CAD Import & Edit
SimScale offers comprehensive CAD import and editing features, ensuring a seamless transition from your CAD model to simulation. With support for all major CAD formats and native CAD integrations like Onshape and Fusion360, users can easily import their designs. Additionally, the platform provides parametric history-based CAD editing tools for tasks like flow volume extraction, clean-up, and simplification. Automatic contact detection simplifies the process, allowing engineers to focus on their simulation objectives.
Mesh Generation
SimScale streamlines mesh generation by offering various techniques and approaches. Users can opt for automatic physics-aware meshing or take control with manual adjustments for local size control. The platform supports tetrahedral, hexahedral unstructured, hexahedral structured, cut-cell, Cartesian, thin section meshing, sweep meshing, and layer inflation. This flexibility ensures that engineers can tailor the mesh to suit their simulation requirements.
PDE Solvers
SimScale stands out by providing a range of powerful solver technologies for different physics simulations. Whether you need Implicit Finite Element Analysis (FEA), Finite Volume Body Fitted, FV Immersed Boundary, Lattice Boltzmann, or Electromagnetics solvers, the platform has you covered. This diverse selection allows users to select the best-in-class solver for each specific physics scenario, enhancing the accuracy and efficiency of their simulations.
AI Solvers
One of the innovative features of SimScale is its integration of AI solvers for real-time physics prediction. Engineers can generate data on the platform and leverage it to train AI models, enabling predictive capabilities. The integrated AI framework supports training, deployment, and usage of AI solvers, with a Graph-Neural-Network-based approach that is applicable to all physics simulations. Through AI solvers, users can achieve real-time predictions and enhance their simulation processes.
Post-processing
SimScale offers modern and interactive 3D post-processing functionalities that empower engineers to delve into their simulation results effortlessly. Users can explore large datasets with ease, thanks to features like integrated 3D post-processing, data interrogation, and analysis tools. From visualizing slices and cut planes to examining particles, streamlines, and glyphs, the platform supports comprehensive post-processing capabilities. Engineers can also benefit from application-specific evaluations tailored to industries like Turbomachinery and AEC, along with tools like field calculator, compare view, animations, and image capture.