A cloud solution for your simulation needs

MTwin offers a multiphysics simulation engine, ready to provide accurate response data with a click of a button!

Eliminate upfront costs

No need to pay for licensing upfront, you can pay as you go in relation to the complexity and frequency of the simulations at hand

Avoid maintenance

MTwin is browser-based. This means that there is no installation involved, no upgrading necessary and no specialized hardware is required

Boost team development

All data are securely stored in the cloud, enabling your team to collaborate seamlessly

Private alpha in March ’22

MTwin is under rigorous development and is expected to achieve its first milestone in March ’21. MTwin is expected to have its core features up and running by that time and will undergo extensive testing

Care to take a sneak peak?

Drop us an e-mail at info at ncompeng.com and we will contact you!

3DCNT

A high-end material design tool

Materialize offers a vast database coupled with a simulation engine, ready to provide material selection choices with a click of a button!

High-end modeling

Materialize is a high-end modelling software for the analysis and design of high performance materials. It is highly scalable and parallel with the ability to perform simulations of complex real-world structures comprised of the material under design, providing the designer with a stochastic multiscale optimization framework which integrates multiple lengths and time scales.

Material response optimization

Materialize provides the ability to calculate and optimize the material response, either on its own or as part of a real-world complex structure, while at the same time, simulate and consider the effects of randomness of both the material structure and the properties of the structure comprised of this material. Materialize addresses the needs of several industrial sectors (chemical, building construction, electronics, automotive, aerospace and energy industries) whose needs are not met by the current off-the-shelf software.

A coherent stochastic multiscale optimization framework

Materialize is an innovative robust stochastic multiscale optimization (SMO) computational platform. The multiscale problem is formulated in a hybrid hierarchical/concurrent FE2 setting as a nested solution scheme between a macroscale finite element (FE) model and realistic representative volume elements (RVEs) characterizing the material points of the structure. A hierarchical approach constructs the corresponding RVE FE models at the micro-meso scale, starting from the description of carbon inclusions at the atomic level and upscaling to FE representations of realistic RVEs, considering uncertainties involved in the microstructural topology. Interphase properties at the molecular level are derived via detailed molecular dynamics (MD) and/or molecular mechanics (MM) models and projected to efficient surrogate models that are integrated in the SMO platform.

HPC ready

At its core, Materialize implements highly scalable parallel algorithms for solving the extremely large-scale systems of algebraic equations, as they occur for the solution of SMO problems. This high demand for computing resources is addressed with domain decomposition methods (DDMs), custom tailored to the properties of a SMO problem. Materialize features implementations of these algorithms in hybrid CPU/GPU computing environments in order to minimize computing time and at the same time, utilize the heterogeneous resources of contemporary HPC environments.

About us

Next Generation Computational Mechanics and Engineering (NComp) is a consulting services company on matters of engineering, design and simulation. NComp has high expertise on the fields of:

  • Computational mechanics
  • Material design and analysis
  • Stochastic analysis, optimization and neural networks
  • Numerical analysis, software engineering and HPC

Except using tools of the trade, NComp is utilizing MSolve in order to tackle with the engineering problems of its clients.

CONTACT US

We're not around right now. But you can send us an email and we'll get back to you, asap.

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