this menu The polygons can be outlined shaded or both depending on your preference The way the polygons are Shaded depends on the location of the light source This location of the light source can be changed by using the light source box in the upper right corner of the main GMV window See the information on page 1 7 When the Lines option is selec
29. 44 100 100 100 100 100 100 100 100 100 100 100 100 54 100100 100 100 100 100 100 100 100 100 100 100 6 4 100 100 100 100 100 100 100 100 100 100 100 100 endpoly tracers 10 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 0 20 40 60 80 100 120 140 160 180 pressure 0510 15 20 25 30 35 40 45 A i018 temp 45 40 35 30 25 20 151050 density 0510 15 20 25 30 35 40 45 endtrace traceids 24101215 18 20 21 22 23 velocity 0 00500 055 010 5551010 variable pressure 0 05101520 temp 0 05101520 density 0 05101520 endvars flags flagtype 3 0 good bad ugly 12321 stufftype 3 0 bing bang boom 12321 endflag endgmv E i 19 Making Movies With GMV GMV command line options GMV has several command line options which can be used to create time sequence movies of mesh data noninteractively In this manner GMV can be included in shell scripts that create snapshots Some of the options can be input when starting GMV interactively The following are the available GMV command line options window size w xloc yloc width height xloc yloc X and Y coordinates of lower left corner of window where GMV will draw the image width height the width and height in pixels where GMV will draw the image input file name i filename Specifies an input file for GMV to read attributes file name a attribute_filename Specifies an attributes file for GMV to use to draw
30. 5 vertex ids Note the ordering of the vertices for tet hex prism and pyramid is shown in Fig 9 1 The tri and quad cells are two dimensional entities that employ a sequential vertex numbering scheme around the periphery of the cell vface3d nfaces Vface3d type number of faces in cell vfaces nfaces vface ids in vface keyword see below Note vface3d type cannot be mixed with other cell types vface2d nfaces Vface2d type number of faces in cell vfaces nfaces vface ids in vface keyword see below Note vface2d type cannot be mixed with other cell types Vface2d faces are 2D faces i e edges vfaces nfaces Vface data number of faces Followed by nfaces lines of nverts Number of vertices per face pe_no Processor number of the face 1 if single processor oppface Opposite face number opp_pe_no Processor number of the opposite face 1 if single processor cellno Cell number of the cell the face is part of vertex_ids Integer list of node numbers that define the polygonal faces faces nfaces ncells Face data number of faces and number of cells Followed by nfaces lines of nverts Number of vertices per face vertex_ids Integer list of node numbers that define the polygonal faces cellno1 Cell number of the cell to the left of the face cellno2 Cell number of the cell to the right of the face The cell numbers must be between 0 and ncells where 0 indicates no cell
31. DWm interacitvePlacement false 4DWm GMV clientDecoration none GMVBATCH GMVBATCH Off Screen Rendering GMVBATCH is a command line version of GMV that allows off screen rendering of an image using Mesa s OSMesa off screen image buffers A SGI RGB file is then generated GMVBATCH is a better way to generate movies than regular GMV because it does not need an OpenGL window to draw into thus a script can be written to use GMVBATCH and run in the background GMVBATCH command line options GMVBATCH has several command line options which are used to create time sequence movies of mesh data noninteractively The following are the available GMVBATCH command line options window size w xloc yloc width height xloc yloc X and Y coordinates of lower left corner of window where GMVBATCH will generate the image width height the width and height in pixels where GMVBATCH will generate the image Default 0 0 900 700 Note xloc and yloc are not used by GMVBATCH input file name i filename Specifies an input file for GMVBATCH attributes file name a attribute_filename Specifies an attributes file for GMVBATCH to use to draw the image snapshot file s snapshot_filename Saves the image in SGI RGB format to the file specified in s If s is not entered the file name AzsnapgmvAz is saved as the default Here is an example script that uses GMVBATCH to create a series of snapshots for use in movie making
32. LAUR 95 2986 me GM V Version 2 9 General Mesh Viewer User s Manual By Frank A Ortega Los Alamos NATIONAL LABORATORY Los Alamos National Laboratory is operated by the University of California for the United States Department of Energy under contract W 7405 ENG 36 Edited by Patricia W Mendius Group CIC 1 An Affirmative Action Equal Opportunity Employer This report was prepared as an account of work sponsored by an agency of the United States Government Neither The Regents of the University of California the United States Government nor any agency thereof nor any of their employees makes any warranty express or implied or assumes any legal liability or responsibility for the accuracy completeness or usefulness of any information apparatus product or process disclosed or represents that its use would not infringe privately owned rights Reference herein to any specific commercial product process or service by trade name trademark manufacturer or otherwise does not necessarily constitute or imply its endorsement recommendation or favoring by The Regents of the University of California the United States Government or any agency thereof The views and opinions of authors expressed herein do not necessarily state or reflect those of The Regents of the University of California the United States Government or any agency thereof Table of Contents 1 0 Getting to Know GMV 1 1 Starting GMV 1 2
33. Title menu Vector Control menu Window Size menu Zoom Rubberband menu Cell vertex order GMV Movie menu 0 1 Preface Revision Record for GMV Revision Date Description January 2002 Version 2 9 Description and Intent This manual describes the General Mesh Viewer GMV GMV is a three dimensional visualization tool that can process data from any 3 D mesh Data to be visualized are taken from a properly formatted input file and displayed on the screen With simple pull down menus windows and mouse controls many special functions are available to maximize the practical value of any simulation GMV may be asked to visualize This manual has three purposes to teach the beginner how to operate in the GMV environment to act as a reference guide for the more experienced user and to define the format for the GMV input file The only possible prerequisite for the use of GMV is the knowledge of a computer programming language so that you can write code to generate GMV input data However finished input files are not very difficult to obtain and can also be written manually using a text editor Syntax Conventions Words enclosed in double quotes like this unless otherwise stated are actual quoted material from the GMV environment such as menu options or error messages This punctuation does not apply to the description of the GMV input format The GMV input file section has its own set of conventions Getting
34. VIE finishes each frame it removes the input file if the file was imported from CFS If the input file was on a local disk GMVMOVIE leaves it there After running GMVMOVIE you may use the SGI utility movie to look at the snapshot frames interactively The source for movie is provided in 4DGifts The usual path name is 4DGifts iristools imgtools Here are the steps for making a movie with GMVMOVIE 1 Generate a series of gmv input files These files must have the following naming scheme prefix sequence where prefix is a string common to all the files e g gmva and sequence is a 3 digit sequence number For example in the filename gmve023 the prefix is gmve and the sequence is 023 These files must reside on the Common File System Los Alamos National Laboratory s mass storage system or on a local disk 2 Move one of these GMV input files to the workstation by using CFS and run gmv Then adjust the image from this file to display relevant information for the attributes file The attributes file will contain the viewing angles magnification visible materials fields cutplane parameters and contour surfaces that will be applied to each frame of the movie A helpful hint is to use a file late in the time sequence to set up attributes An important point is that the range of values for any fields in this GMV file will subsequently apply to all frames of the movie This makes the color coding for cutplanes or bounding box
35. ally from last to first and cannot selectively be removed by number Should a mistake in entering a control point be made there is a way to return to the most recently set control point so that by retracing steps one can try again To go back to the last control point click on Return to Control Point Saving and Retrieving control points At the bottom of the Flight Animation menu are two buttons These two buttons labeled Save Control Points and Get Control Points allow you to save and retrieve control points A file Selection Menu will appear to to select or enter the file name to save or retrieve Quick look and Snapshot If the object in the main viewer is large and complicated you can choose to incorporate the current interactivity setting into the animation Click on the Quick Look toggle button GMV can also take snapshots of every frame during the animation sequence To do this click on the Snapshot toggle button When the Start button is clicked a File Selection Menu will appear to enter the file prefix Each snapshot file will then begin with the same prefix followed by a three digit number indicating the frame number of that particular snapshot All snapshots are in Silicon Graphics RGB format Axes Axes is the second option in the Controls 1 menu Its function is to turn on or off the X Y and Z axes in the main viewer To activate this function choose it from the menu The axes will appear or disappea
36. amed gmvc001 gmvc044 then the CFS Directory or Alternate Path box should contain my mesa node and the File Prefix box should contain gmvc If you select CFS as the input mode then GMVMOVIE will prompt you for a CFS password after you click on Ready If the CFS node has no password press the Enter key If a password is required type it in after the prompt It will not print on the screen Fill the First Last Stride boxes with the beginning end and interval of the GMV input files For example entering 1 50 5 with a prefix of gmvini will create movie frames for every fifth file from gmvin1001 through gmvini050 The Attributes File box should contain the attributes file name saved with the Put Attributes file option The Script File box is used when Script or Script and CFS input mode is selected Enter the file name of the script file For an example of a script that may be used here please look under Other Useful Information below There are four options in the Screen Quadrant selection Be sure that no other graphics window is running in the quadrant selected The window that is drawn is 640 by 512 pixels if the workstation does not have a 1280 by 1024 pixel resolution then always select the upper left quadrant The RGB File Prefix box is used to enter the file name prefix of the snapshot files The default name is msnapgmv This can be changed by the user The RGB Start No contains the sta
37. and 8 0 The Reflections Menu 8 1 Reflecting about an axis 9 0 The View Menu 9 1 Orthographic 9 2 Perspective 9 3 Flight 9 4 Stereo Perspective 9 5 Stereo Flight 10 0 The GMV Input Format 10 1 Input Specifications 10 2 Input Data Details Header Nodes Nodev Cells Vaces Faces Nodeids Cellids Faceids Materials Velocities Variables Subvars Flags Polygons Tracers Tracerid Problem Time 7 1 7 1 7 1 7 2 7 2 7 2 7 3 7 3 7 3 7 4 Cycle Number Surfaces Surface Materials Surface Velocities Surface Variables Surface Flags Surfids Element groups Comments Codename Codever Simdate 10 3 Reading some GMV data from a different file 10 4 Sample Input Data 11 0 Making Movies With GMV 11 1 GMV Command Line Options 11 2 GMV Movie Utility 12 0 GMVBATCH 12 1 GMVBATCH Off screen rendering 12 2 GMVBATCH Command Line Options 13 0 Helpfull Hints 10 14 10 14 10 15 10 15 10 15 10 15 10 15 10 15 10 16 10 16 10 16 10 17 11 1 11 1 11 3 12 1 12 1 12 1 13 1 illustrations Listing 2 3 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 3 9 3 10 3 11 3 12 3 13 3 14 3 15 3 16 3 17 3 18 3 19 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 Mouse button schematic Main GMV window Main GMV window continued Twist Elevation amp Azimuth controls Axes view box Magnification amp Interactivity controls The File Selection menu Auto Read menu Auto Snapshots menu SnapShot menu Nod
38. are material 7 addi Del layers number 1 and the others are material Add Del number 2 With a material fraction of Addl Del SAna 0 5 GMV would draw the isosurface add Del Tayer halfway in between the two different q materials the dashed line in Fig 4 10 Add Del ayers After the material fraction has been Add Del layer9 adjusted click on Add next to the box J i u a un corresponding to the desired material to add the isosurface Click on Del to remove the surface Note truer material surfaces can probably be generated by l simulation code and entered as surface Hew Field _ polygons j _iColor Surface with Node Field Field pressure Figure 4 11 Material lsosurface menu Adding a field isosurface Open the Field Isosurface menu from the main menu bar under Isosurfaces in the Calculate menu A en 4 3 menu similar to Fig 4 12 will appear To add a field isosurface first check that the desired node fields is the current field The current node field is displayed after Field near the bottom of the Field Isosurfaces menu To change the current field click on the New Field button to pop up the Node Field Selection menu Below the current field is a data entry box into which a contour value must be entered The Contour Value is the number in the selected field that will generate the surface with that value To enter a number click on the box and enter a value
39. ata 2 face data The second line is the floating point array for the cell or node data Cell centered field data will be averaged and stored as node centered data Face centered data can only be entered when faces or vfaces are used to define cells Subset variable data fields The subvars keyword is used to denote the beginning of cell node or face data fields that are defined for a subset of the mesh The data are entered as a group for each field variable for the defined elements These fields are added to the variable field list The endsubv keyword is used to end the field data input Each field data variable is defined by three input lines The first line contains the eight character name of the variable the data_type of the field O cell data 1 node data 2 face data and the number of elements to define and set data for The second line is the list of elements nodes cells or faces that will carry the field data The third line is the floating point array for the field data Elements not defined in the list will carry a value that is less than the minimum value entered Face centered data can only be entered when faces or vfaces are used to define cells Selection Flags The flags keyword means that integer selection flag data sets follow Up to 10 different types of selection flags and up to 128 different flag values per flag are allowed These data sets can be any type of integer data that can be used to select a node
40. ating that other cell or node data sets for a subset of the mesh follows The data sets have the form anyname data_type num_elem An eight character name for the data the data type O cells 1 nodes 2 faces the number of elements in the subset elem_ids num_elem array of integer cells nodes or faces in the subset data num_elem array of float data Examples DO NOT use quotes in actual file pdryt 0 10 56913 28 101 150 181 210 300 0 50 5 1 23 4 6 1 0 5 1 80 1 2 2 3 3 intp 15 1236 7 9 8 10 0 11 0 0 2 2 2 facefl 2 8 20 30 40 50 60 70 90 100 100 0 200 0 300 0 10 0 12 2 8 5 2 8 0 0 endsubv Keyword indicating end of subvars data flags Keyword indicating that selection flag data sets follow The data sets have the form anyname ntypes data_type Flag name number of flag types and data type O cells 1 nodes flagnames ntypes 8 character flag type names iflag ncells Integer flag ids for cells or iflag nnodes Integer flag ids for nodes Examples nodetype 4 1 inactive i interior interfac boundary node_data nnodes cnstrain 3 0 static piston air cnst_data ncells endflag Keyword indicating end of flag data polygons Keyword indicating surface polygon data follows eg interface or boundary faces material_no nverts x nverts y nverts z nverts Where material_no Integer number related to material data nverts No
