      Params    C:\Users\KatachiHome\AppData\Roaming\MAXON\CINEMA 4D R13_05DFD2A0\plugins\DPIT Plants & Effex 2.0\res\help\EN\Effex\fx_multivolume_params.html    ;       2   MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN    MULTIVOLUME_MESHES    FSSVOLUME_CONTRIBUTE_BOUNDS    FSSVOLUME_NOGRIDOBSTACLE    FSSVOLUME_INVERT    FSSVOLUME_FLUIDSAMPLEEXTENT    FSSVOLUME_INNER_RADIUS    FSSVOLUME_LEVELSETQUALITY    FSSVOLUME_SAFESWEEP    FSSVOLUME_MESH_RETURN      default.tif                  Object Header               
Mesh Objects    Follows    MULTIVOLUME_MESHES    #multivolume_params_meshobjects.jpg           Contribute to Adaptive Bounds    Follows    FSSVOLUME_CONTRIBUTE_BOUNDS    volume_params_contribute.jpg           No framework obstacles    Follows    FSSVOLUME_NOGRIDOBSTACLE    &volume_params_noframeworkobstacle.jpg           Invert    $Inverts the inside and the outside.    FSSVOLUME_INVERT    $volume_fss_volume_object_invert.jpg          Outside Extent [cells]   wThe bounding box of the volume covers the volume mesh + this user-defined extent (given in voxels/grid cells). Usually the default value of 3 cells is more than enough.
However, if you for example invert the volume, you may want to increase the extent to have the Volume defined in more distant areas as well.
<br></br>
Higher extents make the volume mesh generation slower.    FSSVOLUME_FLUIDSAMPLEEXTENT    $volume_fss_volume_object_extent.jpg           Center-to-surface Offset    As the Volume is aware of its inside you can shrink the inside volume area. 100% means the full inside area is used. Lowering the value will shrink the inside in direction of the surface.<br>
This is great to for example emit data only near the surface.    FSSVOLUME_INNER_RADIUS    (volume_params_centertosurfaceoffset.jpg    	       SUBAB Input Mesh Setting        Input Mesh Setting           Sweeping iterations   Calculating the Volume's sdf (see top of page) is an iterative process called 'Sweeping'.<br> 
Higher values MAY result in more accurate distances (and therefore better volume and surface normals) but makes the Volume Generation slower. Most of the time sticking with 1 iteration is fine.<br>
Setting 2 iterations is the best trade-off between good accuracy and performance. You probably will never use more, though it's up to you.    FSSVOLUME_LEVELSETQUALITY    8volume_fss_volume_mesh_settings_sweeping_iterations.jpg       	    !Max. CPUs for Sweeping (0 = all)    You can exclusively set the amount of CPU threads (including hyperthreads) to use for the sweeping. The default value of 0 means all available cpu threads are used.    FSSVOLUME_SAFESWEEP    ,volume_fss_volume_mesh_settings_max_cpu.jpg    
   
    Closer        	       SUBTAB Output Mesh Settings        Output Mesh Settings           Output Dynamic Meshes    Follows    FSSVOLUME_MESH_RETURN    &volume_params_outputdynamicmeshes.jpg    
   
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