You need two types of data: the (CAD model) and the Actual (3D Scan).

High-end NVIDIA Quadro or GeForce (GOM relies heavily on the graphics card for mesh rendering).

Includes the full parametric workflow, script execution (Python API), Virtual Measuring Room capabilities, and trend analysis tools for statistical process control (SPC).

Parallelism, perpendicularity, angularity, and true position.

To get the most out of GOM Inspect 2019, users follow a structured engineering workflow designed to maximize measurement repeatability. Step 1: Data Import and Alignment

While primarily a 3D tool, Gom Inspect 2019 excelled at 2D analysis. Users could cut arbitrary sections through the part and create 2D curves to compare against nominal contours. This was particularly useful for checking swept surfaces or aerodynamic profiles.

Users can drop "Inspection Points" anywhere on this color map to read exact numerical deviation vectors. Step 3: Local Feature Inspection

Note: GOM Inspect 2019 is heavily dependent on OpenGL. AMD consumer cards sometimes glitch; NVIDIA is the safe bet.

You apply tolerances to each inspection element. Gom Inspect 2019 will instantly flag out-of-tolerance results (usually in red) and calculate pass/fail statistics.

To ensure stable performance when handling large 3D meshes and high-density point clouds, the software requires optimized workstation hardware. Windows 10 (64-bit)

If you want to optimize your quality control processes, tell me: What are you currently using?

GOM Inspect 2019 is a powerful, industry-standard software application used for 3D inspection, mesh processing, and shape analysis. Developed by GOM GmbH (a ZEISS company), this software plays a critical role in quality control, product development, and manufacturing processes worldwide. It allows users to import point clouds and polygon meshes from various scanners, analyze the data against CAD models, and generate detailed inspection reports.