System Modeler Student Edition

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System Modeler

System Modeler Student Edition

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A New Era of Interated Design Optimization

Increasing the fidelity of modeling has come to the forefront of driving design efficiency.

Yet many of today's tools are limiting: block diagrams that poorly represent key components; models just for simulation, not engineering analysis; and computation that's only basic numerics or that's not integrated at all.

Instead, SystemModeler uses versatile symbolic components and offers an all-in-one integrated workflow, all backed with the ultimate computation environment.

That gets you the power to model reality at high fidelity—driving insight, innovation, and results.


Features of SystemModeler


Modeling & Simulation with SystemModeler

    Drag & Drop Modeling   Hierarchical Modeling
Build high-fidelity models using predefined components in an easy drag-and-drop environment. Perform numerical experiments on your models to explore and tune system behavior.    
Multidomain Modeling   Built-in Model Libraries   Hybrid Systems Modeling
Simulation & Experimentation   Instant Visualization    
  • Standalone Simulation Executable
  • Export & Publish Results
  • BioChem Libraries
  • Custom Components & Libraries
  • See All Modeling & Simulation Features

Analysis & Design with Mathematica

    Programmatic Simulation Control   Sensitivity Analysis
Get a deeper understanding of model behavior using Mathematica. Analyze model equations and simulation results using all of Mathematica's features including visualization, control systems design, and more.    
Model Calibration   Notebook Environment   Plotting & Custom Visualization
Model & Equation Analysis   Control System Design    
  • Computable Data
  • Optimization & Design
  • All of Mathematica
  • See All Analysis & Design Features

Why SystemModeler?

Wolfram SystemModeler is the most complete physical modeling and simulation tool. Unlike other systems, SystemModeler requires no add-ons and fully supports the standard Modelica model language. And SystemModeler is designed to connect perfectly with Mathematica for the ultimate integrated modeling, simulation, and analysis workflow.

Product Comparison

supported supported partially supported partially supported additional purchase required additional purchase required
  SystemModeler MapleSim* Simulink*
Additional Requirements Mathematica optional *Maple required *Matlab required


Hierarchical modeling that follows real-life topology supported supported supported
Multidomain modeling supported supported supported
Drag-and-drop model design supported supported supported
Work with Modelica models supported partially supported  
Combine Modelica code with drag-and-drop design supported    
Include external C functions supported   partially supported

Built-in Model Libraries

SystemModeler MapleSim Simulink
Biochemical pathways supported    
Electrical (analog and multiphase) supported supported partially supported
Magnetic supported supported supported
Mechanical (translational, rotational, and 3D multibody) supported supported partially supported
Signal blocks (continuous, discrete, and logical) supported supported supported
State graphs supported   supported
Thermal (heat transfer and fluid flow) supported supported partially supported


SystemModeler MapleSim Simulink
Hybrid continuous-discrete solver supported partially supported supported
Real-time solver supported   supported
Sensitivity analysis solver supported    
Initialize to steady state supported   supported


SystemModeler MapleSim Simulink
One-click plotting of any system variable supported    
Automatic 3D mechanical visualization supported supported  
Custom visualization environment Mathematica Maple Matlab
2D and 3D graphics language supported partially supported supported
Advanced 3D graphics (lighting, transparency, and more) supported partially supported supported
2D and 3D animation supported partially supported partially supported
Standard formats (.avi and .mov) supported   partially supported
Instant interactivity supported    

Analysis & Design

SystemModeler MapleSim Simulink
Analysis platform Mathematica Maple Matlab
Programmable simulation control supported supported supported
Parallelized parameter sweeps supported   partially supported
Model equation analysis supported supported  
Model equilibrium detection supported supported supported
Control systems design supported supported supported
Model calibration supported supported supported
System optimization supported supported supported


SystemModeler MapleSim Simulink
Reusable standalone simulation executable supported   supported
Interactive HTML model supported   supported

Simplify Your Workflow

SystemModeler implements the Modelica language, which takes advantage of the strengths from component-based modeling, where the flow in components is modeled. This presents significant advantages compared to block-based modeling. This example of constructing an electric circuit illustrates the simplified workflow obtained with component-based modeling:

The Modelica Advantage


Modelica is an open standard language specifically designed for modeling physical systems. It allows individuals and groups to efficiently work together on large-scale projects, constructing reusable custom components and libraries.

Wolfram MathCore is a founding member of the Modelica Association and has taken an active part in the Modelica language design since 1997. SystemModeler is the result of this effort and more than 10 years of close cooperation with customers in the automotive, heavy-machinery, life science, and marine sectors, making it the easiest Modelica tool to use.


Beyond Simulation

A high-fidelity model is useful for much more than just numerical simulation, including everything from optimization and control design to custom visualization and interactivity. Together, SystemModeler and Mathematica provide complete programmatic control of simulations, enabling all kinds of design and analysis.