41. ating that other surface field data sets follow The data sets have the form anyname An eight character name for the data data nsurfaces array of float data Examples DO NOT use quotes in actual file density density_data nsurfaces temp temp_data nsurfaces endsvars Keyword indicating end of variable data surfflag Keyword indicating that surface selection flag data sets follow The data sets have the form anyname ntypes Flag name and number of flag types flagnames ntypes 8 character flag type names iflag nsurfaces Integer flag ids for surfaces Note surface data must be input before surfmats Examples surftype 4 inactive interior interfac boundary sflg_data nsurfaces cnstrain 3 static piston air cnst_data nsurfaces endsflag Keyword indicating end of flag data surfids Alternate surface id numbers for display ids nsurfaces Integer alternate surface ids groups Keyword indicating that user defined group sets follow The data sets have the form anyname An eight character name for the group data_type The Datatype O cells 1 nodes 2 faces 3 surfaces nelem The number of elements in the group data nelem array of integer cells nodes or faces depending on type Examples DO NOT use quotes in actual file cells1 05 14710 12 nodesi 18 57 10 30 45 50 55 62 faces1 24 141218 endgrp Keyword indicati
42. aved in the directory indicated on the File Selection Menu Quit Choose this option to quit GMV The Display Menu Nodes Nodes are points in three dimensional space with X Y and Z coordinates They may also contain various types of data such as material or velocity information Viewing nodes their vectors and numbers When the Nodes option is chosen from the Display menu a nodes menu like Fig 3 1 will appear From this menu you may choose which aspects of the node data to view Click the Apply button to activate requested selections from the menu Below the Apply button in the menu are three options that may be chosen individually or simultaneously Clicking on the Nodes button will cause the nodes to appear as colored dots on the screen where the colors are determined by the Color By options Below the Nodes button is the Numbers selection box When this option is activated each node s respective number will be displayed next to its point on the screen Below the Numbers button is the Color By section In this section you choose whether you want to color the nodes by materials a node field or a flag By default the node data is colored according to each node s material number However GMV incorporates provisions to display the node data as a blue to red color intensity color bar according to or any user defined field The node can also be colored by a flag type value To color the nod
43. been set for a field normally applies to all files read as part of an autoread or when attributes are read The Auto Reset All button resets all fields for the selected type nodes or cells during an autoread or when attributes are read Note that data greater then the maximum will be colored bright pink and data lower than the minimum will be colored purple Click on Close in the upper left corner of the submenu to exit the submenu Tracers Choosing Tracers brings up a submenu labeled Set Tracer Limits The procedure for changing tracer limits is similar to changing node fields Distance Scale Distance Scale is in the Ctl 2 menu Its function is to toggle on or off a distance scale at the bottom of the main viewer ee o Figure 6 2 Interacitvity menu Figure 6 3 Light control menu Interactivity Interactivity is in the Ctl 2 menu click on it to display the Interactivity Control menu Fig 6 2 Move the slider to the right to display fewer elements of the object while manipulating the image with the mouse controls thus increasing interactivity If you move the slider all the way to the right a filled gridded box will appear for orientation purposes when using the mouse functions allows user specification of the size and smoothness of lines Light The Light button in the Ctl 2 menu is used to control the light source When selected the Light control menus appears By default the light sour
44. ce for all faces The integer array size for the nodes will be the sum of the vertices for the cell faces The faces do not have to be specified in any order However the vertices for each face must be specified in an order that describes the face polygon and generates an outward normal using the right hand rule The vface3d cell type is available for nonstandard 3D cells These cells are described by their face numbers within the vface keyword The nfaces variable indicates the number of faces for the cell If vface3d is used all cell types must be vface3d The vface2d cell type is available for nonstandard 2D cells These cells are described by their face numbers within the vface keyword The nfaces variable indicates the number of faces for the cell If vface2d is used all cell types must be vface2d The faces in vface2d are 2d faces edges The node and cell data are required and must be in order although the number of cells can be zero if no cells exist Note there is no external numbering for the nodes and cells the order of input is the numbering sequence for both nodes and cells Cell data input may also be performed by consulting a remote file See the fromfile description below Vfaces The vfaces keyword indicates the beginning of polygonal face descriptions related to the vface3d or vface2d cell types The variable nfaces on this line is the number of face descriptors that follow There are nfaces descriptor lines that contain
45. ce is located at the center change the position of the light by clicking the mouse anywhere in the light box The crosshairs will move to the location in the light box where the current light source is located The light source is always in front of the image and is an infinite white light with parallel rays Line Width The Line Width menu Fig 6 4 allows user specification of the size and smoothness of lines This menu provides buttons used to select the Figure 6 4 Line Width menu rendering of lines using one two or three pixels Additionally the particle shape may be toggled to draw smooth antialiased lines There may not be any ee 53 difference between Regular and Smooth lines on some workstations Point Size The Point Size menu Fig 6 5 allows user specification of the size and shape of points This menu provides buttons used to select the rendering of points using two four six or eight pixels Additionally the point shape may be toggled to use either square or round points The square points update quickly round points rely on antialiasing to generate curvature and thus update slower Mesa OpenGL versions occasionally exhibit abnormal point updates when antialiasing is used for point generation A Square fast Plot box The plot box is the three dimensional i plotting area By default GMV chooses dimensions Figure 6 5 Point Size menu for the box to enclose all the data found in the
46. cified node will appear below The first three numbers are the node s X Y and Z coordinates The three numbers after that are the magnitudes of the i j and k velocity vectors if any exist which are labeled U V and W respectively After the velocity GMV will list all field values for the node i e temperature pressure or speed data Finally GMV lists the node material and flag values Below the node information box the distance between the last two selected nodes is listed The Cell Info side of the window can be used to retrieve information about individual cells To list the data associated with a specific cell enter the number of the desired cell into the box labeled Cell and click on the button labeled Cell Values All of the available data for that cell will be displayed below the box with the cell number in it First is the cell center s X Y and Z coordinates followed by any cell centered field data then the cell material and flag values followed by the numbers of all the nodes that make up the vertices of the cell Note that any cell centered data is also displayed as a node value GMV averages all cell centered data to the nodes Any data defined to be cell centered in the input file will be averaged to the nodes and be displayed on the node value side of the grid value window Probing node and cell numbers from the image The Get Node Data From Screen button allows you to use the mouse to get node data from a node
47. click on Start To stop the animation click on Stop Setting control points Control points are points in space that define a path for the flight mode simulated helicopter to follow In order to set control points one should be familiar with the flight mode mouse controls For a review of these controls please refer to the View Menu section To set a control point first select the number of frames wanted for each control point The default is 30 but it can be changed by clicking on the box labeled Control Point Frames and entering a new number Next move the simulated helicopter to the location of the first control point using the mouse Click on Set New Control Point when the location is reached The number of frames for that control point will appear next to the control point s number in the list at the bottom of the window Close Quick Look _j Snapshot Start Stop Bo Control Point Frames set Hew Control Point Delete Last Control Point Return to Control Point control Frames per Points Control Point D ee Aa a hi j l Save Control Points Get Control Points Figure 5 7 Flight Animation menu a g When all control points have been set click on Start to begin the animation To delete a control point click on the button labeled Delete Last Control Point This will clear the most recently entered control point Control points must be deleted sequenti
48. click on the Add button If 7 10 x an invalid operation such as the In X square root of a negative number is IY recognized for a field data element a Jy logi warning message will appear on the _abs X menu and that data element will not be changed The new field is now av arty available for use as is any other field E l and is identified by the new field name Use the Delete button to X Field delete the selected calculated field density When a calculated field is deleted the Hew Field field name changes to the FidCalc prefix f Field Grid Analysis density Grid Analysis allows you Hew Field to selectively view only a portion of the mesh data contained in a GMV input file This is done by specifying Addl pelenel flees individual nodes or cells to be viewed pec pa Eose on the screen This function is especially useful when there are Figure 4 8 Field Calc Build menu 4 10 thousands of nodes and cells in a given set of mesh data The ability to isolate individual areas of data allows for more detailed analysis of the problem at hand To open the grid analysis window use the mouse and choose Grid Analysis from the Calculate menu A menu similar to Fig 4 9 will appear Selecting cells by nodes or cell numbers Cells can be selected by cell numbers or by specifying nodes that are common to one or more cells In the window are two columns of eight boxe
49. d character string that must be enclosed by double quotes The use of this keyword form specifies that the fromfile will contain the pertinent data in the same format and context as would be used in the main GMV file the fromfile must be a valid GMV format file When GMV encounters this keyword form main file processing stops and the fromfile is opened and searched for the applicable data Once the data is input the fromfile is closed and main GMV file processing continues Fromfiles are useful within GMV for displaying animation sequences and the production of movies In many animation sequences much of the data remains unchanged between frames for example nodes cells faces material flags and polygon data may remain constant if the problem domain and physical geometry of the problem does not change between frames Constructing distinct and complete GMV files of each frame consumes much disk space needlessly the fromfile capability allows the placement of constant data i e one or more of node cell face material flag and polygon data within a single file that will be repeatedly be referenced by several GMV input files This constant file is tagged a fromfile in ee i 16 this implementation Sample input data The following is a sample GMV input file in ASCII format It includes most of the features and commands GMV allows When read in the file creates a cube with several other different cell types attached to it The a
50. d edge centers to provide a smoother color change across the facet The Edges option displays the edges of the surfaces as a colored wireframe image If both Faces and Edges are selected the edges are colored grey The Surface Numbers option draws the surface number at the center of the facet in the edge color for the surface while the Node Numbers option draws the surface s node numbers in the text color Surface faces edges and numbers may be displayed simultaneously Simply click on the box next to the desired option just as is done in the Nodes menu Click on the Apply button to activate the selections Coloring surfaces by materials fields and flags Surface edges are colored by material color flag values or a blue to red intensity color for surface centered or node centered field values If node field Close Apply Faces _j Contours J Shaded _j Refine Edges J Suri Numbers Hode Numbers Color By Materials J Hode Field pressure Hew Field JsSurf Field valuel Hew Field _ Flag flagl Hew Flag Groups _ Show surfaces with material no Vectors Select Explode Figure 3 19 Surfaces menu 3 15 values are selected the edges are smoothly colored The surface faces can be colored by material or flag values as well as a blue to red intensity color of surface centered or node centered field values Surfaces can also be color
51. dditional cells are one tetrahedral cell one prism cell one pyramid cell and one general cell The general cell has ten faces and could be described as an octagonal prism There is a large cube constructed from square polygons each with a different material that encloses all of the cells In addition variables tracers and flags with arbitrary data have been included so that you may see the format for entering such elements into an input file The keywords are italicized In addition blank lines have been inserted between major elements of the file for clarity but these are not necessary in areal input file The input data follows gmvinput ascii comments A set of comments endcomm nodes 28 050500 0 05050 25 25 25 25 50 50 50 50 50 50 50 50 80 80 80 80 80 80 80 80 0 0 00505050 50 75 0 50 25 16 7 33 4 50 5033 416 7 0 016 7 33 4 50 5033 416 7 0 0 5050 0050 0 050258080 65 0 016 7 33 4 50 5033 416 7 0 O 16 7 33 4 50 5033 4 16 7 cells 5 hex 8 12345876 pyramid 5 95678 prism 6 10121158 tet 4 121210 ee i017 general 10 8844444444 1314151617 18 19 20 21 22 23 24 25 26 27 28 19 27 28 20 20 28 21 13 13 21 22 14 14 22 23 15 23 24 16 15 24 2517 16 25 17 18 26 26 18 19 27 material 6 0 mat mat2 mat3 mat4 mat5 mat6 12345 polygons 14 100 100 100 100 100 100 100 100 100 100 100 100 24 100 100 100 100 100 100 100 100 100 100 100 100 34 100 100 100 100 100 100 100 100 100 100 100 100
52. e option in Controls 2 The Big Points option displays tracer data as large bright icosahedra centered on the tracer location When Numbers is selected the sequential number of each tracer is displayed Do not get the tracer numbers confused with the node or cell numbers When all three are displayed simultaneously it is hard to tell them apart Finally there is the Values option This one tells GMV to display the value of each tracer in the correct location on the screen Depending on which field is currently selected the colors for tracer display are a blue to red intensity color depicting the values of the field selected for display Click on the Apply button to activate your selections Selecting data field for tracer to represent A main color bar pops up inside the GMV main viewer when tracers are displayed The tracer always takes on the color of its value in the currently selected field The available fields are listed under the heading Fields at the bottom of the tracer window To select a field click on the radio button next to its name The colors of the tracers in the main viewer will change If the input file read in by GMV contained no tracer data then there will be no fields to choose from in the Tracers menu Selecting the Close button will close the menu leaving any changes you have made intact Selecting tracers to display Tracers can be selected for display by number s Click the Select button
53. e has been located you must choose from the list of files in the Files box To choose a file use the scroll bar to position the file name within view and click on the file s name once The name will appear highlighted in the Files box and will also be copied down to the selection box near the bottom If the exact location of the file is known the name can be typed into the selection box manually Now click on OK to launch the file into GMV The previous steps may be skipped if you simply double click on the file name If after the file has been chosen a watch appears the selected file is a pointsize followed by 2 4 6 or 8 Sets point size in pixels valid GMV input file and GMV is processing it If the file is not a valid input file a message box will appear stating this and another opportunity will be given to choose a file 1 7 The GMV resource file gmvrc The file gmvrc is a GMV resource file that contains a set of generic drawing instructions that affect the initial display of a simulation When the first input file is read or when a file for a new simulation is read GMV will look for the gmvrc file in the directory where GMV is started If gmvrc is not found in the current directory then GMV will look for gmvrc in the user s home directory If a gmvrc file is found then the display command settings in gmvrc will override the display defaults Note that if a gmvrc command asks to display an object that does not exist
