Research & Development
Open-source tools powering the next generation of nuclear engineering — from data visualization to cloud-based simulation.
NukeHub Projects
5 of 5 projects


NukeLab
Multi-user scientific computing platform with on-demand containerized nuclear-engineering workspaces, granular RBAC, real-time monitoring, and credit-based resource management.


NukeIDE
An open-source IDE specifically designed for nuclear simulation and engineering. Built on Eclipse Theia with extensions for OpenMC, 3D visualization, and robust environment management.


NRMS
Access the PRIS database and visualize the data in a user-friendly manner.


NukeAnalytics
Make use of the PRIS database to analyze the data using SQL Lab and generate charts and dashboards.
NukeBox
A package manager specifically crafted to simplify the installation and management of vital packages and libraries required for nuclear physics simulations and analyses.
Industry Standard Integrations
9 of 9 tools ready to run in the cloud.
DAGMC
Direct Accelerated Geometry Monte Carlo toolkit for CAD-based radiation transport and geometry handling.
Geant4
A toolkit for simulating the passage of particles through matter, widely used in high energy physics and medical applications.
KDSource
Kinetic Deuterium Source toolkit for fusion neutron source characterization and plasma heating.
NJOY
Nuclear data processing system that produces pointwise and multigroup cross sections and angular distributions.
OpenMC
A community-developed Monte Carlo particle transport simulation code focused on neutron criticality and shielding applications.
Paramak
Python package for creating parametric 3D CAD models of fusion reactors and components.
PlasmaPy
A community-developed Python package for plasma physics and fusion energy research.
PyNE
Python toolkit for nuclear engineering simulations, providing interfaces to canonical nuclear data and algorithms.
VMEC++
C++ implementation of the Variational Moments Equilibrium Code for 3D stellarator and tokamak equilibria.