HyperMesh CFD
HyperMesh CFD

2023

  1. Home
  2. Automation

    Automate simulation processes with templates and utility scripts.

  3. Python API

    Use python based automation to quickly setup HyperMesh CFD for ultraFluidX simulations in batch mode.

  4. Case Setup Python API

    Documentation of HyperMesh CFD for ultraFluidX simulation case setup.

  • What's New
  • Get Started
  • Learning Center
  • Solution Layers
  • Manage Files and Data
  • Convert
  • Geometry Modeling
  • Meshing
  • Setup
  • Post-Processing
  • Automation
  • Design Exploration
  • Solver Help
Index
HyperMesh CFD

2023

HyperMesh CFD
  • What's New

    View new features for HyperMesh CFD 2023.

  • Get Started

    Learn the basics and discover the workspace.

  • Learning Center

    Discover HyperMesh CFD functionality with interactive tutorials and community resources.

  • Solution Layers

    Solution-centric workflows allow you to traverse through modeling environments using a dedicated UI layer.

  • Manage Files and Data

    Create, open, import, and save models.

  • Convert

    Use the Convert tool to convert entire models between data types.

  • Geometry Modeling

    Manage CAD, FE, and 2D parametric sketch geometry.

  • Meshing

    Generate surface/volume mesh by defining mesh controls, or interactively create and edit 2D surface mesh.

  • Setup

    Prepare your model and run the simulation.

  • Post-Processing

    Post-process the simulation results by creating visualizations and measurements.

  • Automation

    Automate simulation processes with templates and utility scripts.

    • Template Manager

      Use the Template Manager to define rule-based logic for groups, geometric operations, and setup and automate simulation processes.

    • Python API

      Use python based automation to quickly setup HyperMesh CFD for ultraFluidX simulations in batch mode.

      • Case Setup Python API

        Documentation of HyperMesh CFD for ultraFluidX simulation case setup.

        • Load Data

          Use basic Inspire API to load data.

        • Tunnel

          Create a wind tunnel.

        • Turbulence

          Create a turbulence generator.

        • Part Types

          Identify parts.

        • Belts

          Create a belt system.

        • Mesh Controls

          Create mesh refinement zones.

        • Result Outputs

          Define result output types.

        • Material

          Create a new fluid material.

        • Output Controls

          Set output parameters.

        • Simulation Controls

          Set simulation parameters.

      • precursorRun Script

        The precursorRun script is a standalone command line utility that generates the .xml input files to run two simulations: a precursor ultraFluidX simulation with coarser mesh and fast turnaround time and a user desired ultraFluidX simulation starting from the results generated by the precursor simulation.

    • hwCFDReport

      Post-processing utility that uses results from CFD simulations to generate a PowerPoint report containing images, animations, and graphs of the results from the simulation.

  • Design Exploration

    Once the baseline model is prepared, you can define morph volumes, morph geometry, create design shapes and run DOE studies. These tool work for both AcuSolve and ultraFluidX-based workflows.

  • Solver Help

    More resources for AcuSolve and ultraFluidX solvers.

View All Altair HyperWorks Help

HyperMesh CFD
HyperMesh CFD

2023

  1. Home
  2. Automation

    Automate simulation processes with templates and utility scripts.

  3. Python API

    Use python based automation to quickly setup HyperMesh CFD for ultraFluidX simulations in batch mode.

  4. Case Setup Python API

    Documentation of HyperMesh CFD for ultraFluidX simulation case setup.

  • What's New
  • Get Started
  • Learning Center
  • Solution Layers
  • Manage Files and Data
  • Convert
  • Geometry Modeling
  • Meshing
  • Setup
  • Post-Processing
  • Automation
  • Design Exploration
  • Solver Help
Index

Case Setup Python API

Documentation of HyperMesh CFD for ultraFluidX simulation case setup.

Learn more about Inspire Python API and explore Quickstart Demos.

  • Load Data
    Use basic Inspire API to load data.
  • Tunnel
    Create a wind tunnel.
  • Turbulence
    Create a turbulence generator.
  • Part Types
    Identify parts.
  • Belts
    Create a belt system.
  • Mesh Controls
    Create mesh refinement zones.
  • Result Outputs
    Define result output types.
  • Material
    Create a new fluid material.
  • Output Controls
    Set output parameters.
  • Simulation Controls
    Set simulation parameters.

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