Altair® Radioss® is an industry-proven analysis solution that helps users evaluate and optimize product performance for highly nonlinear problems under dynamic loading. For more than 30 years, organizations have used Altair Radioss to streamline and optimize the digital design process, replace costly physical tests with quick and efficient simulation, and speed up design optimization iterations.
OpenRadioss is the publicly available open-source code base that a worldwide community of researchers, software developers, and industry leaders are enhancing every day. OpenRadioss is changing the game by empowering users to make rapid contributions that tackle the latest challenges brought on by rapidly evolving technologies like battery development, lightweight materials and composites, human body models and biomaterials, autonomous driving and flight, as well as the desire to give passengers the safest environment possible via virtual testing.
With OpenRadioss, scientists and technologists can focus their research on a stable code base under professional maintenance that benefits from the large library of existing finite element capabilities and the continuous integration and continuous development tools provided to contributors.
For more information on OpenRadioss project, please visit the OpenRadioss GitHub at https://github.com/OpenRadioss/OpenRadioss or the OpenRadioss web page www.openradioss.org If you have any questions about OpenRadioss, please feel free to contact [email protected].
Tools Repository is dedicated to hosts tools for OpenRadioss:
Altair® Radioss® and OpenRadioss have a user interface to create libraries containing user routines and use them in Radioss.
The user library is generated using the userlib_sdk. The userlib_sdk is a collection of different platforms and compilers to create libraries.
Each platform/compiler set has a build_script
, a static library and Fortran Module files. Those will permit to generate the user library.