ANSYS Simplorer is a powerful platform for modeling, simulating and analyzing virtual systems prototypes. It enables product development teams to verify and optimize performance of their software-controlled, multidomain systems designs.

Simplorer is used in model-based design flows in automotive, aerospace, electronics, energy and industrial equipment segments to model and simulate multidomain systems.ANSYS Simplorer is a powerful platform for modeling, simulating and analyzing virtual systems prototypes.

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ANSYS Simplorer

More About ANSYS Simplorer

  • It enables product development teams to verify and optimize performance of their software-controlled, multidomain systems designs.
  • Simplorer is used in model-based design flows in automotive, aerospace, electronics, energy and industrial equipment segments to model and simulate multidomain systems.

Features of ANSYS Simplorer

Powerful Graphical Modeling, Create hierarchical schematics of complex power electronic circuits and multi-domain systems. Model with standard languages and exchange formats.

Create diagrams of multidomain system behavior using readily available model libraries, and standard languages and interfaces including VHDL-AMS, Modelica, C/C++ and the Functional Mock-up Interface (FMI).

Create Reduced-Order Models (ROMs) from detailed 3-D simulations to accurately capture high-fidelity physics at the system level.

Assemble system models and integrate with third party environments using the Functional Mock-up Interface (FMI) standard for model exchange and co-simulation.

Test system models in the time and frequency domains, and run experiments to optimize performance and analyze robustness and reliability.

Analyze results graphically and use measurements and data transformations to extract performance insights from simulation outputs.

Construct and parameterize system models at multiple levels of detail and fidelity using built-in libraries of physical components, electronic devices and control blocks.

Create Reduced-Order Models (ROMs) from detailed 3-D simulations to accurately capture high-fidelity physics at the system level.

Simulate mixtures of engineering domains and continuous and discrete descriptions using industry-trusted solver technology.

Automate simulation workflows and develop custom toolkits with the built-in Python scripting environment.