Investing in the right set of tools is critical for product development life cycle especially simulation driven product engineering. At MindMesh, we use a variety of software tools for our services which allow us to evaluate them thoroughly. We help our clients find value in the benefits of these tools, partner with the software providers to distribute, resell and support the software our clients use.
One of our software partners is Compass who offers a full collection of simulation software for Multiphysics simulation, structural analysis and seakeeping analyses. As part of our partnership MindMesh offers the following software for our clients:
It is an entire engineering solution for solving problems involving fluid and porous media flow, heat transfer and multi-physics. At the heart of Tdyn CFD+HT is its leading finite calculus (FIC-FEM) solver technology, offering accurate solutions quickly and robustly. This analysis solution has been applied to the simulation of aerodynamics of buildings, fluid flow, ship hulls, glass bottle making processes and much more.
It is a finite element (FEM) environment for structural analysis, providing the ability to simulate every structural aspect of a product, thanks to its full range of capabilities to rapidly solve complex structural problems with ease. RamSeries offers capabilities such as linear statics, modal and three-dimensional structural analysis, linear and non-linear transient simulations, impact, coupled fluid-structure analyses, thermo mechanical, fatigue assessment and much more.
It is a suite of tools for the computational analysis of the effect of waves, wind and currents on naval and offshore structures, as well as for maneuvering studies. SeaFEM has been developed for the most realistic seakeeping simulations of 3D multi-body radiation and diffraction problems, by solving potential flow equations in the time domain, using the finite element method on unstructured meshes. SeaFEM features unique capabilities for global performance analysis of moored and/or connected systems subject to random sea states. SeaFEM applications include ships, semi-submersible and TLP platforms, FPSO systems, marine wind turbines and ocean energy harnessing devices.