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Structures
Set up your model and run a structural analysis or optimization.
Structural Optimization
Set up and run a topology, topography, or gauge optimization.
Run Optimization
Define and run a topology, topography, or gauge optimization using the Run Optimization tool.
Optimization Objectives
When running an optimization, your objective may be to maximize stiffness, maximize frequency, or minimize mass. Different objectives are available based on the type of optimization selected.
Maximize Frequency
Maximizing frequency is one of several optimization objectives, and is available for topology, topography, and gauge optimization.

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Parametric Modeling
Create parametric sketches, geometry, and PolyNURBS with construction history and variables.
Implicit Modeling
Create implicit models with primitives, lattices, point clouds, fields, offsetting, Booleans, inverting, smoothing, morphing, and filleting.
Structures
Set up your model and run a structural analysis or optimization.
- Model Setup
  Create connections and apply loads, constraints, materials, and manufacturing controls to your model.
- Structural Analysis
  Set up and run a linear static analysis using the SimSolid or OptiStruct solver. You can also analyze normal modes and buckling modes.
- Structural Optimization
  Set up and run a topology, topography, or gauge optimization.
  - Optimization Overview
    Optimization will find the most effecitve design for each design space in a model in response to the applied loading conditions on that model. You can run several different types of optimization including topology, topography,gauge, and PolyNURBS shape optimization.
  - Design Spaces for Optimization
  - Run Options: Local vs. Remote
    Choose whether to run jobs locally or on a remote job server.
  - Run Optimization
    Define and run a topology, topography, or gauge optimization using the Run Optimization tool.
    - Set Up and Run an Optimization
      To run an optimization, select the Run Optimization tool, choose a run type and objective, and click Run.
    - Optimization Types
      Several different types of optimization are available in Inspire, including topology, topography, and gauge optimization.
    - Optimization Objectives
      When running an optimization, your objective may be to maximize stiffness, maximize frequency, or minimize mass. Different objectives are available based on the type of optimization selected.
      - Maximize Stiffness
        Maximizing stiffness is one of several optimization objectives, and is available with topology, topography, and gauge optimization.
      - Maximize Frequency
        Maximizing frequency is one of several optimization objectives, and is available for topology, topography, and gauge optimization.
      - Minimize Mass
        Minimizing mass is one of several optimization objectives, and is available with topology, and gauge optimization.
    - Optimization Constraints
      Most optimization constraints are applied using the Run Optimization window. The constraints that are available change based on the optimization type and objective.
    - Optimization Options
      In addition to selecting an optimization type, objective, and constraints, you can also select from a variety of additional options when running an optimization.
    - Export a FEM File (optimization)
      Export a FEM file using the Export button on the Run Optimization window.
  - Show Optimization Results
    View and compare optimization results, view design violations, and explore the generated shape.
- Report
  Generate PPT or PDF reports from analysis results. The Report tools are available after you have run an analysis.
Motion
Set up and run a motion analysis, plot the results, and export the results.
Fluids
Prepare and run a computational fluid dynamics simulation.
Design Explorer
Evaluate designs by using geometric variables and applying a design-of-experiments (DOE) or optimization method. We recommend fully constraining your sketch when sketch variables are used in the design exploration.
Manufacture
Set up and run a basic porosity or thinning analysis.
Print 3D
Prepare and run an additive manufacturing simulation, and export a file for 3D printing.
Rendering
Adjust the materials and environment of objects in the scene to create a photorealistic image.
Inspire Python API
Learn how to access the Inspire Python API including online help, quick start demos, and the Extension Manager.
Reference
View the glossary, frequently asked questions, and errors and alerts.
Keyboard Shortcuts and Mouse Controls
Learn keyboard shortcuts and mouse controls for common operations.

Maximize Frequency

Maximizing frequency is one of several optimization objectives, and is available for topology, topography, and gauge optimization.

Maximizing Frequency for Topology Optimization

When running a topology optimization, maximizing the frequency of a design space will result in a shape that gives you the highest frequency possible. If you select Maximize Frequency as your optimization objective, you will need to specify one or more of the following:

Mass Targets, Frequency Constraints, and Thickness Constraints - applied using the Run Optimization window.
Displacement Constraints - applied using the Displacement Constraints tool.

Maximizing Frequency for Topography Optimization

When running a topography optimization, maximizing the frequency of a design space will result in a shape that gives you the highest frequency possible. If you select Maximize Frequency as your optimization objective, you will need to specify one or more of the following:

Bead Options - applied using the Run Optimization window.
Displacement Constraints - applied using the Displacement Constraints tool.

Maximizing Frequency for Gauge Optimization

When running a gauge optimization, maximizing the frequency of a design space will change the thickness of a part to maximize the frequency. If you select Maximize Frequency as your optimization objective, you will need to specify one or more of the following:

Frequency Constraints - applied using the Run Optimization window. When maximizing frequency, you can only use this option to define which supports to use.
Displacement Constraints - applied using the Displacement Constraints tool.

Example: Maximizing Frequency for Topography Optimization

The oil pan pictured below was optimized by maximizing frequency.

Figure 1. Design Space

Figure 2. Optimized Shape