54. e node with a minimum or maximum value the number of matches is displayed To get the node number closest to a specific value for the current field enter the value in the text box labeled Match Value and click on the Get Node button The node number closest to the match value is displayed along with the exact value of the node If there is more than one node that has the exact match value the number of matches is displayed instead of the node value Similarly use the Get Cell No From Field Value button for cell centered field values if any Figure 4 15 Get Node by Field Value menu The Ctl 1 Controls 1 Menu Close 30 _ Fade _ Vector Flow _ Isosurface Frames Explode Cut Plane Cut Sphere ROTATION TRANSLATE CENTER MAGNIFY jBegin 9 0 0 0 0 0 50 000 50 000 70 000 1 000 a 0 0 0 0 0 0 50 000 50 000 50 000 1 000 xrot yrot zrot xcen ycen 2cen Quick Look Snapshot Start Stop PEHEN Figure 5 1 Animation menu Animation orthographic and perspective modes GMV can be used to create animation sequences To open the animation menu choose the Animation option from the Controls 1 main menu bar There are two different animation menus depending on which View mode you are currently in If you are in orthographic or perspective modes a menu similar to Fig 5 1 should appear To begin an animation click on the Start button Click on Stop to stop the current sequence A given an
55. ed by groups only surface elements that are in a group are displayed To see surfaces that have a 0 material number or node group press the Show Surfaces with 0 material no button Any surfaces with 0 material number will have the text color as a material color Surface vectors If there is surface centered data surface vectors can be built Click on the Vectors button to bring up the appropriate submenu The procedure to display and build vectors is the same as cell vectors Selecting surfaces to display This is done in the same manner as described in the previous section about cells and their materials and flags surface field range node field range search sphere surface number s search box and surface groups Explode An exploded view of surfaces is accomplished just as in cell explode The Calculate Menu Average The Average function in the Calculate menu calculates a weighted average by material of two node fields or cell fields Chose the Average option from the Calculate menu and select either Node Fields or Cell Fields if available and a menu similar to Fig 4 1 appears Selecting a weighting field To select the field to be used as the weighting function click on the New Field button under the W designation For an unweighted average click on the One button Selecting a field to Average 303 17576 To select the field to 30698976 average click on the New Field button
56. ep the entire length of the object During an animation sequence that includes a sweeping cutplane the coordinate on the selected axis where the current cutplane lies will be displayed at the bottom of Cut Plane menu Below the node and cell field label is the currently selected field for interpolation onto the cutplanes Click on the New Field button Options Node Field Pressure Hew Field LJ iazii Fae ie RE cry tt iew ee Figure 5 2 Cutplane Animation submenu to select a new field from the Field Selection menu When all the selections have been made click on Close to remove the submenu from view Fade The fade option allows for fading out polygons and isosurfaces over the course of an animation sequence To use the fade option during an animation click on the toggle button labeled Fade in the animation menu A submenu similar to Fig 5 3 will appear First set the beginning and ending transparency factors a 3 Close TRANSPARENCY l L mat21 00 0 00 TR am a oo RS fmt sae sa sae sae k Figure 5 3 Fade Animation submenu using the yellow slider bars at the top of the submenu A value of one corresponds to no transparency and a value of zero is 100 transparent Next choose the material or isosurface to be faded during the animation by clicking on the appropriate box When a selection is made the beginning and ending transparency factors wi
57. ers are used for display and reference purposes within GMV Enter nnode integers Cellids The keyword cellids indicates that an optional list of alternate cell id numbers follows These alternate id numbers are used for display and reference purposes within GMV Enter ncell integers Faceids The keyword faceids indicates that an optional list of alternate face id numbers follows These alternate id numbers are used for display and reference purposes within GMV Enter nface integers Materials The keyword material denoting material data is an optional but highly recommended input data type Up to 128 materials are allowed On the keyword line are the variables nmats 1 to 128 and data_type 0 means the material data is cell centered and 1 means the material data is node centered The next line of data is the eight character names given to the nmats materials Finally the last line of material data is the cell or node centered material ids this is an integer array Material data is necessary if surface polygons exist Up to two material keywords can be entered one for cells and one for nodes However both keywords must contain the same material names in the same order Material data can be used to distinguish between different classes of cell or node data besides the normal engineering material definitions For example the material data can be density layers for an ocean model horizons in seismic data or rock layers in a reservoir
58. es by the current field value click on the Node Field button To select a different field click on the New Field button to pop up the Node Field Selection menu see Fig 3 2 To color the node by the current flag type click on the Flag button To change the current flag i Close Apply Hodes Humbers Color By Haterials Hode Field pressure New Field AjPiag POTG Pire Plag Groups J Show nodes with 0 material no Vectors Select Figure 3 1 Nodes menu c1ose Apply Active Fields X component U NONE density Jvenergy wr pressure New Field Y component NONE NONE New Field Z component W NONE New Field Figure 3 3 Build Vector submenu ivtemp Jvesquared Jw vartvisce Figure 3 2 Node Field Selection Menu type click on the New Flag button and select a flag type from the Flag Selection menu Nodes can also be colored by groups if entered If group color is selected only those nodes that are in a group are displayed Only one of material node fields flags or groups may be selected at a time When a node field is selected to color the nodes a color bar scale will appear on the far left of the main viewer that gives you the range of values in relation to the color bar To see any nodes that have a 0 material number or not in a group press the Show nodes with 0 material nos button Any nodes with
59. es menu Node Field Selection menu Build Vector submenu Node Select submenu Node Materials and Flags submenu Node Field Data Range submenu Node Search Sphere submenu Node Number submenu Node Search Box submenu Cells menu Cell Color By submenu Cell Materials and Flags submenu Cell Explode submenu Polygons menu Polygon Subset submenu Material Order submenu Tracers menu Tracer Select menu Surface menu Average menu Cutline Selection menu Create cutline menu Main Cutplanes menu Cutplane menu Cutplane Options menu Field Calc Selection menu Field Calc Build menu Grid Analysis menu 4 10 4 11 4 12 4 13 4 14 4 15 5 1 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 5 14 5 15 5 16 6 1 6 2 6 3 6 4 6 5 6 6 6 7 7 1 7 3 7 4 7 5 10 1 11 1 Material lsosurface menu lsosurface demo Field Isosurface menu lsovolume menu Query Data menu Get Node by Field Value menu Animation menu Cutplane Animation submenu Fade Animation submenu Explode Animation submenu lsosurface Animation submenu Cutsphere Animation submenu Flight Animation menu Bounding Box menu Center menu Center on node menu Clip slider controls Color Bar Materials Isosurfaces Isovolume color edit menu Field Colomap Selection menu Background Color menu Contour Levels menu Data Limits menu Interactivity menu Light Control menu Line Width menu Point Size menu Plot Box menu Scale Axes menu Subset menu
60. eywords are used to identify its tyoe The data on the file can be either formatted ASCII or IEEE unformatted but not both Keywords are italicized and data names are in boldface Example names for variables or flags are in double quotation marks A description of the input line follows the data names or keywords Only gmvinput the file type node data cell or face data and endgmv are required everything else is optional however except for material and velocity keywords each keyword may be used only once For example a second variable list is not allowed For IEEE unformatted files keywords must be written as eight character words gmvinput file_type The first line identifies the file as a GMV input file with the file_type being either ascii ieee or ieeei4r8 nodes nnodes Node points and number of points x nnodes Float x coordinates y nnodes Float y coordinates z nnodes Float z coordinates OR for a structured regular brick mesh nodes 1 nxv nyv nzv Dimensions of structured regular brick mesh x nxv Float x coordinates y nyv Float y coordinates z nzv Float z coordinates OR for a logically rectangular brick mesh nodes 2 nxv nyv nzv x nxv nyv nzv Float x coordinates y nxv nyv nzv Float y coordinates z nxv nyv nzv Float z coordinates nodev nnodes Node points and number of points Instead of nodes x 1 y 1 z 1 Float firs
61. features of an object by stretching it in certain directions Changing the scale factors for the axes is done using the axes scaling tool To open the window choose Scale Axes from the menu A submenu similar to Fig 6 7 appears There are three boxes in the window each containing a scale factor for a particular axis The first time the submenu is opened you will notice that all the scale factors are set to one default setting To change a scale factor for an axis click on the box for that axis Enter the new scale factor and click on Apply button in the lower left corner of the submenu GMV will redraw the object in the main viewer on the newly rescaled axes To close the window click on the Close button Figure 6 7 Scale Axes menu The Ctl 3 Controls 3 Menu Subset Subset is in the Ctl 3 menu A subset is a portion of all the available data A subset box may be defined in GMV so that nodes cells tracers or polygons within that box are shown To define a subset choose the Subset option from the menu A submenu will appear on the right Choose either Nodes Cells and Tracers or Polygons depending on the type of objects being manipulated Figure 7 1 Subset menu Nodes cells and tracers When this option is selected a submenu similar to Fig 7 1 appears There are six slider bars a minimum and maximum slider for each axis The minimum and maximum values for each axis are used to create a box that
62. field limits for will be displayed The original limits are the minimum and maximum value for the field as read from the input file By default the current limits are set to the original ones This ensures that the spectrum of color covers all the available data evenly To change the current values click on the minimum or maximum current value box and enter the new limit For the new limits to take effect click on Apply in the lower left corner of the submenu The Use Nice Intervals button changes the limits of the field and choses a nice set of intervals for the color bar and contours The Display as Logs button displays the log of the data and generates a log scale An error will occur for logs if the data minimum is zero or negative To change the current limits back to the original ones en Gi Close Field pressure Hew Field Hinimun Haximumn Original 1505320 1543550 Current 1505320 1543550 Apply Change JH Use Nice Intervals jDisplay As Log Reset Reset All Auto Reset Auto Reset All Figure 6 1 Data Limits menu click on Reset To change the current limits for all fields for the selected type nodes or cells back to original limits click on the Reset All button The Auto Reset button is used with the Auto Read input options and with the Put Attributes options to automatically reset the field data limits to those on the current input file Remember that the data limits that have
63. for display and reference purposes within GMV Enter nsurface integers Element groups The groups keyword is used to denote the beginning sets of arbitrary elements A group is a named set of nodes cells faces or surfaces Up to 1000 10 15 different groups per type are allowed and each group is named by the user The endgrp keyword is used to end group input Each group is defined by an eight character name the element type node cell face or surface the number of elements in the group and the list of element numbers Comments The comments keyword means that ascii comments follow The endcomm string ends the comments Be sure that there is a blank before and after endcomm Codename codever simdate The codename codever and simdate keywords allows the name and version of the code as well as the date the simulation generated the file to be added to the file for identification purposes These keywords can be placed before the nodes keyword Reading some GMV data from a different file Certain GMV keywords and their data can be read in from a different GMV input file These keywords are nodes cells faces material flags polygons nodeids cellids and faceids The format for all the keywords is similar to the following nodes fromfile tilename This syntax is used within the scope of the current GMV file to instruct GMV that keyword data is located in a fromfile specified by filename Filename is a user supplie
64. for each field variable Up to 40 different field variables are allowed Each tracer field data variable contains an eight character variable name followed by a floating point data array The endtrace string terminates the tracer data Traceids The keyword traceids indicates that an optional list of alternate tracer id numbers follows These alternate id numbers are used for display and reference purposes within GMV Enter ntracer integers Problem Time The probtime keyword is followed by a floating point number that represents the simulation problem time This value is displayed at the top right corner of the main viewer Cycle Number The cycleno keyword is followed by an integer number that represents the familiar cycle number This value is displayed at the top left corner of the main viewer Surface The surface keyword indicates the beginning of polygonal facet descriptions of surfaces The variable nsurface on this line is the number of facet 10 14 descriptors that follow There are nsurface descriptor lines that contain the number of vertices in the facet and the nodes that define the facet Surface materials The keyword surfmats denoting surface material data is an optional but highly recommended input data type Up to 128 materials are allowed After the keyword line of surface material data is the surface facet centered material ids this is an integer array Surface velocities The keyword surfvel indicates that o
65. have the same file name prefix and must have a 3 or 4 digit number as the file name suffix GMV will only read history files that exist in the directory of the current GMV file and will continue to read the files until there are no more files to be read or until 250 files have been read Once a set of history files are read GMV will not read any more trace histories until another GMV input file is read using the Read GMV option of the File menu Figure 3 18 Tracer Select submenu Surfaces Surfaces are sets of facets defined by mesh nodes at their vertices in the input file Surface facets can have their own material numbers flags velocities and field data Viewing surface faces edges and numbers Choosing the Surfaces option under the Display menu brings up the Surfaces menu Fig 3 19 Here you may choose which aspects of the surfaces you wish to view The Faces option displays the surface facet as an interpolated blended color polygon where the colors are based on the selected surface or node field If the surface face is colored by a node field the Contours option under Faces displays contour lines on the faces The contour lines are drawn at the intervals shown on the surfaces Color Bar The Shaded option under Faces turns on the lighting model and shades the facets The Refine option available only when the surface facets are colored by a node field adds interpolated points at the facet center an
