About Us

Our Mission
At Mirical Software, we accelerate innovation through simulation. We develop intuitive, automation-first software that dramatically reduces design and engineering cycle times, empowering R&D&I teams to innovate faster and smarter.
We are not just a software provider, we are a strategic engineering partner. Our platforms blend speed, precision, and usability to enable breakthrough performance across multiphysics, bioengineering, biomechanics, composites, and advanced plastic manufacturing domains.
What We Do
- Boost efficiency and reliability with advanced composite materials and pressure vessels
- Cutting-edge modeling of heat transfer and solid mechanics, incorporating material nonlinearities for enhanced accuracy
- Advanced stress analysis coupled with complex multiphysics interactions for precise, real-world insights
- Digital product validation for faster, smarter decision-making
Our Services
We provide flexible software licensing and expert engineering consulting, offering tailored solutions that integrate seamlessly with existing modeling and simulation tools to support the entire product lifecycle, from initial design to optimization and virtual testing.
Our Innovation Track Record
Developed object-oriented tools in C++ and C# for filament winding, integrating machine automation with finite element analysis to simulate complex manufacturing dynamics.
Developed an empirical-based simulation tool to predict swell behavior, greatly enhancing the accuracy and performance of plastic fuel tank system designs.
Developed and implemented a unique multilayer solid-shell element enabling single-element through-thickness modeling for simulating thin laminated composite structures under large deformation — supporting accurate FEM analysis of aerospace composite forming and capturing complex behaviors such as contact, delamination, shear locking, wrinkling, in-plane and out-of-plane buckling, fiber fracture, and continuum damage mechanics.
Implemented robust finite element methods to simulate large displacements, coupled thermo-electro-mechanical shell behavior, and material nonlinearities — including plasticity, elasto-viscoplasticity, and continuum damage mechanics — within modular, object-oriented frameworks, with applications such as fracture analysis of aluminum reduction cell cathodes during baking and electrolysis.
Developed deformable surface models for bioengineering, including surgical simulation and medical device design — enabling real-time interaction with haptic tools and 3D solid models; implemented XFEM-based tools for soft tissue dissection, and mechanical models supporting topology changes via the Level Set Method without requiring direct remeshing.
A Global Vision
Powered by Canadian engineering expertise and anchored in the heart of Europe, Mirical Software delivers high-performance simulation solutions to innovation-driven teams worldwide.