

Multi-Physics Finite-Elements Solver
General-Formulation based customizable Finite-Elements Solver
PolyDE Ecosystem
A Fully coupled multi-physical finite-elements solver with hp-adaptation that can model all partial differential equations up to second order in up to 3 dimensions with tensor-based material properties
SALOME Mesh
PolyDE Solver
VTK Postprocessing

PolyDE Script
PolyDE implements a custom script that drives the simulation process. Additionally a Python-to-PolyDE wrapper is used to drive and automate the PolyDE workflow

Salome Mesh
PolyDE implements import of various meshing formats including VTK, UNV and NetGen. Meshes normally include groups assignments for materials, regions and boundary conditions

PolyDE Solver
PolyDE implements up-to-date numerical solvers, multi-step non-linear solvers, residual-based hp-adaptation and ray-tracing

VTK Output
PolyDE exports solutions and results into VTK format that is readable by various tools such as VisIT or ParaView

Service Examples and Tool Customization
Custom Simulation Application
Multi-Physic Multi-Domain Simulation
Mechanic-Thermal-Semiconductor Simulation Program based on the PolyDE Solver.
Fully coupled, Mechanical-Thermal-Semicinductor simulation with Optical and Thermal carrier generation via Ray-Tracing

PolyDE Simulation of a Horn Antenna
Electromagnetic FEM Simulation of a Horn Antenna and Wave-Guide based on complex Edge-Elements

Model Building Workflow
Design of Workflows for Machine Learning and Model Building


Cloud Architecture
We support our customers with planing, design and setup of service-oriented 3-Tier cloud architectures for stateless applications, automated simulation workflows, virtual testing, generation and utilization of big data from virtual tests for machine learning workflows.
Including Cloud Security, Cloud Communication Design, Timing Synchronization based on Kubernetes or Open Shift technologies