66. he top as to which drawing mode nodes cells cutplane tracers and which field it currently 36 5 represents such as i e speed pressure or temperature 41 32 Turning on Click on the color bar option and a submenu will appear on the right Two basic operations can be performed in the 27 5 submenu turning the color bar on or off and stating a field preference Click on the On box to toggle the color bar on or off 53 Preferences It is possible for several different color bar fields to be 18 5 active simultaneously For example you may want to superimpose the tracers on a color contour plot of speed along a cutplane GMV rr displays only one color bar at a time therefore GMV must decide which one to display This is the purpose of the color bar preferences option Underneath the on off box is the word 95 Preferences with a small triangle next to it Click on the word Preferences A second submenu appears This submenu has five options in it None Nodes Tracers Cells and Cutplane 5 The box next to the currently active preference will be highlighted Figure 5 12 To select a preference click on its corresponding box The default preference is None When no preference is given GMV uses a predetermined order of precedence This precedence is the same as the order in the menu with the low precedence given to the first entry after None When a preference other than none is selected GMV then makes the select
67. here To remove the plane from the screen click on the Delete button next to the Add button The cutplane will be color coded according to the current node field or cell field which is displayed on the right side of the window In Fig 4 4 the field pressure happens to be chosen This is how color contour plots of data along cutplanes are generated To change fields click on the New Field button to pop up either the Node Field Selection menu or the Cell Field Selection menu The Apply Field Change button updates the existing cutplane s to display the new field information If multiple cutplanes have been defined this operation applies the new field to all cutplanes Cutplanes may also be temporarily disabled on an individual basis by choosing the particular cutplane from the menu shown in Fig 4 4 then toggling the On button to make the cutplane invisible Adding a cutplane the easy way There is a much easier method of adding a cutplane that does not require you to specify three points This method is called the 2 Points method and its toggle button is located in the upper left corner of the window Using this function a cutplane is defined by clicking the mouse on two points on the screen The cutplane created by this action goes through the two points and is always normal to the screen To define points first click on the toggle button and move the mouse to the main viewer The mouse arrow will change into crosshair
68. houses the subset To change the size of the subset box drag the sliders back and forth until satisfied with the size of the subset box Click the Apply button and all nodes and tracers outside the subset box will disappear leaving only that data inside the box Cells whose cell centers are outside the box will not be drawn Click on the Reset button to reset the subset box To close the window click on Close Polygons Choosing the polygons option from the Subset submenu brings up the same polygon subset submenu explained on page 3 10 Texture smoothing The Texture Smoothing option in the Ctl 3 menu enables the use of a texture map to more accurately display smooth color gradients when viewing node field data on cell faces surface faces isosurfaces isovolumes cutplanes ee 7 Figure 7 2 Title menu cell edges and surface edges Texture smoothing may be slower on some graphics boards but the colors are more accurate Texture smoothing solves the problem of bad color interpolation when minimum and maximum data values exist in a single face Time A GMV data file may contain a time index Having the time index on the screen is useful for simulations The Time button in the Ctl 3 menu is used to toggle the time display on and off When the time is displayed it is in the upper right corner of the main viewer If the input file contains no time data GMV will display a zero Title A top and or bottom ti
69. ility The attribute file may be retrieved later by invoking the Get Attributes option under the File menu Take note that when a set of attributes is saved and then immediately retrieved the name of the attribute file will not show up in the Get Attributes list of files until the Filter button is clicked updating the file list Save qmvrc Save gmvrc will save a gmvrc file in the directory where GMV was started The current generic display options will be saved in gmvrc Snapshot Snapshot is a tool that can create image files of the currently displayed GMV data see Fig 2 3 A GMV snapshot can only be two sizes full size and movie size Movie size 720 x 486 is the smaller one and can be used to create a sequence of images for animation There is also an option to create a PostScript file of only lines Display List must be off for PS Lines Snapshot images are always saved in the SGI RGB format There are many freeware utilities available to convert to other formats After the Snapshot option has been chosen a small window will appear Full Size and PS Lines options appear Choose one The radio button ee gt next to the currently selected snapshot size will be yellow When all is ready click on Snap and a File Selection Menu will appear Enter a file name and click on the OK button to save the snapshot After the image is stored click on the Close button and continue work The snapshot File will be s
70. imation sequence may be paused at any time during its run by clicking on the Pause button When paused the animation sequence may be stepped through one frame at a time by clicking on the Prev and Next buttons located at the bottom of the menu You may jump to a specific frame by entering its number in the box with the Go To Frame button next to it and clicking on that button To resume the animation where you left off click on the Resume button Number of animation frames In the upper left corner of the Animation menu is a box labeled Frames Enter the number of frames the sequence should contain Thirty is the default approximately one second of animation on video The more frames there are the smoother the animation sequence Rotation The object in the main viewer can be rotated during the animation sequence by specifying an angular distance in degrees for the object to move In the left center of the animation window are six boxes with the heading Rotation The top row of three boxes is labeled Begin and the bottom row of boxes is labeled End By specifying beginning and ending angles in the appropriate boxes the object can be rotated about any axis relative to the current view angles For example if you want to begin at 90 degrees of rotation and end at 180 degrees then enter 90 in the top and 180 in the bottom of the X rotation column This would rotate the object in the main viewer about an axis going through
71. ine option available only when the cell faces are colored by a node field adds an interpolated point at the face center to provide a smoother color change across the face When the Test Normals option is selected cells with inward pointing normals will be drawn in black outward face normals using the righthand rule is the standard The Edges option displays the edges of the cells as a colored wireframe image The Median Mesh Edges option generates and displays median mesh edges If both Faces and Edges are selected the edges are colored grey If both Edges and Median Mesh Edges are selected cell edges are drawn in black If Faces Edges and Median Mesh Edges are selected the median mesh is drawn in white The Cell Numbers option draws the cell number at the center of the cell in the edge color for the cell while the Node Numbers option draws the cell s node numbers in the text color and the Face Numbers option draws the cell s face Close Apply l Faces Contours J Shaded _ Refine Test Normals Edges _jCell Numbers _jNode Numbers _jFace Numbers Color By _ Show cells with 0 material no fait Gechors Pue Yepeti dpi g Figure 3 10 Cells menu 3 7 Hedian Mesh Edges numbers in the text color Cell faces edges and numbers may be displayed simultaneously Simply click on the box next to the desired option just as is done in the Nodes menu Click on the Apply
72. inetype regular pointsize 2 pointshape round ncontours 10 xreflect off yreflect off zreflect off xscaleaxis 1 000000 yscaleaxis 1 000000 zscaleaxis 1 000000 boundingbox on boundingboxcoords off background_red 1 000000 background_green 1 000000 background_blue 1 000000 end_gmvrc The File Menu Read GMV file The first option in the File menu is Read GMV File Choose this option and a pull down menu will appear The pull down menu contains three options New Simulation Same Simulation and Auto Read Same Simulation New Simulation The New Simulation option enables GMV to read a file that was generated by a different simulation than the simulation that created the current GMV input file Selecting this option will display the File Selection menu see Fig 1 10 to select the next input file Then the current custom menus will be destroyed while new custom menus for the data on this input file will be created The first image will display either nodes cells or polygons following the rules used when GMV is started see Chapter 1 Only the view angles magnification and material colors will be the same as the last image from the previous GMV file The 3 D plot box the subset ranges and the field data ranges will all be reset to reflect the data in the new GMV file Same Simulation The Same Simulation option allows GMV to read a file that was generated as a different time step from the same simulation as the simulation
73. input file in the smallest possible volume To change the dimensions of the plot box use the Plot Box option found in the Controls 2 menu Click on the Plot Box button to open the menu A menu labeled Set Plot Box will appear see Fig 6 6 There are boxes to define minimum and maximum values on each axis such that any length width or height plot box can be created To change a value click on the appropriate box and enter a new number To cause the new box dimensions to take effect click on Apply Changing the dimensions of the plot box also affects the location of the center The center will automatically change to correspond to the center of the plotbox X min 39 05301 X max 139 0530 min 38 76858 Y max 138 7886 Zz min 39 56654 Z max 139 5665 Close Figure 6 6 Plot Box menu 6 4 but not necessarily the center of the object which is default To return the center to the middle of the new plot box open the center tool under Controls 1 menu and click on Auto Center in the submenu Click on Close when modifications to the plotbox are complete Use plot box when generating time sequence animations with moving objects Set the plot box to the simulation minimum and maximum X Y and Z values so that the objects move across the screen Scale axes Scale Axes is under the Control 2 menu Normally all the axes in GMV are on an equal scale It may become necessary to exaggerate certain
74. ion the highest priority Color bar Color Edit The Color Edit option is located under Controls 1 main menu control bar Three options are available Materials Isosurfaces Isovolume Field Data Colormap and Background ee ia Color Materials lsosurfaces yet Color Isovolume Select the Set Color Materials Ilsosurfaces Set Default Isovolume option and the menu Fig 5 13 appears The square in the center of the left side of the menu contains the current color The current color can be changed in several ways First change it by using the red green and blue color slider bars located at the bottom left of the menu Any color can be created using a combination of these colors The current color s transparency can also be changed with the transparency slider bar at the bottom of the menu A transparency value of one is no transparency and a value of zero is transparent Secondly there are six predefined color buttons at the upper left of the menu labeled Copper Steel Aluminum Lead Gold and H E Clicking on any one of these changes the current color square to resemble those particular materials For example the Steel button changes the current color to a grey steel like color The third way to change the current color is to click on the Haterials L Se RE amp a ce ow ia d i Figure 5 13 Materials lsosurfaces Isovolume color edit menu
75. irs anywhere on the cutplane The value at that point will then be displayed along with the current field name to the right of the Value button Node Field Cell Field or Material The Node Field Cell Field Node Material or Cell Material toggle buttons select which type of data to be used to color the new cutplane In the ee 7 Cutplane Llose I clip on Field Subset 2 Points Jtlip on Cell Select Define cut plane using 3 points Add Delete On Sptions Figure 4 5 Cutplane menu case of the modification of existing cutplanes these toggles allow changing the current data used to color the cutplanes New Field The New Field button under both of the Node Field and Cell Field selectors allows the specification of the particular data field desired when node or cell data is selected This feature may also be used to modify the field used on an existing cutplane Apply Field Change The Apply Field Change button updates the defined cutplane s with any changes made to the field or material configuration If multiple cutplanes are defined field or material changes will be applied simultaneously to all cutplanes Cutplane Selection Buttons The last five buttons in the Main Cutplanes Menu allow the selection of particular cutplanes When a new cutplane is added the uppermost unused toggle is selected to define the cutplane and specify its location The selection of an unused toggle generates a menu
76. isplay of a volume with surfaces of which are interpolated between the selected minimum and maximum field values The selection of this option creates the menu shown in Fig 4 13 This menu lists the current active field and the minimum and maximum values of this field To add an isovolume enter the value for the minimum and maximum surfaces in the Isovolume Range areas then select ee 445 Add The isovolume may be toggled on and off using the On button The Clip on Field and Cell Selection functions behave similarly to the same buttons described for the Isosurfaces menu The isovolume surface can also be colored using node field values as described for isosurfaces Query Data The Query Data option of the Calculate menu makes it easy to find information about any cell or node in the grid Query Data also has facilities to interactively probe the image for a node or cell number There is a function to obtain node numbers by node field value Getting node and cell values Choose the Query Data option from the Calculate main menu bar and a menu similar to Fig 4 14 will appear The menu has two main parts The left side displays information about a selected node and the right side has information about a selected cell To list all the data associated with a specific node enter the number of the node in question in the box labeled Node and click on the Get Values button All of the available information about the spe
77. l for greater clarity The slider bar moves each point on the cutplane away from the plane according to its value as indicated by its color For example the red areas which are the most intense move away from the plane the greatest distance while the blue areas move the least To activate the Height feature click on the toggle button on the lower left corner of the Cutplane menu Now drag the slider up and down to adjust the height of the plane Zero height is in the middle of the slider track Distance Next to the Height slider bar in the Cutplane Options window is a slider bar labeled Dist Next to the slider are boxes labeled Node Vect Nodes Node Nos Cell Vect Cells and Cell Nos When the slider bar is at the bottom there are two infinite planes parallel to and on the surface of the cutplane one on each side As the slider is dragged up these planes move away from the cutplane in opposite directions while still remaining parallel to the cutplane If a node or a cell center lies between the two infinite planes its corresponding point vector or number is displayed This is the basis behind the cutplane distance function GMV will display nodes node numbers node vectors if any cells cell numbers cell vectors if any or all as the distance is adjusted depending on which option boxes are highlighted Adding a cutplane to the main viewer the manual way A cutplane is created by specifying the three no
78. ll appear to the right of the box When finished choosing things to fade click on Close to remove the submenu from view The toggle button in the animation submenu will remain on indicating that fading will be included in the next animation To turn off Fade toggle all of the material and isosurfaces in the fade submenu off Now when the window is closed the fade option will also be toggled off Exploding cells or polygons during animation You can explode polygons and cells during an animation sequence Toggle the button labeled Explode in the animation menu A submenu similar to Fig 5 4 will appear With the two slider bars at the top adjust the beginning and ending explode percentages Next choose polygons and or cells to explode The beginning and ending explode percentages will appear to the right of whatever was chosen to explode during the animation For cell explode choose material or the flag to separate the cells Click on Apply to activate your choices After choosing the various options click on Close to remove the submenu from view The End 3 n Explode toggle button in the animation menu will remain on until both Polygons and Cells are toggled off in the explode window teells JIPolygons Snapshot Explode cells on Each frame of an Mat No animation sequence can automatically be saved using the snapshot function in the animation menu Highlight the Figure 5 4 Explode Snapshot
