Quantified Uncertainty with Optimization for the Finite Element Method (quoFEM) is an open-source research application, that is hosted on the quoFEM Github page, and released under the 2-Clause BSD license (see Copyright and License ). The application provides uncertainty quantification methods (forward, inverse, reliability, sensitivity and parameter estimation) to researchers in natural hazards who utilize existing deterministic simulation software applications, typically Finite Element applications, in their research. It has been developed at the SimCenter, within the University of California, Berkeley. The SimCenter is part of the Natural Hazards Engineering Research Infrastructure (NHERI) program, funded by the National Science Foundation.
Depending on the type of numerical simulation being performed, the additional simulation required for uncertainty quantification can be computationally prohibitively expensive. To overcome this impediment, the user has the option to perform the response simulations on the Stampede2 supercomputer. Stampede2 is located at the Texas Advanced Computing Center (TACC) and made available to the user through NHERI DesignSafe-CI, the cyberinfrastructure provider for the distributed NSF-funded Natural Hazards Engineering Research Infrastructure (NHERI) facility.
This is Version 2.0 of the tool. Users are encouraged to comment on what additional features and capabilities they would like to see in this application. These requests and feedback can be submitted through an anonymous user survey. We greatly appreciate any input you have. If there are features you want, chances are many of your colleagues also would benefit from them. Users are encouraged to review the lbl-requirements to see what features are planned for this application.