GOM Correlate Features

What´s new in the current version of GOM Software 2018?

GOM Correlate is a free digital image correlation (DIC) and evaluation software for materials and component testing and serves as a viewer for data sets from the applications ARAMIS Professional, GOM Correlate Professional, TRITOP Professional and PONTOS Live

Efficient, Process-Based Python Interpreter

GOM Correlate Professional 2018 offers fast and simplified data access for complex scientific computations using Python. Freely available Python libraries, such as NumPy, SciPy or Matplotlib, can be easily used with an external Python installation in GOM Correlate Professional 2018. Thus, both computations and diagrams can be created directly, which are necessary for, for example, vibration analyses (FFT) and tensile tests.

Improved Representation of Deviations in the 3D View

In addition to the two-dimensional deviation representation, deformations, such as bulges, dents and depressions, can be displayed excessively in the 3D view and thus can be displayed plastically. Scalar values can be transformed accordingly into a kind of a height map. Moreover, the direction of Euclidean displacements on surface components can be displayed using arrows. Thanks to the extended visualization options, the user can interpret the results even faster and easier.

Open Data Exchange

The exchange of data is becoming more and more important in metrology. For example, all relevant elements, such as sections, curves and coordinate systems, can be quickly exported in one or more stages as a CSV or XML file. Furthermore, any additional information, such as temperatures, can be linked not only with surface components, but also with point and facet point components. This data can then be further processed in the usual workflow.

New additional GOM Software 2018 Features

Efficient, process-based Python interpreter

The GOM Software 2018 offers fast and simplified data access for complex scientific computations and enables the import of freely available Python libraries, such as NumPy, SciPy and Matplotlib.

Enhancements for point components

Several point components, for example, from measurements of a test from different directions, can now be combined into one region and used for rigid body motion compensation.

Excessive representation of deviations in the 3D view

In addition to the colored deviation representation, deformations, such as bulges and dents, can be visualized excessively and thus more clearly.

Enhancements for the ARAMIS Kiosk Interface for material tests

The GOM Software 2018 offers further templates for standardized test methods, such as tensile, bulge and FLC tests. Other repeatable test methods and project templates can be configured freely and integrated into the simplified user interface.

Open data exchange

The CSV and XML export now supports the export of several stages and further elements (for example, sections, curves and coordinate systems) and was further optimized in terms of speed, among others.

Online measuring volume

The online measuring volume can be displayed in the GOM Software 2018 to make it easier to position the specimen in the measuring volume optimally.

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Digital Image Correlation

Digital image correlation (DIC) is an optical non-contact method to measure 3D coordinates for the evaluation of 3D surfaces, 3D motion and deformation. Stochastic patterns and/or point markers are utilized to describe discrete image areas, which can be determined with subpixel accuracy by analyzing the image information. With this principle, point-wise and full-field measuring results are created and used for a wide range of applications in materials research and component testing to determine the static and dynamic behavior of specimens, such as displacements and strain. Thus, DIC enables an analytical investigation of the complex behavior of any test object.

3D Motion and Deformation Analysis

For the analysis of 3D motion and deformation, GOM Correlate uses a component concept, in which user-defined groups of points are consolidated and tracked over a certain time. This time-based component evaluation results in 3D coordinates in all evaluated images, which are used for the accurate computation of 3D displacements. Component groups are additionally used for the compensation of rigid body motions by analysing and subtracting the displacements in between these groups. Moreover, knowing the exact 3D displacement of a component allows the evaluation of 6 degrees of freedom in terms of translation and rotation in 3D space.

Timeline-based Inspection

The timeline is an integrated element in the graphical user interface and supports the management of measurement projects. Functionalities for the definition of areas of interest are implemented as stage ranges and help the user to navigate through the measuring data and to focus the evaluation and the reporting on important time periods of the measurement project.

Image Mapping

Image mapping acts as an intuitive user interface that supports the user in all work steps for the project definition, the analysis of results and the reporting. All necessary user interactions are directly performed on the measurement images and results are instantly displayed, such as vector fields and full-field displacement and strain.


I-Inspect stands for intelligent inspection and guides operators through the inspection process. I-Inspect suggests suitable measuring principles and inspection criteria to suit the selected element. With I-Inspect, even complex inspection tasks can be implemented quickly and easily.