79. model Material data input may also be performed by consulting a remote file see the fromfile description below but only if the remote file contains only one material keyword Velocities The keyword velocity indicates that optional velocity data follows Again the data_type value of 0 indicates cell centered velocities a value of 1 indicates node centered velocities and a value of 2 indicates face centered velocities The next three lines of data are the u x component v y component ee oia and w z component velocity floating point arrays Cell centered velocities will be averaged and saved as node centered velocities Also speed and kinetic energy variable fields will be automatically generated and added to the end of the input variable fields Face centered velocities can only be entered when faces or vfaces are used to define cells Up to three velocity keywords can be entered one for cells one for nodes and one for faces Variable data fields The variable keyword is used to denote the beginning of any other cell node or face data fields The data are entered as a group for each field variable Up to 250 different field variables are allowed and each field variable is named by the user The endvars keyword is used to end the field data input Each field data variable is defined by two input lines The first line contains the eight character name of the variable and the data_type of the field 0 cell data 1 node d
80. mple setenv XENVIRONMENT Resources 1 1 Faster remote OpenGL rendering Be sure to turn on the Use Display List option under the Controls 3 menu to get faster interactivity with rotation pan and zoom features when running GMV over the network Note the Display List option is on by default 1 2 To save memory with version 2 2 and above turn off the Display List option in the gmvrc file before starting GMV Acknowledgments Special thanks are in order for the following people John D Fowler Jr CIC Division for creating the initial port to OpenGL Harold Trease Manjit Sahota John McGhee Mabel Grey Paul Maudlin for ideas and initial tests Jeff Hinrichs Rebecca Fresquez Kevin Bolling for their contributions in creating this manual Glen Hansen for assisting with the maintenance of GMV and this manual Los Alamos NATIONAL LABORATORY Los Alamos New Mexico 87545
81. n about nodes and their materials and flags cell field range search sphere cell number s search box and cell groups Additionally materials can en g be selected or removed interactively from the screen The Materials and Flags selection menu includes the Select Material From Screen and Remove Material From Screen toggle buttons see Fig 3 12 Clicking on the Select Material From Screen button will turn off all the material buttons and a crosshair cursor will appear on the display Click the left mouse button on a cell in the display and the material button for which the cell is part of will be turned on Clicking on the Remove Material From Screen button will display a crosshair cursor Click the left mouse button on a cell to turn off its material button As before press the Apply button to display the selected cells Cells can also be selected by a node field range for the nodes that define the cells The Cell Node Field Range menu contains two additional buttons the Any and the All toggle buttons The Any button will select a cell if any of its nodes fall between the node range valued If you want to select cells with all nodes falling between the node field range click on the All button If face groups are selected only selected faces are drawn Explode Explode allows you to separate groups of cells based on material or flag data Clicking on Explode pops up the Cell Explode submenu see Fig 3 1
82. n and Voronoi mesh The Median mesh options generate the median mesh edges and faces as selected The Voronoi mesh option generates voronoi mesh edges and faces for tetrahedaral meshes only lsosurfaces An isosurface is the surface in space where a selected field is always a particular value For example the isosurface where the voltage around a charged particle is constant would be a spherical shell lsosurfaces for any field in a GMV input file can be generated using this tool see Figs 4 9 and 4 11 Adding a material isosurface GMV can generate an isosurface from node material data Because of the noncontinuous nature of material data there is a special method for drawing these surfaces Even if the material data is cell centered each node is assigned a ee 4 0 Figure 4 10 Isosurface demo material number Click on Calculate Close from the main menu bar Click on f Isosurfaces A submenu with two Be on Field subset options will appear to the right Choose aclip on Cell Selection Materials to bring up the Material Isosurfaces menu see Fig 4 11 To add a material isosurface first adjust the a material fraction Mat Frac slider bar Hat Frac 500 above the list of materials The material 43 E 1 J fraction tells GMV how far between Add Delf ayer differing materials to draw the surface Add Del Ravens For example take a rectangle with four Add Del layer4 nodes Two of the nodes
83. n the New Size text boxes and press the Apply Change button to make ee 7 3 the change Press the Reset button to return to the default size Zoom Rubberband Select the Zoom Rubberband from Ctl 3 and the Zoom Rubberband menu fig 7 5 appears Use this menu to Zoom in to a user selected area in the image To select the are to zoom into press the Draw Zoom Box button A crosshair will appear on the display window Use the mouse to move the crosshair to one corner of the box where you want to zoom into Press and hold the left mouse button and move the mouse until the desired zoom box is drawn If the zoom box is not in the proper location press the Undo Zoom Box button to erase the box then press the Draw Zoom Box button to draw another box Press the Apply Zoom button to zoom in Figure 7 5 Rubberband on the box At this time the image will be Zoom menu magnified such that the largest edge of the zoom box will fill the drawing window Also the pan will be set to the center of the zoom box and the rotational center will be set to the center of projection of the center of the box The current zoom values can be saved by clicking the Save Zoom button The Return to Saved Zoom button will set the zoom values to those saved with Save Zoom Clicking on the Return to Original button will return the image to a magnification of 1 and to original pan and center values The Reflections Menu X
84. ncollinear points needed to define a plane somewhere in space Choose the Cutplane option from the Calculate main menu bar and a menu similar to Fig 4 4 will appear This menu allows the selection of cutplane creation using a node or cell field the selection of the desired field in each case and the creation of multiple cutplanes To create a cutplane select an unused number from the lower section of the menu in this case 1 This action will create a menu similar to Fig 4 5 to allow the definition of the desired cutplane Somewhat to the left of this menu and in the center are nine boxes three rows of three each Each row defines a point Enter numbers in the boxes by clicking on the appropriate box and typing in the number Pressing the tab key will highlight the next box in sequence so that all of the boxes will eventually be filled with numbers Each row is a point not each column When you are satisfied with the points defined you must choose how to color the cutplane You can choose either node or cell field values in the first menu Fig 4 4 If you choose Node Field then each cell will be colored according to its nodes and node field values If you choose Cell Field then each cell will be colored one solid color according to its cell field value When you have made your choice click on the Add button below the data boxes If the plane defined by the given points intersects the mesh in any place GMV will draw a plane t
85. ng end of group data comments Keyword indicating that ASCII comments follow endcomm Keyword indicating end of comments codename anyname The name of the code that generated the file where anyname is the eight character name of the code codever version The version of the code that generated the file where version is the eight character version of the code simdate date The date the file was generated where date is in the form mm dd yy endgmv Keyword signifying the end of the input file Input Data Details Header The header line contains the gmvinput keyword and the character variable file_type which contains either ascii ieee or ieeei4r8 The ASCII file type indicates that the file was written as a formatted ASCII file the file will be read using list directed I O so there must be at least one space between data elements The IEEE file type indicates the file was written as an unformatted file with IEEE single precision floating point character and 32 bit integers IEEEI4R8 indicates that all floating point data is double precision When writing IEEE binary files be sure that all Keywords and character data must be eight characters long Nodes The nodes keyword describes the beginning of cell node data points and the variable nnodes on this line are the number of nodes i e the length of the node data arrays that follow The next three lines are the three floating point arrays tha
86. ntersect with the mesh data in the main viewer Cutplanes are useful for generating color ee 4 3 contour plots of data for detailed analysis Main Cutplanes Menu The Main Cutplanes Menu is accessible by choosing the Cutplane option from the Calculate main menu bar This menu shown in Fig 4 4 contains several buttons that allow the specification of how a field is interpolated by a cutplane Descending the menu the first button allows the retrieval of a field value from an arbitrary location on a cutplane The next set of buttons allow the selection of creating the cutplane based on node or cell data and the particular field dataset to be used in each case In addition to the ability to select nodes or cells for the desired field data type to display this menu allows the modification and update of field variables displayed on existing cutplane s in this case changes affect all active cutplanes simultaneously This menu allows the selection of particular cutplanes with the use of the toggle buttons in the lower portion of the menu Figure 4 4 Main Cutplanes menu Value The Value button is located in the upper left corner of the Cutplane menu The Value button can be used to determine the contour value at any point along the cutplane To determine a contour value first click on the Value button Move the mouse pointer to the main viewer at which point it will change into crosshairs Click the crossha
87. odes by a node field data range click on the Node Field Data Range button and the Node Field Data Range menu appears see Fig 3 6 Select a field to operate on by 609 593994 Figure 3 6 Node Field Data Range submenu ee 3 Close Apply J Select On Inside Outside Figure 3 7 Node Search Sphere submenu clicking the New Field button to pop up the Node Field Selection menu The minimum and maximum values of the field will then be displayed Then enter your minimum and maximum data range for node selection in the text fields Click on the Reset button to reset the field minimum and maximum values in the text field Selecting nodes by Search Sphere To select nodes within or outside a user defined search sphere click on the Search Sphere button and the Node Search Sphere menu appears see Fig 3 7 To define the search sphere enter the x y and z coordinates of the center of the sphere and the sphere s radius Toggle the Inside and Outside buttons to select nodes in those regions Selecting nodes by Number s To select nodes by numbers or a range of numbers click on the Node Numbers button and the Node Numbers menu pops up see Fig 3 8 The menu contains 50 lines where individual node numbers a range of node numbers or a range of node numbers with a stride can be entered one entry per line A colon is used as the delimiter when defining a range of numbers or
88. of vertices x nverts x coordinate of polygon vertices y nverts y coordinate of polygon vertices z nverts z coordinate of polygon vertices This data is repeated for all polygons endpoly Keyword to indicate end of polygon data tracers ntracers Tracer points and the number of tracers input x ntracers Float x coordinates y ntracers Float y coordinates z ntracers Float z coordinates Followed by trace data of the form anyname An eight character name for the data data ntracers array of float data Examples temp temp_data ntracers pressure pressure_data ntracers endtrace Keyword indicating end of variable data traceids Alternate tracer id numbers for display ids ntracers Integer alternate tracer ids probtime ptime Keyword and floating point problem time value cycleno cycleno Keyword and integer problem cycle number surface nsurfaces Surface facet data and number of facets Followed by nsurfaces lines of nverts Number of vertices per facet vertex_ids Integer list of node numbers that define the polygonal facet surfmats Surface material data matids nsurfaces Integer material ids for surface facets Note surface data must be input before surfmats surfvel Surface velocity data u nsurfaces v nsurfaces w nsurfaces 10 7 Note surface data must be input before surfvel surfvars Keyword indic
89. option to the left of the Animation submenu Start button When this box is highlighted GMV will save each frame of the animation sequence in its own file All of the files from the same animation will have the same prefix When the Start button is pressed a File Selection Menu will appear enter the file prefix and click the OK button GMV will append the frame number of that particular snapshot to the file prefix For example snapfile007 indicates that the file contains the seventh frame of the sequence The animation snapshots are created in movie size 720x486 so they can be combined with time sequence images to create movies Note the Pause button is not active while saving snapshots Quick look The Quick Look option tells GMV whether or not to use the current interactivity setting during the animation The interactivity can be adjusted with the slider bar on the right of the main GMV window labeled Int Without Quick Look selected the animation will be carried out with all objects drawn This option can speed things up especially when many objects are drawn Isosurface animation lsosurfaces may be added to an animation sequence by toggling the Isosurface button in the Animation menu A submenu similar to Fig 5 5 will appear The first two radio buttons turn the isosurface animation on or off Click On Underneath the on and off buttons is the current field from which isosurfaces can be calculated Click on
90. or Cubpiare Node Field 2 2 Nodes 2 cells pressure Hew Field 0 x Z Jesii Piedei f Fi pir beh d a i a aa See Define cut line using 2 unique points 0 0195 Search Radius J _ Hodes fdd Delete J n Close _ HMos Aid Delete Llose nodes in cutline 1 Figure 4 2 Cutline Selection menu Mew Pio dil _j Have Figure 4 3 Create cutline menu click the left mouse button A line will be generated normal to the screen with endpoints at the plot box intersections with the line The third method of defining the line is with the 2 points on Cutplane option If a current cutplane exists select the 2 points on a Cutplane option and move the cursor to the main viewer Move the crosshair to a point on the cutplane and click the left mouse button then move to the second point on the cutplane and click the left mouse button A line will be defined where lines normal to the screen from the selected points intersect the cutline It is possible to select the 2 points on a Cutplane option when multiple cutplanes are defined To avoid ambiguity all cutplanes other than the desired one should be disabled prior to creating the cutline with this option Press the 2 Nodes or 2 Cells buttons to display a menu where tow node or cell numbers can be entered Click the Apply button and the coordinates of the nodes or cell centers will fill in the two point values When the cutline has been defined enter
91. or cell for display purposes The names for the flags and for the flag types are placed in selection buttons ina menu The integer data must be a number between 1 and ntypes 1 to 128 The endflag string ends the flag data Flag data input may also be performed by consulting a remote file see the fromfile description below ee 1013 Polygons The polygons keyword indicates that surface polygons data follows The surface polygons can be interface or boundary polygons for a material Each line describes one polygon The line contains the material number 1 to nmats associated with the polygon the number of vertices in the polygon and the x y z arrays that define the vertices for the polygon The endpoly string terminates the polygon data The polygons keyword can be used to describe any surface a simulation can generate Be sure to give each surface a material number and that this material number has a material name listed under the materials keyword Polygon data input may also be performed by consulting a remote file see the fromfile description below Tracers The tracers keyword indicates that tracer particle data or any point data other than node data follow The ntracers variable following the keyword is the number of tracers that are input The next three lines are the x y and z floating point coordinates of the tracers Following the coordinates are the variable data fields for the tracers The data is entered as a group
