Enhancing predictive maintenance with Ansys Twin Builder.
A comprehensive platform for creating simulation-based digital twins, incorporating real-world sensor inputs to enhance predictive maintenance, reduce warranty and insurance costs, and optimize operations. The platform combines a multidomain system modeler with 0D libraries, 3D physics solvers, and reduced-order models, simplifying system development. Embedded software tools support component reuse for rapid system modeling. Twin Builder's capabilities include multidomain simulation, HMI prototyping, systems optimization, and XiL validation for performance assurance. Integration with IIoT platforms allows real-time data connectivity and runtime deployment, facilitating effective predictive maintenance and digital twin implementation.
- System Models & Digital Twins
- Deploy Your Twin
- Scale with IIoT Platforms
- Flexible Licensing
- Hybrid Analytics
- Reduced-Order Model (ROM)
- Export to Other Environments
- Tool Integration and Customization
Check out the key features of Ansys Twin Builder
Advanced Multidomain System Modeling
Creating hierarchical schematics for complex electronic circuits is enabled in Ansys Twin Builder. It supports VHDL-AMS, Modelica, and SPICE, integrating conserved, signal-flow, and discrete event behaviors. Consistency is ensured with on-the-fly design checking tools.
Access to Extensive Model Libraries
The development of multidomain system models is facilitated by built-in Modelica and specialized libraries. You can create battery cell models, select characterized components, and utilize add-on libraries for applications such as EV powertrains and aircraft electrical systems.
IIoT Connectivity
Configuration of connectors to send and receive data is supported, with compatibility for platforms like Microsoft Azure IoT, PTC ThingWorx, and SAP Predictive Asset Insights. Users can deploy digital twins on the cloud, edge, or offline, perform validation and verification, and export deployable containers.
Hybrid Analytics
This feature supports uncertainty quantification using probability distributions and propagation, with multiple algorithms to handle complex parameter spaces. Both offline and online scenarios are supported for parameter calibration, driven by IIoT platforms or Twin Deployer.
Export to Other Environments
Quick transfer of diagrams, plots, and tables to Microsoft Excel or various image formats is enabled. It facilitates the automatic generation of HTML design summary reports. Integration with SCADE Suite and SCADE Display enables interactive simulations, while Python and Visual Basic scripting automate workflows.
Tool Integration and Customization
Seamless coupling with 2D and 3D electromagnetic, CFD, and mechanical solvers is possible. You can build custom graphical panels with rapid prototyping tools to control and monitor simulations. Co-simulation with MathWorks Simulink and scripting with Python or Visual Basic streamline simulation workflows.
Analysis and Reporting
Extensive graphical and tabular reporting options for simulation results are provided within the software. You can plot time-domain and frequency-domain waveforms, generate Bode and Nyquist plots, and create data tables. Graphical reports can be displayed directly on system diagrams and updated as simulations progress.
Software Sales
If you have any general questions about our Ansys, Moldex3D, Dante, Particleworks, or CF Turbo simulation software (quotation, licensing, training), please contact us using one of the following contact details. Please note that our software is only available to customers from the following countries: Hungary, Slovenia, Croatia, Serbia, Bosnia and Herzegovina, Montenegro, and Macedonia.
sales (at) econengineering.com
+36 1 279 0320

Greg Lipóczi, Dr.
Commercial Director

László Molnár, Ph.D.
Academic & Key Account Representative

Péter Bara
Head of Software Sales
Key Account Manager
East Hungary

János Simon
Key Account Manager
West Hungary
