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Wolfram SystemModeler 12.1.0 Windows.macOS.Linux

cadcamaec@protonmail.com2023-09-18CAE.CFD.FEA76
WolframrecentlyreleasedSystemModeler12.1,isaneasy-to-use,next-generationmodelingandsimula

Wolfram recently released SystemModeler 12.1, is an easy-to-use, next-generation modeling and simulation environment for cyber-physical systems.

SystemModeler 12.1 | March 2020

- Strict Modelica compliance checking, with improved error messages
- Customizable user modes simplify and adjust the interface in presentation and education scenarios
- Extended GUI support for the Modelica language
- Ships with Modelica Standard Library 3.2.3
- HTML export of model documentation
- Measurement tools in Simulation Center
- Multiple y axes for plotting signals using different units
- Easy zooming of plot axes
- Support for Modelica synchronous language elements and Modelica_Synchronous library
- Improved tearing for systems of equations
- Improved ability to recover from errors during simulation, such as asserts

Wolfram SystemModeler is an easy-to-use, next-generation modeling and simulation environment for cyber-physical systems.

Using the Wolfram SystemModeler, high-precision modeling simulations can be performed, because, unlike almost every other system, the SystemModeler computes not only numerically but also symbolically, i.e. with arbitrary accuracy. Numerous libraries, including the related modeling tools, simplify these multiphysical simulations. The models are created by drag-and-drop components from integrated or added libraries. The liberaries contain components from a variety of technical fields, e.g. electrical, mechanical, fluidic, and chemical applications, as well as from biological applications and energy managment.

To simulate and experiment with models you typically interactively select what variables to visualize or for 3d mechanical systems automatically animate.

For programmatic control of simulation and more advanced analysis and design there is a built-in Wolfram SystemModeler Link that integrates Mathematica and Wolfram SystemModeler. Typical analysis tasks include parameter sweeps, sensitivity analysis. Typical design tasks include parameter optimization such as in model calibration or control design.

Due to the scope and depth of SystemModeler, the field of application can not clearly be defined. Potential users include system engineers, control engineers, system biologists, researchers, hobbyists, educators, students, and many others.

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