92. possible The Auto Center button is used to automatically center within the objects that are currently drawn Click on Auto Center and see the sliders move to their new locations To close the Center window click on Close in the lower left corner Auto Center is also used to center the current image Center on node or cell Click on the Center on node button and the menu Fig 5 10 appears Enter a node number or click on the Get Node No From Screen toggle to set the node number with a probe Then click on the Apply button to set the center on the node The Center on Cell option works in the same manner as Center on Node The clip option in the Controls 1 menu controls the front and back clip planes When selected the Clip menu appears see Fig 5 11 Dragging the Frontclip slider to the right causes the image to be erased from front to back by a plane parallel to the screen The backclip erases the image from back to front Figure 5 11 Clip slider controls 5 11 Cutplane Color Bar sinter The color bar option is in the Controls 1 menu When gt present the color bar see Fig 5 12 is a colored scale on the far left side of the main viewer It proceeds from blue at the low end to 45 5 red on the high end and all the other colors of the spectrum in between There are numbered tick marks down the right side of the bar These marks tell you what each color represents numerically The color bar will be labeled on t
93. ptional surface velocity data follows The next three lines of data are the u x component v y component and w z component surface velocity floating point arrays Speed and kinetic energy variable fields will be automatically generated and added to the end of the surface input variable fields Surface variable data fields The surfvars keyword is used to denote the beginning of any other surface data fields The data are entered as a group for each field variable Up to 100 different field variables are allowed and each field variable is named by the user The endsvars keyword is used to end the field data input Each field data variable is defined by two input lines The first line contains the eight character name of the variable The second line is the floating point array for the surface data Surface Selection Flags The surfflag keyword means that integer selection flag data sets follow Up to 10 different types of selection flags and up to 128 different flag values per flag are allowed These data sets can be any type of integer data that can be used to select a node or cell for display purposes The names for the flags and for the flag types are placed in selection buttons ina menu The integer data must be a number between 1 and ntypes 1 to 128 The endsflag string ends the surface flag data Surfids The keyword surfids indicates that an optional list of alternate surface id numbers follows These alternate id numbers are used
94. r depending on whether or not the axes are currently showing Turning off the axes in the main viewer will have no effect on the axes orientation view box located in the upper right corner Beep Sound Beep Sound toggles the GMV beep sound on off Bounding Box The bounding box is a six faced volume that encloses data in the main viewer It can be turned on or off By default the box is set to be the smallest volume that will enclose all of the data in the main viewer However the size of the bounding box can be changed using the Bounding Box option A menu similar to en o Fig 5 8 will appear To turn on the bounding box click on the box labeled On in the lower left corner Next to the On button for the bounding box is the Show Coordinates button This toggle button allows you to turn the coordinates on or off depending on your preference The length width and height of the bounding box are colored red green and blue respectively Next to the point where the three colored lines meet are the coordinates for this point which is the origin of the bounding box There is only one number on the opposite ends of the colored lines min 4 921500 xmax 4 921500 min 4 921500 ymax J 4 921500 minj 0 08355880 zmax i 13 03190 Jon Show Coordinates Close Figure 5 8 Bounding Box menu Only the coordinate that is different from the origin coordinates is listed here For example on the far end of the
95. racer to represent Selecting tracers to display Display tracer history 3 5 Surfaces Viewing surface faces edges and numbers Coloring surfaces by materials fields and flags Surface vectors Selecting surfaces to display Explode 4 0 The Calculate Menu 4 1 Average Selecting weighting field Selecting a field to Average 4 1 Cutlines Selecting a cutline Creating a cutline Cutline display options Cutline 2D plot 4 2 Cutplanes Main Cutplanes Menu Value PIN gg agg rp ngs ve CD DORE ty apy nee le Ooaoon ehBBhWOOWDHNDNnN __000 E an alan Tes Pell TAR D E STEP AE GEV ieee EA ie ls int ll ss RU i l l BHRWOAWAWNHN A eee ae ee tee ae ae Node or Cell Field New Field Apply Field Change Cutplane Selection Buttons Cutplane Description Menu Clip on Field Subset and Cell Selection Cutplane Options Faces Coutour Lines Edges Height Distance Adding a cutplane to the main viewer Adding a cutplane the easy way 4 3 Cutspheres 4 4 Distance 4 5 Field Calc Selecting a field to build Build calculate the new field 4 6 Grid Analysis Selecting cells by nodes or cell numbers Color By Median and Voronoi mesh 4 7 lsosurfaces Adding a material isosurface Adding a field isosurface Clip on field subset and cell selection Coloring isosurfaces with field values 4 8 lsovolume 4 9 Query Data Getting node and cell values Probing node and cell numbers Getting node numbers by field value 5 0 The Ctl 1 Controls 1 Men
96. raphic drawing would be two parallel lines whereas perspective drawing would have two lines converging on a common point where the road is no longer visible the vanishing point Flight The Flight option is not really a special projection rather a combination of the perspective view with special zooming in capability that flies through the objects When the flight mode is engaged large red green and blue crosshairs will appear on the main viewer These act as an aiming device Mouse buttons operate differently in flight mode The movements in flight mode simulate being in a helicopter The left mouse button controls heading and pitch Holding the left mouse button and moving left and right changes the heading where 0 degrees is parallel to the positive x axis Moving up and down with the left mouse button pressed changes the pitch angle where 90 degrees is level flight and 0 degrees is straight down Holding the right mouse button and moving up and down moves forward or backwards into and through objects The middle mouse button still allows left right up and down panning with the capability of moving through objects Thus interactive fly throughs of GMV data from any direction are available Stereo Perspective The Stereo Perspective option places a local SGI workstation into full screen stereoscopic mode You will need the Crystal Eyes LCD glasses and emitter or equivalent in order to get the stereoscopic effect When
97. rder click on each material button from the left hand column in the desired order The ee 3 coat Undo Close Materials New Order matOo2 matoo2 Mat OOo6 Figure 3 16 Material Order submenu materials will be listed in the middle column in the proposed order Each material may be chosen only once If you make a mistake in the material ordering process click on Undo This will clear the order listing of materials and allow you to start over When the materials are in the desired order click on Apply and the changes will take effect The new order number will appear on the right hand column Click on Close when finished Tracers Tracers are points in space used for monitoring data in locations where nodes do not exist Tracers are defined by their X Y and Z coordinates and by the data they are assigned by the input file Tracers can be assigned multiple fields of data such as in Fig 3 17 where it reads pressure and temperature data from the input file Methods of displaying tracers Tracers can be represented in four different ways by GMV either as regular points big points numbers or values When the Tracers menu is brought ee 3 5 up from the Display menu bar you will notice four selection boxes under the heading Draw as When the None option is chosen no tracer data will be shown The Regular Points option displays tracer data as colored points whose size is determined by the Point Siz
98. red line only the X coordinate is listed because it is the only one that is different from the origin coordinates With the numbers provided it is easy to determine the size of the object in the main viewer The size of the box is changed by adjusting the six sliders in the menu or by entering the numbers directly There is a slider bar for the minimum and maximum values for each axis As you slide the bar back and forth you will see the box change size The bounding box cannot grow any larger than the 3 D plotting box When finished adjusting the bounding box click on Close to shut the menu Center The centering tool is used to tell GMV where the center of the current object lies The center is important because it determines how GMV rotates the object in the main viewer The values found in this tool also affect any center translation done during an animation To open the Center window choose the option from the menu A submenu similar to Fig 5 9 appears There are three TE Buto Center Center on Sle Center on cell Figure 5 9 Center menu 5 10 Figure 5 10 Center on node menu slider bars labeled X Y and Z respectively Sliding these bars in either direction changes the coordinates of the center of rotation On the right of each slider are numbers corresponding to the current coordinate for that axis These numbers will change as the slider is moved By default GMV calculates the most convenient center coordinates
99. rting sequence number for the snapshot files For example if the RGB File Prefix contains rgbout and the RGB Start No is 50 then the snapshot file names will start with rogout050 This is extremely helpful when a sequence has been interrupted and a restart is necessary Click on the Ready button to start the movie process 4 After you click on Ready GMVMOVIE gets the first file and starts up GMV If everything is correct GMV will make an image in the selected quadrant of the screen and then GMVMOVIE will save it in a file with the rgb file prefix anda three digit sequence number You may do other work on the workstation while GMVMOVIE is running but be careful not to obscure the selected quadrant of the screen If this happens whatever is put there might be captured in one of the snapshot image files 5 The GMVMOVIE utility will output information in the executing window as it proceeds through its process to let you know what it s doing 6 After GMVMOVIE finishes you may look at the snapshot files it created by running the SGI utility movie To run movie type movie rgb file prefix If you type movie msnapgmv z 2 it will fill the entire screen Other useful information If you do not enter enough information then when you select Ready the menu will remain and an error message appears You must select one input mode and have the input file prefix and the attributes file name entered if input is local or
100. s After all of the node and cell selection data has been entered into the appropriate boxes direct GMV to display the requested cells There are two buttons at the top of the menu that accomplish this They are labeled Start New Display and Add to Display If the Start New Display button is used GMV will erase any objects the grid analysis function created beforehand before it draws in the selected cells If the Add to Display button is used GMV will add the newly chosen cells to the display The cell drawing commands in the Grid Analysis menu are the same as those for the Cells display menu with the addition of Node Numbers These drawing commands only apply to nodes and cells selected by grid analysis All other drawing options are still available Note that the Grid Analysis menu is created with the Edges button selected as the default When nodes or cells are specified the default behavior is to draw the cell edges in the display The node numbers of the cells of interest are only displayed when the Edges button is selected As such if node numbering is desired but does not appear as expected ensure that the Edges button is activated To exit grid analysis click on the button labeled Exit in the upper left corner of the menu This action deletes the grid analysis cell drawing and closes the menu Color By Cell faces and edges are colored the same way as in the Cells menu under the Display option Media
101. s Cutplane Options The button labeled BUS ne Veet Options in the cutplane menu INodes pops up the submenu called Cutplane Options In the Node Nos cutplane options submenu Fig 4 6 there are two slider bars IGell Vect and several toggle buttons Icells Cutplane option changes apply E only to the currently selected J ell Nos cutplane Faces One of the toggle switches in the Cutplane Figure 4 6 Cutplane Options menu Options submenu is an option labeled Faces This toggle controls the visibility of the colored polygons that compose the cutplane Turning Faces off allows better visibility of contour lines and edges if these options are selected Contour Lines Below the Faces toggle button is a button labeled Contour Lines When selected this button will draw contour lines in the current text color either black or white depending on the background color on the cutplane corresponding to the same divisions found in the color bar For example if the color has divisions at 5 10 and 15 then GMV will draw contour lines at these intervals Edges If you want GMV to draw the edges of any cells the cutplane intersects click the mouse on the Edges button There is no need to make sure the option is checked before adding the cutplane The edges of the intersected cells will instantly appear Height The Height slider bar allows you to make your cutplane appear three dimensiona
102. s Click with the left mouse button on any two points on the screen After doing so GMV will copy these points into the boxes in the cutplane window as well as fill in the missing coordinates needed to make the plane normal to the screen When the points have been defined click on Add to display the cutplane Cutspheres Cutspheres are like cutplanes except that data is interpolated where the sphere intersects cell edges As in cutplanes there are five cutspheres available and the display options are the same as for cutplanes The menus for cutspheres are similar to those for cutplanes the only difference is in specifying the cutsphere Create a cutsphere by entering the coordinates of the sphere center and specifying a radius Distance The Distance function in the Calculate menu is used for calculating the linear distance between two points along the screen To use the distance function first choose it from the menu As soon as the function is chosen the mouse pointer will change into crosshairs resembling a plus sign when it is in the main viewer Click the crosshairs on one of the two points between which the distance is to be calculated A small grey dot will appear Move the mouse to the other point and click the crosshairs there After both points have been defined GMV will display the distance in the upper portion of the main GMV window to the right of the background color controls Each time a distance is calculated the old n
103. s each used for data entry The first column is labeled Select cells by nodes Here you can give GMV the numbers of a few of the nodes Based on this information GMV will decide which cells are relevant and display them on the screen GMV will display the cell that contains all of the given nodes as vertices Nodes that are not vertices of any cell are ignored by GMV If two or more cells contain the same number of the given nodes GMV will display all of the relevant cells The second column of data boxes is labeled Select cells by number Here you may list the numbers of the cells to view Fill as many boxes as necessary with the relevant cell numbers there is a maximum of eight boxes To view a specific range of cells such as cells numbered from 1 to 50 choose cells by placing the numbers of the first and last cells of the series in the boxes at the bottom Close Exit Start Hewl Add To Display Display Jselect Cells Select Cells i by nodes by number Lj Faces _j Contours l Edges _JHedian Hesh Faces _JHedian Hesh Edges j ow biosi Padne ss Oci oyo Mermi Eicigyee _Hode Numbers _JCell Monbers jcolor By T Haterials Hode Field Pressure Hew Field 7 _JtierE Field PEC YES icra Eda Bek _ ETE EEEE EEO Bou EUI oiy Figure 4 9 Grid Analysis menu 4 11 of the submenu These boxes are labeled Begin and End GMV will show all of the cells in that particular serie
