Overview Rapid Prototyping Planning Optimization 3D Configurators
Applications

Optimization

Close the loop between generated part variants, structural checks, and manufacturing handoff.

Get Started Explore workflows
Simulation-driven optimized bracket with FEM heatmap
AI part variants
FEM validation loop
STEP export ready
Optimization

Close the loop between generation and validation

Optimization work breaks down when part generation, simulation, and manufacturing outputs live in separate tools. confBuild keeps the part family, validation feedback, and export structure connected.

Generate controlled variants Explore part families without losing mounting points, interfaces, and design rules.
Validate earlier Bring stress, displacement, and safety checks into the same workflow.
Release with context Carry geometry, assumptions, and output data into production handoff.
Optimization workflow with part variants, FEM validation, and manufacturing exports

One engineering loop from rules to release

Optimization becomes practical when every variant can be regenerated, compared, validated, and exported without manual reconstruction.

  1. 01
    Define the rules

    Set interfaces, dimensional ranges, loads, materials, and manufacturing constraints.

  2. 02
    Create variants

    Generate controlled geometry options from parameters or AI-assisted inputs.

  3. 03
    Run validation

    Compare structural behavior, weight, stiffness, and safety factors.

  4. 04
    Prepare outputs

    Export release-ready geometry, BOM context, and documentation data.

Optimization

Optimization connected to the full engineering workflow

Replace isolated CAD and analysis steps with one system that creates variants, checks structural behavior, and prepares release-ready outputs.

01

Rule-Driven Part Families

Define dimensional rules, interfaces, mounting patterns, and manufacturing constraints once, then generate complete part variants from parameter sets or AI-assisted inputs.

  • Parameterized geometry
  • Controlled interfaces
  • Fast family expansion
02

FEM Validation in the Browser

Run structural checks where the design is created so stress, displacement, and safety behavior are visible before the part reaches release.

  • Structural simulation
  • Variant comparison
  • Earlier issue detection
03

Optimization for Manufacturing

Use simulation feedback to refine thicknesses, supports, and material usage while keeping fit, function, and interfaces intact.

  • Material reduction
  • Performance-driven refinement
  • Faster iteration cycles
04

Manufacturing-Ready Exports

Move from validated geometry into STEP, STL, IFC, DXF, BOM, and drawing-oriented outputs without rebuilding the design in downstream tools.

  • STEP and STL export
  • BOM and cut-list support
  • Release-friendly documentation
Outputs

Optimization results that keep their engineering context

Each output is tied back to the configurable model, so decisions remain traceable.

Variant families Parameterized parts that preserve interfaces and manufacturing constraints.
Simulation checks Stress, displacement, and comparison views for fast engineering review.
Material insight Refinement paths for thickness, supports, stiffness, and weight.
Manufacturing exports STEP, STL, DXF, BOM, and drawing-oriented downstream data.
Best fit

Best fit

  • Engineering teams generating configurable part families
  • Design loops that need simulation before release
  • Workflows where export quality matters as much as geometry quality

Need a tighter optimization loop?

Generate variants, validate them, and move directly into manufacturing outputs without handing the model between disconnected tools.

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