Uses and Examples of SystemModeler

SystemModeler makes it easy to develop detailed, realistic models in any industry or application area. A core set of physical and logical components is built-in, and custom libraries can be developed to represent the key elements and processes in any domain. Modeling, simulation, visualization, and analysis with Mathematica are tightly integrated, dramatically reducing development time.
Aerospace and Defense   Automotive and Transportation   Heavy Equipment
Model and test complex systems such as unmanned aerial vehicles (UAV), space robotics, and aircraft dynamics. SystemModeler enables system- and component-level design and continuous testing and verification.   Design and simulate vehicle dynamics, powertrain controllers, chassis and safety systems, and more with SystemModeler. Combine with Mathematica for control system design and optimization.   Use SystemModeler to design and simulate heavy machinery with kinematic, dynamic, and thermal behaviors. Perform virtual prototyping, parameter optimization, and other analyses with Mathematica.
Marine   Industrial Manufacturing   Consumer Products
Model ships; underwater vehicles; floating structures; and guidance, navigation, and control (GNC) systems. Apply rigorous analytical techniques to the models using Mathematica.   Model new manufacturing processes prior to implementation or existing ones in order to diagnose problems. Use Mathematica for analyses including pre- and post-processing of models, simulations, and results.   Design home appliances and other electronics systems with SystemModeler and easily incorporate non-electronic elements, such as mechanical assemblies and temperature control, into the complete design.
Energy   Life Sciences   Education
Use SystemModeler to develop accurate models of wind, solar, and other power generation and distribution systems. Combine with Mathematica for further optimization and analysis.   Use SystemModeler for modeling and analysis throughout drug discovery, development, clinical trials, and manufacturing. The flexible environment supports application areas such as systems biology, bioinformatics, and more.   Use the examples from a wide range of application areas to learn about modeling and simulation with SystemModeler and the Modelica language.

Customer Stories



Building the Pod Propulsion Mermaid™ System

As a world leader in ship propulsion development, it is crucial to have an in depth understanding of system dynamics. Therefore we collaborate with [Wolfram] MathCore whenever we need to develop and analyze dynamic models of our systems.

—Stig Lönngren, Responsible for development of pod propulsion Mermaid™,
Rolls-Royce AB



Developing Engine Test Benches

When we were about to develop a new engine test bench, we contacted [Wolfram] MathCore and asked them to help us with the vibration analysis. By making a dynamic model in [SystemModeler] MathModelica they could study the system dynamics and give us design recommendations that proved to be essential for the success of the test bench.

—Tommy Andersson, Head of Engine Dynamics and Acoustics, Scania


Siemens Engines

Maximizing Gas Turbine Performance

By using [Wolfram] MathCore as an external partner, we can be sure that we really obtain a finished model with correct results, within the given constraints. We can therefore give MathCore our best recommendations.

—Lennart Näs, Manager, Gas Turbine Performance and Thermal Processes,
Siemens Industrial Turbomachinery AB


Universitat de Barcelona Systems Biology

Understanding Metabolic Pathways

[SystemModeler] MathModelica provides state-of-the-art tools for kinetic analysis, which accelerates progress in the experimental area of systems biology. Read the whole story »

—Dr. Vitaly Selivanov, Universitat de Barcelona


Linköpings universitet Pharmaceutical

Individualizing Drug Dosage

The combination of [SystemModeler] MathModelica's user-friendly modeling environment and the possibility of analyzing the results with Mathematica's rich functionality proved to be a powerful tool. Read the whole story »

—Martin Fransson, PhD student, Linköpings universitet



Free Courses
Wolfram SystemModeler: Quick Start   Analysis & Design with Mathematica   Modelica Language Concepts
Get familiar with drag-and-drop and multidomain modeling, built-in libraries, system simulation, and connecting to Mathematica   Learn how to simulate, analyze, calibrate, and control your model from Mathematica.   Get in-depth understanding of how the underlying concepts in the Modelica language work

Learn at Your Own Pace

SystemModeler Documentation Center

Find help inside the complete and up-to-date documentation of SystemModeler's functions and capabilities
  Modelica Book
Introduction to Physical Modeling with Modelica
  Wolfram Solutions
See how to use Wolfram technologies in specific application areas, such as science, engineering, finance, biotechnology, education, and more.

Get Help

Wolfram Support Center   Premier Service Subscribe   Consulting
Have a problem? Find the answer among the wide range of self-help options or contact our expert customer service and technical support teams   to our comprehensive program of exclusive services and discounts that will help you save time and money and boost your productivit   Get help from the creators of SystemModeler. With more than 10 years of consulting experience, MathCore consultants bring technical skills, vertical industry prowess, and unmatched expertise in deploying SystemModeler to meet customer goals

How to Buy SystemModeler

Where do you plan to use SystemModeler?

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For researchers,
educators, and students

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