Customizable Mathematics

Most results, such as displacements and strain, are calculated using pre-defined inspection principles throughout the standard evaluation workflow. For specific evaluations, GOM Correlate provides an interface that allows the implementation of user-defined mathematics and formulas and enables the automatic computation of the corresponding results.

Parametric Software Concept

With GOM's parametric concept, each individual element retains its creation path within the software structure. All actions and evaluation steps are fully traceable and interlinked. Individual elements can be modified and adjusted at any time, and a one-button solution updates all dependent elements automatically after changes have been made.

CAD Import

Neutral CAD formats such as IGES, JT Open and STEP, as well as native formats like CATIA, NX, Solidworks and Pro/E, can be imported into GOM Correlate Professional at no extra cost. The individual data formats are imported via drag & drop and are automatically identified and assigned by the software. In many applications CAD elements are mandatory to align the measuring results to the correct coordinate systems and help to visualize and better understand the measuring results.

Free 2D Correlation Software

GOM Correlate provides free 2D digital image correlation that supports the evaluation of digital image series or movie files. The imported images are evaluated automatically providing a quick and easy access to all result data sets. Including the complete evaluation and reporting possibilities from GOM Correlate, the software offers a cost-effective solution for in-plane testing tasks using any digital camera.

Result Sharing

Today, test results need to be shared with colleagues, different departments and customers for presentations and further technical discussions. GOM Correlate supports result sharing by using its reporting engine that provides a print-ready documentation and fully animated PDF exports. For a better result presentation and understanding, complete project files can be shared and viewed within the 3D user interface of GOM Correlate.

Free Evaluation Software

All data created in GOM Correlate Professional and ARAMIS Professional is bundled in one single file. Thus, the free GOM Correlate software provides access to all measuring results, which leads to an improved interaction between the departments responsible for measurement, analysis, design and development. Guided user workflows and inspection principles help to understand and to interpret the measurement results. Measuring data can be discussed and decisions can be taken faster.

Open Data Architecture

Comparing and simultaneously visualizing measuring data and exchanging data in general becomes more and more important in metrology. Therefore, additional scalar values and geometries, for example, from simulation programs, can be imported into GOM Correlate Professional. The data created in the software can be exported in different formats and can be used, for example, for oscillation analysis in third-party software.

Virtual Extensometer

Based on the extensometer, you can check the length change of a specimen. The function allows a non-contact measurement of the length change with a reference length exactly given and can be used in 2D and 3D projects. Consequently, no mechanical contacts can influence the measuring results. The length change can be checked within one project in two or more directions. This function allows you to track the length change during a live measurement and to evaluate it during post-processing in the inspection workspace.

GOM Snap 2D

GOM offers free software for 2D image acquisition with USB 3.0 cameras which use the generic programming interface GenICam. The captured images are saved in a project which can be evaluated directly in GOM Correlate. The software offers various tools, for example, 2D point and surface components for simple analyses and records of movements and deformations. Using these tools, it is possible to understand complex part behavior in detail. Therefore, the software is ideally suited for plane test applications with existing cameras.

Evaluation Script for Bulge Tests

In GOM Correlate Professional, evaluating a bulge test is possible with a system script. The script evaluates a previously recorded test according to ISO 16808. The tool sizes and the slope of the linear elastic elongation and Poisson’s ratio are used to determine evaluation zones and to compute compensations according to the standard. The script generates the evaluation range of the thickness strain depending on the tool size, the yield curve, possibly the elastically compensated yield curve and a plausibility check using the bending strain ratio. The evaluations are recorded automatically in a report.

GOM Correlate

Minimum Hardware Requirements

  • Intel Core i3
  • 4 GB RAM 
  • OpenGL-compatible graphics board 
  • (NVIDIA Quadro for optimized hardware rendering)
  • Windows 7, 64 bit.


GOM Correlate Professional

GOM Correlate Professional differs from GOM Correlate by

  • Import of native CAD formats
  • Active parametric
  • 3D image correlation
  • Customizable mathematics


Download GOM Correlate

Minimum System Requirements

CPUIntel Core i3
Operating SystemWindows 7 SP1 64 Bit with current security updates
Graphics boardOpenGL-compatible graphics board
(NVIDA quadro for optimized hardware rendering)


The free software is available in the following languages: English, German, Chinese, French, Italian, Spanish, Portuguese and Japanese.

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