What “tool choice” means in practice
- Right solver for the physics: structural, thermal, CFD, EM, or coupled multiphysics
- Efficient modeling: clean geometry + meshing strategy that matches accuracy needs
- Actionable outputs: clear plots, margins, and design recommendations
We can work with your existing CAD/EDA stack and export results in formats your team can reuse.
Core simulation stack
Below are the primary platforms we use most often. Each card shows what the tool is best at and how it typically fits into a project workflow.
ANSYS
Multiphysics platform used for structural, thermal, CFD, EM, and coupled workflows with production-grade reporting.
Abaqus
Advanced nonlinear FEA for contact, large deformation, hyperelasticity, plasticity, and complex material behavior.
SolidWorks
CAD platform for rapid design iteration and geometry preparation, often paired with simulation for validation loops.
SAP2000
Structural analysis and design for civil and infrastructure systems—frames, modal behavior, and load combinations.
COMSOL
Flexible multiphysics modeling with custom PDEs and specialized modules—excellent for research-grade coupled physics.
CST Studio Suite
Full-wave EM simulation for antennas, RF components, packaging, and EMC—time and frequency-domain solvers.
Keysight ADS
RF/microwave circuit design and simulation (schematic + layout), matching networks, and system-level RF workflows.
Need a specific tool?
If your team is standardized on a particular solver or file format, we can usually adapt the workflow and deliverables.
Typical deliverables
- Simulation setup summary (assumptions, materials, boundary conditions)
- Key plots (stress/strain, temperature, flow, S-parameters, fields, etc.)
- Design recommendations with “why” (what to change and expected impact)
- Optional correlation plan (if you want to match test data)
Have a project in mind?
Share your goals and constraints. We’ll recommend the best solver + workflow and outline next steps.