Build and visualize materials models. Apply the full spectrum of computational methods. Whether you’re beginning your simulation journey or leading advanced research, MedeA software empowers R&D and maximizes every compute cycle.
Materials Design announces MedeA® 3.13, the latest release of its comprehensive materials simulation environment, delivering significant advances across model building, simulation, and analysis. This release brings atomic insights at scale — empowering researchers to tackle larger, more complex systems with greater speed and confidence...The highly anticipated update to VASP 6.6.0 offers a new and very accurate NMR chemical shift computation for solids within the so-called ZO
This webinar presents a single, parameter-free simulation workflow that runs from density functional theory to machine-learned interatomic potentials to continuum phase-field modeling, drawing all parameters from atomistic calculations rather than empirical fits. Through case studies in zirconium cladding corrosion, hydride formation and fracture, tritium trapping in oxidized tungsten, and radiation damage, Kyle will show how one atomistics-to-continuum pipeline built on Mede
Dr. Eyert will deliver a talk titled "Machine-Learned Potentials for Transition-Metal Oxides." Transition-metal oxides are a class of materials with diverse and valuable properties, including magnetism, superconductivity, and catalytic activity. Understanding and predicting their behavior is crucial for developing new technologies in energy, electronics, and photonics.
Solve your toughest problems with contract research
Where in-house resources are unavailable, we can apply simulation to deliver on key materials research projects.