Model-based design can significantly promote the efficiency of large-scale complex system development, reduce R&D costs and improve results of design. Excellent modeling and simulation platform is the basis of successfully solving model-based design problems and the key factor to achieve complex computing and analysis tasks. Furthermore, modeling and simulation platforms usually have to meet the lots of engineering requirements, such as the compatibility of open standard modeling language, supporting multi-physical domain modeling, excellent simulation speed and accuracy, analysis ability of results, interfaces with other simulation tools, ability of display and recording and so on. In order to meet the above requirements, SIMTEK provides the most advanced international modeling and simulation platforms and tools inherently supporting Modelica language and FMI standard. These simulation tools provide the features such us physical modeling, simulation optimization, design analysis, 1D-3D coupling modeling, cloud platform computing and distributed co-simulation.
Dymola is a multi-disciplinary system simulation platform developed by Dassault Systemes based on Modelica and FMI standard. It can be used to model and simulate integrated multi-physical systems in aerospace, automobile, railway, energy, industrial automation, architecture and many other fields. Besides, Dymola also provides and supports multiple Modelica commerical libraries. With them, Dymola can support multi-level modeling with different detail accuracy to meet different requirements at all stages of the product development cycle. It has powerful solver and multi-core computing capabilities, which can support SIL, MIL and HIL.
SimTek Design Suite
SimTek Design Suite cloud computing platform is a FMU cloud computing platform developed by SIMTEK based on Web technology and FMI standard protocol. It can directly calculate the FMU model derived from Dymola, Simulink, Amesim and other common engineering modeling softwares. By means of Web technology, it can achieve cloud elastic computing and temporary expansion of server capacity according to the complexity of the model and the requirement of computing speed. It can reset the model parameters without re-modeling and re-exporting, and realize multi-parameter parallel computing and model optimization.
FMI Toolbox is a testing plug-in tool developed by MODELON AB based on FMI standard protocol, which can support the bi-directional conversion between MATLAB/Simulink model and FMU. It can support the control system development of virtual prototype and main working processes of system integration, from design to optimization, and then to MIL/SIL/HIL verification test in MATLAB/Simulink.
MoBA Lab is a model-based system design and analysis platform, addressing design, analysis and optimization features, based on FMI standard protocol by TLK-Thermo GmbH. MoBA can support FMU encapsulation, configuration and composition, parameter and correlation configuration, and provide FMU solver in a variety of software environments. It can deal with lots of model optimization problems, such as parameter optimization, parameter evaluation, state evaluation and optimal control.
MoBA Simulator for Excel
MoBA Simulator for Python
MoBA Simulator for C/C++
MoBA Simulator for DaVE
MoBA Simulator for LabVIEW
MoBA Simulator for Simulink
MoBA Simulator for TRNSYS
MoBA Simulator for TISC
MoBA ModelFitter – Parameter fitting and model analysis
MoBA FMU Configurator – Configuration
MoBA MUSCOD – Dynamic optimization
TISC Suite is a real multi-disciplinary and cross-platform simulation platform developed by TLK-Thermo GmbH. It can provide a standard co-simulation environment, which can effectively connect to synchronize and control with different simulation tools. The simulation process support local, remote and distributed modes. TISC Suit is widely used in automobiles, aerospace, railway, national defense industry, ship and other fields. TISC also provides C, C++, C#, Python and Fortran development interfaces to support customized commercial software interface development to satisfy the specific demands.