MOOSE is an open-source, parallel finite element framework largely developed at Idaho National Laboratory. MOOSE is broadly used for nuclear fission research and development and is also used for nuclear fusion. MOOSE-based applications have been developed to enable the simulation of many types of nuclear physics. Coreform Cubit and MOOSE both read the Exodus file format natively, which leads to strong interoperability. This case study demonstrates how Radiant Nuclear uses Coreform Cubit and MOOSE together. Watch this webinar to learn more about the MOOSE/Coreform Cubit workflow

OpenMC is an open-source Monte Carlo neutron and photon transport simulation code, developed largely out of MIT and Argonne National Laboratory.

• Case study: Modeling of the Advanced Test Reactor Using OpenMC, Cubit, and Griffin

The MCNP®, Monte Carlo N-Particle®, code can be used for general-purpose transport of many particles including neutrons, photons, and electrons. The transport of these particles is through a three-dimensional representation of materials defined in a constructive solid geometry.

In addition, external structured and unstructured meshes can be used to define the problem geometry in a hybrid mode by embedding a mesh within a constructive solid geometry cell, providing an alternate path to defining complex geometry.

Coreform Cubit can be used to generate unstructured meshes for use in MCNP, as well as to generate surface CAD mesh data through its DAGMC functionality to be sent to MCNP.

DAGMC

• Coreform DAGMC Model Preparation and Export Tutorial

Commercial and academic licenses are available. Contact sales@coreform.com for details.

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