Multiphysics & System Level
We create high-fidelity digital twins of machines and processes, integrating disciplines such as mechanical, thermal, electrical, and fluid dynamics. This allows us to predict system behavior under real-world conditions, optimize performance without costly physical testing, and identify potential issues early in the design phase.
Structural & Thermal Analysis
Through Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD), we evaluate mechanical stress, deformation, heat transfer, and fluid flow dynamics. These insights allow us to refine designs for maximum durability, efficiency, and compliance with industry standards. Whether it’s ensuring mechanical integrity or optimizing heat dissipation, our simulation-driven approach helps eliminate design weaknesses early in the process.
Virtual Commissioning and HIL Testing
We accelerate the software validation and integration process by simulating control logic, PLC programming, and embedded software in a virtual environment. HIL testing connects real hardware components to digital models, enabling real-time performance validation. This approach significantly reduces commissioning time and ensures a smooth transition from design to implementation. With virtual commissioning, we can develop and test software even before the physical machine is built, allowing for early issue detection and a more efficient development process.
Design Optimization & Parametric Studies
We apply optimization and parametric studies to explore the best design configurations. By systematically analyzing trade-offs between cost, performance, and sustainability, we refine systems for optimal efficiency. Our automated design iterations accelerate product development, reduce material consumption, and improve overall system effectiveness.
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