Multiscale modeling
Connect electronic, atomistic, mesoscopic, and engineering scales.
Predict materials properties and performance before fabrication.
Accelerate design and research with automated, high-throughput workflows.
Reveal structure–property relationships across time and length scales.
Comprehensive materials simulation
The MedeA Computational Materials Simulation Environment enables researchers to move seamlessly between:
From atomic insight to real-world performance
Materials challenges span length and time scales. Electronic interactions determine bonding and chemistry, atomic-scale structure drives properties, and microstructure controls macroscopic performance. Multiscale modeling connects these phenomena for a deep understanding of materials behavior.
Every scale - One platform
The MedeA Environment is an integrated platform for multiscale materials modeling. It combines advanced simulation methods, machine learning, automated workflows, model building, and analysis tools. Results at different scales can build on each other - for example, high-accuracy atomistic models can calculate inputs for models of the mesoscopic or macroscopic scales.
This unique combination of software tools, AI and deep scientific expertise offers a unified framework for true multiscale workflows and enables efficient collaboration between computational scientists and engineering teams.
With integrated support for leading technologies, the MedeA Environment helps organizations accelerate materials innovation, reduce development costs, and design better-performing products with greater confidence.
Contact us to begin your multi-scale modeling journey.