Instructions are given in the tutorials for how to enable options like these. To use DICe for trajectory tracking, or to enable some of the advanced features like the regularized global methods, the command line interface needs to be used. If you are using Linux or would like to make your own custom modifications to DICe, you can build DICe and the DICe GUI using the instructions on the documentation page below.Īlthough the GUI is expanding with each new version, only the basic use cases for 2d and stereo DIC are currently available as options in the GUI. If you are on a Windows or Mac OS and simply want to install DICe and use it there are package installers available on the release page. There are two ways to install and use DICe. Capabilities from DICe can be invoked through a customized library interface, via source code integration of DICe classes or through a standalone executable. DICe is machine portable (Windows, Linux, and Mac) and can be effectively deployed on a high performance computing platform (DICe uses MPI parallelism as well as threaded on-core parallelism). The images analyzed are typically of a material sample undergoing a characterization experiment, but DICe is also useful for other applications (for example, trajectory tracking). Its primary capabilities are computing full-field displacements and strains from sequences of digital images and rigid body motion tracking of objects. DICe Pushing DIC technology to new levels, togetherĭICe (pronounced /dīs/ as in "roll the dice") is an open source digital image correlation (DIC) tool intended for use as a module in an external application or as a standalone analysis code.
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