104. s form first to last incremented by the stride The Forward to Latest option looks for the latest existing file within the specified range This option is useful to view the latest complete GMV file as the files are being generated by a simulation code The Backwards option reads files from last to first decremented by the stride In the Search time sec text box enter the time interval GMV will use to search for the next file in the sequence not including the time to read a file To sweep through a series of files as fast as possible use a 1 second interval If you would like snapshots of the first image displayed after the next file is read press the ee oo Auto Snapshots button to display the control menu See below for the description of the Auto Snapshot menu Press the Start button to start reading files Press the Pause button to pause the file search Use Pause when you want to closely inspect the current image or when you want to change the current image While in Pause use the Step Back or Step Next button to view the previous or next image Press the Resume button to continue the file search after a pause The Quit button stops the file search Note that if you change the image during the search subsequent images will use the image attributes of the image you changed Figure 2 2 Auto Snapshots Menu To automatically create a snapshot from each file press the Auto Snapshots button and the Auto Snap
105. s point size in pixels pointshape followed by square or round Sets point shape ncontours followed by a positive integer Sets the number of contour levels xreflect followed by on or off Sets reflection about x axis on off yreflect followed by on or off Sets reflection about y axis on off en 8 zreflect followed by on or off Sets reflection about z axis on off xscaleaxis followed by a positive floating point number Sets the scale factor in the x direction yscaleaxis followed by a positive floating point number Sets the scale factor in the y direction zscaleaxis followed by a positive floating point number Sets the scale factor in the z direction boundingbox followed by on or off Sets bounding box on off boundingboxcoords followed by on or off Sets bounding box coordinates on off background_red followed by a positive floating point number between 0 and 1 Sets the red component of the background color background_green followed by a positive floating point number between 0 and 1 Sets the green component of the background color background_blue followed by a positive floating point number between 0 and 1 Sets the blue component of the background color display_list followed by on or off Sets display list on off trackball followed by on or off Sets the virtual trackball on off beepsound followed by on or off Sets the GMV beep sound on off distscale
106. sed mainly for reference Magnification slider bar The magnification slider bar Fig 1 6 is labeled Mag on the top and has the magnification factor displayed at the bottom 1 00 is default Sliding the bar up and down changes the size of the object in the main viewer The same effect can be accomplished with the right mouse button see The mouse controls The File Selection Menu GMV opens with a File Selection Menu see Fig 1 7 Use this menu to select a file to process Near the top of the window is a box labeled Filter The filter controls what type of files will be displayed in the Files box below For example a filter such as usr people guest inp would display only files in the directory usr people guest that have the extension inp A filter is very useful for sorting GMV input files from the other files in that particular directory Clicking on the Filter button near the bottom of the window activates the current filter Pressing Enter on the keyboard while the mouse pointer is in the filter box has the same effect Filter usr people jeffreyh Directories Files gqnuv draft gmv draft w sav E i qnuv draft txt reyh workspace qmuv test inp reyh WorkSpace gqmuv test2 inp l reyh dumpster gmv test3 inp showcase stuff l pa al p Selection fusr people jeffreyh ie Filter cancel _Help Figure 1 7 The File Selection menu Once the directory with the GMV input fil
107. shots menu appears see Fig 2 2 Enter the file prefix for the rgb files in the File Prefix text area Enter the start of the 4 digit suffix number sequence in Suffix No and the On button to create snapshots when starting or resuming Auto Read Be sure that the drawing window is not obstructed during Auto Snapshots Auto Read Same Simulation Same Cells The Auto Read Same Simulation Same Cells option except that the cell configuration must be the same as the current GMV file New cell face lists and cell edge lists will not be recalculated Figure 2 3 SnapShot menu Put and get attributes Attributes are the collective sum of all the options available in GMV Normally when GMV is first run all of GMV s options are set to their defaults For example the Twist Elevation and Azimuth slider bars are all set to zero and the magnification factor is set to one However suppose you have worked on viewing the object from a certain angle and have created isosurfaces and a cutplane or you want to apply the attributes to a different time step of the same simulation If you want these to reappear the next time you start GMV you can save the attributes in a file and retrieve them later Choosing the Put Attributes option brings up a file selection menu Enter a file name then click OK to save the file The Put Attributes function is necessary in order to create time sequence movies of a simulation See The GMV Movie ut
108. similar to Fig 4 5 for cutplane creation When a cutplane has been specified and created the NONE tag in the main menu next to the selection button changes to ON If the cutplane is subsequently toggled off the ON tag changes to OFF If the cutplane is deleted the tag changes back to NONE Thus it is evident which cutplanes are active and how many have been created in addition to providing the capability to specify a particular cutplane Cutplane Description Menu When a particular cutplane from the lower portion of the main menu is selected the description menu Fig 4 5 is created This menu incorporates the 2 Points selection button and the data fields where cutplane coordinates may be entered as described above Clip on Field Subset and Cell Selection The two Clip toggle buttons found at the top of the Cutplane Options submenu allow you to clip the cutplane according to the subset defined in the subset tool if you choose Clip on Field Subset or according to the subset defined by the Boolean expression created using the Select option in the Cells menu if you choose the Clip on Cell Select When you select one or more of these buttons the cutplane will only be drawn from data within the limits of the subset leaving out everything outside the subset These I Faces buttons must be selected before adding a cutplane in order for them to take effect _lEdges Cuiplane Options I ontour Line
109. speed up the interactive drawing process For example you could invoke GMV with the w option like this gmv w 0 0 500 400 which will start GMV with a 500x400 pixel main viewer instead of the usual 900x700 pixel main viewer Setting the interactivity slider bar to its highest setting is helpful Thus when you manipulate the object in the main viewer less data will display until manipulations are complete To guide you during this process turn on the bounding box as a reference tool It will not disappear during the interactive drawing process as the data does 13 1 6 There are many image conversion utilities available that can convert SGI RGB to other image formats One is called imtools and is available at ftp sdsc edu the San Diego Super Computing Center The compressed tape archive of these utilities is about 11 megabytes The relevant tool included in this package is called imconv This tool can convert files into practically any format from any format Another helpful tool for image conversion is xv The URL for this tool is http www sun com sunsogt catlink xv xv html 7 Material isosurfaces GMV will generate material isosurfaces using node values There must be a change in material values in a cell before isosurface elements can be generated for the cell It may be better for you to generate your own material surfaces and enter them in the polygons list 8 Null material number Nodes or cells with a 0 zero material n
110. t represent the X Y and Z coordinates of the nodes The nodes keyword has three alternate forms The first is used to generate a structured regular brick mesh Entering 1 for the number of nodes signifies this alternate syntax After 1 on the same line are the dimensions of the mesh first the number of nodes along the X axis then the number along Y and the number along the Z axis The three lines that follow contain the X Y and Z coordinates of the nodes along each axis which will be used by GMV to generate the entire mesh Note because GMV uses this information to generate a large mesh of cells the number of cells specified with the cells keyword must be zero The second alternate syntax for the nodes keyword is used to generate a logically rectangular structured mesh Entering 2 for the number on nodes signifies this alternate syntax After 2 and on the same line are the dimensions of the mesh first the number of nodes along the X axis then the number along Y and the number along the Z axis The three lines that follow contain the X Y and Z coordinates of the nodes for all nodes nx ny nz which will be used by GMV to generate the entire mesh Note because GMV uses this information to generate a large mesh of cells the number of cells specified with the cells keyword must be zero For any meshes that are closed you need to repeat the necessary nodes for closure Node data input may also be performed by consulting a remote
111. t x y and z coordinates x 2 y 2 z 2 Float second x y and z coordinates x nnodes y nnodes z nnodes Float last x y and z coordinates ee o A tet cell hex cell 4 bx Y pyramid cell prism cell phex cell phex20 cell Figure 9 1 Cell vertex order 10 2 cells ncells Cell data and number of cells cell_type number of elements Cell data format depends on cell type vertex or face data See examples Allowable cell types Note cell types can be mixed except for viace3d and vface2d general nfaces General type number of faces in cell nverts nfaces Number of vertices per face vertex_ids sum nverts Integer list of node numbers that define the polygonal faces Note the general type can be used to define any cell volume line 2 Linear cell with 2 vertex ids verts 2 vertex ids tri 3 Triangular cell with 3 vertex ids verts 3 vertex ids quad 4 Quadrilateral cell with 4 vertex ids verts 4 vertex ids tet 4 Tetrahedral cell with 4 vertex ids verts 4 vertex ids hex 8 hexahedral cell with 8 vertex ids verts 8 vertex ids phex 8 hexahedral cell with 8 vertex ids Patran order verts 8 vertex ids phex20 20 hexahedral cell with 20 vertex ids Patran order verts 20 vertex ids prism 6 Prism cell with 6 vertex ids verts 6 vertex ids pyramid 5 Pyramid cell with 5 vertex ids verts
112. ted GMV draws lines between the vertices of the polygon to create a wireframe image If both Shaded and Lines options are selected the polygon lines are colored white Selecting materials to display The surface materials may be turned on or off The materials are listed at the bottom of the Polygons menu For convenience there is an on and off button to turn all the materials on or off at once Use the material toggle buttons to select individual material surfaces for display The Select Material From Screen and Remove Material From Screen toggle buttons allow interactive selection as in the Cell Material selection Menu Press the Apply button to activate the selection vo Explode Close Apply l Shaded _ Gines Haterials on ott 2 J Select Material From Screen _ Remeve Haterial From Screen 0 Subset Mat Order _jUse Stipple eee ener AAA AAAA per Figure 3 14 Polygons menu 3 10 Figure 3 15 Polygon subset submenu Changing explode percentage Use the Explode slider to separate surfaces by material giving an exploded view of the surfaces Selecting a polygon subset When you click on the button labeled Subset in the Polygons menu a submenu labeled Polygon Subset will appear see Fig 3 15 There are six sliders and six text boxes in the window These are used to define a polygon subset region The minimum and maximum values listed in the six
113. text boxes define a cube in space Any polygon that does not lie completely within this cube will no longer be shown in the main viewer Use the sliders to modify the polygon subset cube A purple bounding box is displayed as the sliders are moved to help visually set the polygon subset region Alternatively a value can be entered in the text portion of the menu Press the Apply button to initiate the subset Any polygon not falling within the new polygon subset region will be erased Clicking on the close button will close the subset window leaving any changes in effect Clicking on the Reset button will reset the polygon subset box to the problem size and all polygons will then be drawn Changing material order The material order function comes into play when two or more polygons occupy the same region of space Because only one of the stacked polygons may be shown at a time you must decide the order of precedence for the materials so that GMV will Know which polygon to draw Material order is also important when more than one material is transparent Transparent materials must be ina back to front order in order to be drawn correctly By default material number 1 is first followed by material number 2 and so on To change the current material order click on the button labeled Mat Order in the Polygons menu A submenu similar to Fig 3 16 will appear On the far right you will see the current materials listed in order To change the o
114. that created the current GMV input file but with a different cell configuration Selecting this option will display the File Selection menu see Fig 1 10 to select the next input file The current custom menus are not destroyed The image displayed after reading the input file will contain exactly the same attributes as the image from the previous file The new image will be displayed much faster after the file is read since the custom menus do not have to be recreated Also any cutlines cutplanes isosurfaces and isovolumes that existed in the previous image will be automatically calculated and displayed The 3 D plot box the subset ranges and the field data ranges remain the same for successive implementations of the Same Simulation read option unless manually reset an attributes file is read or until a file is read with the New Simulation read option Same Simulation Same Cells The Same Simulation Same Cells option is similar to the Same Simulation option except that the cell configuration must be the same as the current GMV file In other words the cells must contain the same node numbers A new cell face list and cell edge list will not be recalculated en The new image will be displayed much faster after the file is read since the custom menus do not have to be recreated and cell faces and edges remain the same Auto Read Same Simulation The Auto Read Same Simulation option allows GMV to automatically read a
115. the center of the object parallel to the X axis exactly 90 degrees The same is true for the Y and Z rotation columns X Y and Z rotations can be done simultaneously by entering the appropriate numbers in the boxes but this process is not recommended If no rotation is desired enter the same number usually zero in both the begin and the end boxes to achieve this effect Center translation The object in the main viewer can be moved linearly in any direction during an animation This motion is accomplished by entering data into the set of six boxes with the header Translate Center The first row of three boxes is used to tell GMV where to start the center translation in the form of X Y and Z coordinates The second row tells GMV where to end the movement GMV takes default values from the Center tool also found in the Controls 1 menu Magnification The magnification of the object in the main viewer can be increased or reduced during an animation sequence On the far right of the animation window are two boxes with the header Magnify In the top box enter the starting magnification and in the bottom box enter the ending magnification During the sequence the object will either grow larger or smaller depending on whether the beginning magnification is greater than or less than the ending If no change in magnification is desired enter the same number into both boxes usually 1 00 The object will then remain the specified size thro
116. the image movie mode noninteractive m Starts GMV noninteractively solely for the purpose of creating snapshots therefore no main GMV window will appear The only indication that GMV is actually doing something will be GMV s usual status messages printed in the shell snapshot s snapshot_filename Takes a snapshot of the object in the input file saves it in the speicfied file as SGI RGB format and is used only with the m option AzsnapgmvAz is the default filename Here is an example script that uses GMV s command line options to create a series of snapshots for use in movie making set verbose set k 1 21 foreach i k usr local bin gmv m a iso attr w 639 0 640 512 i gmvout3 i s ksbmiso i rgb end Of course you could just use the movie utility described below instead Input Mode Local yseript vCFs v Seript and CFS _ ICES Directory or Alternate Path File Prefix Ai First Last tride T a Attributes File Script File Screen Quadrant Top Left ylop Right Bottom Left Bottom Right nsnapgnv 1 RGB File Prefix RGB Start No ouit Ready Figure 10 1 GMV Movie menu 11 2 The GMV Movie utility The GMVMOVIE utility can be used instead of a script to generate time sequence movies see Fig 10 1 It works by first locating where the files are then getting them one at a time and running gmv to make a snapshot image file of each frame As GMVMO
