Even after geometry clean-up and using tools like virtual geometry or section meshing, small sections or facets typically remain. Use Case 2: Time Domain Electromagnetic Simulation Set-up/Debuggingĭescription: When creating volumetric tetrahedral meshes from customer provided ProE or SolidWorks solid models, the model typically goes through several tools (CUBIT, I-DEAS, etc.) and/or formats (ACIS, IGES, etc.). Provide a geometry display tool for displaying interactive flipbook animations on a desktop or multi-panel display wall.Provide an integrated movie tool for displaying these animations on a desktop or a multi-panel display wall.Be able to generate animations which can be played without reformatting on a desktop.Be able to work effectively with big data.Be able to work with data which resides on a remote platform like White without having to move it.Be able to automatically deal with byte order differences in different data formats. ![]() Provide text annotations including time annotations.Provide linear color palettes with color legends which are user adjustable in both location and size.Provide linear plotter axes and labeled curve legends in different lines styles and colors.Have the profile plots update automatically when you change time step.Produce a plane clip through a 3D mesh.Compute new variables from output variables.Color the mesh by scalar variables including derived variables.A final animation is then generated to display specific items of interest in the analysis. These measurements are obtained using queries and plots of stress, strain, and displacement. Once he has a general overview of the structural displacements, they will then delve deeper into the model to obtain quantitative measurements. This movie will typically use either time-based model displacements or contour lines. I hope I was able to clarify your questions at least to a certain extent, please do let us know if we can help you further.Use Case 1: Analysis of a Structural ModelĪnalyst first generates a movie to obtain a visual understanding of model displacements. iHat, jHat, and kHat are vector constants representing unit vectors in the X, Y, and Z directions, respectively.The digits 0 - 9 and the decimal point are used to enter ![]() cross: Compute cross product of two vectors. The operands for this function are not required to be enclosed in parentheses. v1.v2: Compute the dot product of two vectors.abs: Compute the absolute value of a scalar.ln: Compute the logarithm of a scalar to the base e.log10: Compute the logarithm of a scalar to the base 10.sqrt: Compute the square root of a scalar.The operands for this function are not required to be enclosed xˆy: Raise one scalar to the power of another scalar.tanh: Compute the hyperbolic tangent of a scalar.cosh: Compute the hyperbolic cosine of a scalar.sinh: Compute the hyperbolic sine of a scalar.atan: Compute the arctangent of a scalar.acos: Compute the arccosine of a scalar.The operands for thisįunction are not required to be enclosed in parentheses. -: Negate a scalar or vector (unary minus), or subtract one scalar or vector from another.*: Multiply two scalars, or multiply a vector by a scalar (scalar multiple).Where user interface is concerned, it refers mainly to the desktop version, however the math formulae as well as what kind of data is supported also apply to our online variant.Īs an additional method (if not the most convenient) to understand which math functions are available to you, I could also suggest looking at the desktop version of ParaView and calling on the calculator filter. ![]() We will work on adding more about this in the online documentation.Ī brief description of how it operates can be found on Beginning Filters - KitwarePublicĪnd a more in-depth, proper explanation can be found in the ParaView guide: page 97. I agree, this is something which is missing, as well as it may be useful for some other less intuitive actions. This is unfortunately a limitation of the underlying back-end, which we are looking to address. The calculator can be applied on either scalars (such as the components) or vectors (such as the displacement) and the failures are not currently being propagated all the way back to the user. Calculator_with_stress_components.png 1920×1113 292 KB
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