A classic workhorse of metrology software—powerful enough for the lab, simple enough for the workshop. Keywords used: Gom Inspect 2019, 3D inspection software, GD&T, mesh comparison, ATOS, Zeiss Inspect, 3D metrology, quality control software, first article inspection.
To download Gom Inspect 2019, visit the official Zeiss/GOM archives (note: you may need to register as a guest). Be sure to verify if your specific scanner hardware supports the 2019 driver set. Gom Inspect 2019
Educational institutions rely on it to teach GD&T without expensive licensing. Small machine shops use it to inspect parts on a budget, using an off-the-shelf 3D scanner. And engineers in the field appreciate its reliable batch-processing capabilities. If you are looking for a robust, non-subscription-based 3D inspection tool with a proven track record, Gom Inspect 2019 is an excellent choice. New users should note that while the software is no longer being updated (end-of-life announced around 2021), it remains fully functional on modern Windows 10/11 systems. Be sure to verify if your specific scanner
| Feature | Gom Inspect 2019 | Zeiss Inspect (2020+) | | :--- | :--- | :--- | | | Free version available (limited saving) | Free version available but with feature cuts | | License Model | Perpetual or rental | Subscription-heavy | | UI | Classic GOM layout | Modernized, but steeper learning curve | | CT Data | Basic support | Advanced voxel & porosity analysis | | Scripting | Python via GOM Script | Python 3+ integrated | And engineers in the field appreciate its reliable
Whether you are a quality engineer, a product designer, or a student of metrology, understanding the nuances of Gom Inspect 2019 is essential. This article explores its features, workflow, system requirements, and why this specific version remains a reference point in the industry. Gom Inspect 2019 is a 3D inspection software platform developed by GOM GmbH. It is designed to analyze and evaluate 3D coordinate data, typically acquired from structured light scanners, laser scanners, or CT scans. The software compares actual scan data (meshes or point clouds) against nominal CAD data (STEP, IGES, or native formats) to generate comprehensive quality reports.