117. then the display may be blank For example if gmvrc asks for polygons to be displayed and polygons do not exist then the image will be blank gmvrc keywords The drawing options available in gmvrc are all keyword driven The keywords and their options are gmvrc indicates the start of a gmvrc file required azim followed by a floating point number between 180 and 180 Sets the azimuth angle elev followed by a floating point number between 180 and 180 Sets the elevation angle twist followed by a floating point number between 180 and 180 Sets the twist angle mag followed by a floating point number Sets the magnification nodes followed by on or off Sets nodes display on off nodenumbers followed by on or off Sets node numbers display on off cellfaces followed by on or off Sets cell faces display on off celledges followed by on or off Sets cell edges display on off cellnumbers followed by on or off Sets cell numbers display on off polygons followed by on or off Sets polygons display on off polygonlines followed by on or off Sets polygon lines display on off axis followed by on or off Sets axis on off time followed by on or off Sets time on off cycle followed by on or off Sets cycle on off linesize followed by 1 2 or 3 Sets line width in pixels linetype followed by regular or smooth Sets line type pointsize followed by 2 4 6 or 8 Set
118. tle may be added to the main main viewer To add a title choose Title from the Ctl 3 menu A submenu will appear see Fig 7 2 Enter the text of the title into the Top Title and or the Bottom Title text boxes Click on the Display button to add the title to the top center and or bottom center portion of the main viewer The submenu closes automatically To remove the title reopen the submenu and click on the Delete button Use Display List An option to use OpenGL Display lists is available under the Ctl 3 menu Click on the Use Display List button to toggle the display list option on and off Using the Display List option will dramatically increase the drawing speed of rotation zoom and pan functions when running GMV remotely This increase in drawing speed occurs because the drawing primitives are stored in a list that exists on the display workstation thus individual drawing commands are not delivered over the network There may be a marginal drawing speed increase with display lists when running GMV on a local workstation but more memory will be used Note that when the display list option is used the PS Lines Snapshot option is not available ee 7 Close Close Vector Scale m Arrow Heads On Aslze Ysize Current 900 700 Arrow Head Size New 900 F00 Figure 7 3 Vector Control menu Apply Change Reset 900x700 Figure 7 4 Window size menu Vector Control To control the si
119. to display the Tracer Select Menu see Fig 3 18 As in selecting nodes or cells by number there are 50 lines where a tracer number a range of tracer w Regular Points Big Points Humbers w Values Fields pressure temp Select History Back to o Stride E Read History Files History Points On Figure 3 17 Tracers menu 3 13 numbers or a range of tracer numbers with a stride can be entered Use a colon as the delimiter for a range of numbers and for a range of numbers and a stride For example to select tracers between 1 and 10 enter 1 10 to select every tenth tracer between 20 and 100 enter 20 100 10 Display tracer history Tracer histories are displayed as a set of colored line segments connecting with the big points numbers or values display of the current tracers The line segments connecting the history locations are smoothly colored according to the value of the selected field for up to 250 history points per tracer Click the History button to turn on the tracer history display option and click the Apply button to initiate the option The Back to and Stride input areas are used to control the last file to read and a stride skip value between files Click on the Read History Files to read trace histories Click on the History Points On to toggle drawing of intermediate history points In order to read trace histories all of the GMV input files must
120. u 5 1 Animation ortho and perspective modes Number of animation frames Rotation Center translation Magnification Vector flow Cutplane l ee eet et SSB SB SB SK M O O OOOO NNI NN OOCOOO COOAOAOOA A NOOO OCOLO NMNNMNNN el sj RLV Tek TE Ts TV TRL E A A A E 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 Fade Explode during animation Snapshot Quick look lsosurface animation Cutsphere animation Animation flight mode Setting control points Saving and Retrieving control points Quick look and snapshot Axes Beep Sound Bounding Box Center Center on node or cell Clip Color Bar Turning on Preferences Color Edit Materials lsosurfaces Isovolume Changing material or isosurface colors Reinstating default colors Field data colormap Background Color 5 10 Contour Levels 6 0 The CTL 2 Controls 2 Menu 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 6 9 Cycle Data Limits Fields Tracers Distance Scale Interactivity Light Line Width Point Size Plot Box Scale Axes 7 0 The CTL 3 Controls 3 Menu 7 1 Subset LLLLLLLLLLLLLSbbbbdodb Lonh ho anh BP BRONNNDNDN o1 O1 O1 O1 OF O1 OF O1 OF O1 O1 O1 OF O1 OF O1 O1 OF OF O1 OF O1 O1 OF OI A T wl E SE AY YG l ah BWOWAWANND N LN es wel Nodes cells tracers Polygons 7 2 Texture smoothing 7 3 Time 7 4 Title 7 5 Use Display List 7 6 Vector Control 7 7 Virtual Trackball 7 8 Window Size 7 9 Zoom Rubberb
121. ughout the entire animation sequence Vector flow The vector flow option displays the paths that particles with vector data would take GMV shows the vector flow by dividing the length of the each node s current vector into as many equal pieces as there are frames and then displaying each piece in sequence during the animation To include vector flow in an animation turn vectors on and then click the toggle button in the upper right corner of the animation submenu before starting the animation a gt Cutplane The animation window includes provisions for sweeping a cutplane across the object in the main viewer The cutplane may sweep perpendicular to the X Y or Z axes Only one sweeping cutplane may be in an animation at a time To insert this effect into the animation click on the box with the label Cut Plane in the upper right corner of the animation submenu A submenu similar to Fig 5 2 should appear The first four options allow choosing along which axis the cutplane should sweep GMV can only sweep across one axis at atime Clicking on the None option will turn off the cutplane option Below the direction buttons is the Options button Clicking on this button displays the Cutplane Options menus see Cutplane in the Calculate section to define drawing options After the Options button are two slider bars These sliders control where the cutplane sweep begins and ends along the chosen axis The default is to swe
122. umber are not drawn and are not included when calculating field minimums and maximums A zero material number can be useful if your simulation deletes nodes but keeps a continuous numbering sequence You can keep deleted nodes so you do not have to renumber cell vertices just enter a 0 zero material number for those nodes and GMV will ignore them unless requested 9 If polygons are the only necessary elements of your simulation you must still enter data for nodes cells and materials There may be zero cells but there must be at least one node Place this node somewhere within the polygon boundaries In the materials list the single node must be assigned a material number An example GMV input file follows gmvinput ascii nodes 1 0 0 0 cells 0 material 3 1 matt mat2 mat3 1 polygons polygon data endpoly E 35 endgmv 10 Menu fonts You can use standard X resource files to change the font or font size of the menus Using a smaller font is useful when you start GMV with a small drawing window using the w option An example of the resource line for a 14 point font follows GMV fontList adobe courier bold r 14 The following example line will cause the initial File Selection menu to have a different pattern GMV pattern gmv For example you can place the lines above in a file called Resources then set the XENVIRONMENT variable to point to the Resources file Here is a c shell exa
123. umber next to the color controls will be overwritten with the new one Field Calc The Field Calc option of the Calculate menu is used to calculate data from an existing node field or cell field using supplied unary or binary operations The calculated data is placed in one of the five extra fields provided Selecting a field to build Choose the Field Calc option from the Calculate main menu bar then select either Node Field or Cell Field if available and a menu similar to Fig 4 7 will appear The FldCalc names indicate that data for the field has not been calculated Select one of the five fields and a menu similar to Fig 4 8 appears Build calculate the new field To build the new field first select an operator from the en o Operators list Note that the operators acl refer to the variables X Y and C The Close Select Hode Field calc X and Y variables refer to selected fields while the C variable represents a user defined constant Next fill in the jvFidcalel constant field C if needed and Fld alec check that the current fields displayed the X Field and Y Field are the fields to operate on If Fldcaled4 ovFidcales VFldcalc3 Fidcalel Hew Field Name Figure 4 7 Field Calc Selection menu c ia not click on the appropriate New Field button to select a field from the Field Selection menu Finally enter a name in the New Field Name text Jex 2 field and
124. up when the input file is first opened The GMV temporary field files Upon the opening of any input file GMV creates temporary files on the local system which hold node field data cell field data and polygon data These files are not visible to the user GMV will first attempt to place these files in the eC SC T URE directory specified in the environment variable TMPDIR Set this directory with the C shell command setenv TMPDIR directory_name where directory_name is the path where you want GMV to place the field data file If TMPDIR is undefined GMV will attempt to put the field data file in usr tmp These temporary files are removed when GMV ends The GMV user interface The mouse controls The mouse controls for GMV have been designed for maximum ease of use with a three button mouse see Fig 1 1 The left mouse button has two different functions depending on whether the cursor is in a menu area or the viewing area In the case when the mouse pointer is in the menu area the left mouse button is used to pull down menus select options drag slider bars etc When the mouse pointer is in the viewing area the left mouse button functions as a rotation device For example assuming twist is set to zero while holding down the left mouse button and dragging left or right the object in the viewing area rotates either left or right depending on the current orientation of the axes Moving the mouse up and do
125. wn in this manner rotates the object either up or down again depending on the current placement of the axes The middle mouse button provides a panning function Holding the middle button and moving the mouse shifts the object linearly in any direction without any rotation For example while holding down the middle mouse button and dragging right the object moves to the right Finally the right mouse button is used for controlling the magnification of the object in the main viewer For example while holding down the right mouse button and dragging up the object grows larger Dragging down causes the object to appear smaller Motion to the left or right does nothing Using menus The top row of the GMV window is lined with various menus To opena menu click the left mouse button on the name of the menu desired A small box will appear with menu options To select a menu option again click the mouse on the desired option Some of the menu options will open sub menus for specific program functions which require additional information To choose from a submenu click on the original option and move the mouse to the right and follow the usual rules for choosing from menus 1 2 Buttons GMV has three different types of buttons which are used to select various functions regular buttons toggle buttons and radio buttons Regular buttons are fairly large and have labels inside such as CLOSE or CANCEL To activate these just click the mouse on
126. x to its default color Field Data Colormap To change the colormap for field data select the Field Data Colormap option and the menu Fig 5 14 appears Click on one of the predefined colormaps or click on Read gmv colormap file to read in a user defined colormap The gmv ee gt 4 colormap file is an ASCII file with the following format The first line contains the keyword gmvcmap followed by 256 lines with three floating point numbers The three floating point numbers on each line represent the red green and blue components of the color These components must be between 0 and 1 where 0 means no color and 1 is full color Background Color To change the background color select the Background Color option and the menu Fig 5 15 appears Move the sliders until the background color you wish is displayed in the color box Then click on the Apply button to change the background color Contour Levels Contour Levels is in the Controls 1 menu Its function is to change the number of contour levels lines seen on cell faces and cutplanes Select this option and the Contour Levels menu Fig 5 16 appears Change the number of levels in the text box and press Enter to initiate the change Figure 5 15 Backgroun Color Menu Figure 5 16 Contour Levels Menu 5 15 The Ctl 2 Controls 2 Menu Cycle Cycle is in the Ctl 2 menu Its function is to toggle on or off the cycle number in the
127. you click on en o this option the screen will turn blank for a moment then a full screen image will appear Any menus that were open will still be visible except they will be twice as long You may have to use Alt and the right mouse button in order to move a menu The image can be manipulated with the mouse just as in orthographic or perspective views Three keyboard keys are used to control the stereoscopic mode Press the x key to exit stereo mode press the m key to increase eye separation and press the n key to decrease eye separation Use the eye separation controls m and n keys to adjust the stereoscopic image to give the best stereo effect and comfortable viewing Note SGI only the stereo option can only be used on local SGI workstations it will not set a remote monitor into stereo mode If for some reason GMV aborts while in stereo mode issue the following command to return your monitor back to normal mode usr gfx setmon n 72HZ Note non SGI you must set the workstation into stereo mode through the X server before starting GMV Stereo Flight The Stereo Flight option places a local SGI workstation into full screen stereoscopic mode just as in Stereo Perspective The difference is that this option operates the same as in Flight mode The GMV Inout Format Input Specifications The format for GMV s input file follows Please note that there are relatively few required entries most data is optional and k
128. ze and tip shape of vectors select Vector Control from Ctl 3 and the Vector Control menu fig 7 3 appears The Vector Scale slider bar controls the relative length of the current vectors This adjustment allows you to scale the length of the vectors to your own liking Although the length of the vectors may increase when the slider is dragged to the right the length is always proportional to the magnitude of the data from which the vectors were drawn in the first place The Arrow Heads On toggle button determines the tip shape of the vector If this toggle is on an arrow head will be drawn at the tip of the vector otherwise a text color line segment tip is drawn The Arrow Head Size slider bar controls the size of the arrow head from half the original size to one and a half times the original size Virtual Trackball The Virtual Trackball option changes the rotation motion of the left mouse button With the virtual trackball on the left mouse rotation control will now perform like the rotation control in most CAD systems Pressing the left mouse button while in the interior of the display will grab and rotate the image about all three axes Pressing the left mouse button while at the edges of the display will rotate the image about an axis normal to the screen Window Size To control the size of the drawing window select Window Size from Ctl 3 and the Window size menu Fig 7 4 appears Set the window size in pixels o
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