“Decidí hacer todo con Mathematica y Wolfram SystemModeler: Diapositivas, tareas—incluyendo asignaciones teóricas, simulaciones y exploración del sistema.”

– Dr. Yehuda Ben-ShimolProfesor, Ben-Gurion University

“Al usar MathCore como un socio externo, podemos estar seguros de que realmente obtenemos un modelo fi nal con resultados correctos, dentro de las restricciones dadas. Por lo tanto, no dudamos en recomendar a MathCore.”

– Lennart NäsGerente, Rendimiento de Turbinas de Gas y Procesos Termales,Turbo-maquinaria Industrial, AB Siemens

¿QUIÉN USA WOLFRAM SYSTEMMODELER?

LO QUE DICEN LOS EXPERTOS

Los usuarios van desde compañías de Fortune 500 a departamentos gubernamentales y a cientos de universidades en todo el mundo, incluyendo:

© The Wolfram Companies. Trademarks: Wolfram SystemModeler, Mathematica, Wolfram MathCore. All other trademarks, service marks, registered trademarks, and registered service marks are the property of their respective owners. MKT1213 SYMO-1311 02.16VT

“Como líder mundial en el desarrollo de propulsión naval, es crucial tener un conocimiento profundo de las dinámicas del sistema. Por lo tanto, colaboramos con MathCore siempre que necesitamos desarrollar y analizar modelos dinámicos para nuestros sistemas.”

– Stig LönngrenResponsable de Desarollo para la Propulsión de Cápsula Mermaid Rolls-Royce AB

MODELADO Y SIMULACIÓN CON SYSTEMMODELER

Modelado multidominioCorrectamente modele y simule sistemas de la vida real que incluyen partes de múltiples dominios físicos.

Simulación y experimentaciónRealice experimentos numéricos con ejecutables de simulación automáticamente compilados a partir de su modelo.

Construya modelos de alta fi delidad utilizando componentes predefi nidos en un entorno fácil de arrastrar y soltar. Lleve a cabo experimentos numéricos en sus modelos para explorar y poner a punto el comportamiento del sistema. Las características principales incluyen:

Modelado de arrastrar y soltarSimplemente escoja componentes como transistores o resortes y colóquelos sobre el lienzo para crear modelos.

Tienda de bibliotecasExpanda las capacidades de SystemModeler añadiendo bibliotecas gratuitas y de pago desde una amplia gama de áreas.

Modelado jerárquicoElabore modelos jerárquicos basados en componentes con subcomponentes reutilizables e individualmente comprobables.

Visualización inmediataTrace cualquier variable del sistema con un solo clic y automáticamente anime sistemas mecánicos en 3D.

ANÁLISIS Y DISEÑO CON SYSTEMMODELER Y MATHEMATICA

Calibración de modeloUse Mathematica para calibrar y adaptar de manera óptima los parámetros del modelo a datos de la vida real.

Creación de modelosCree prototipos de componentes basados en ecuaciones físicas en Mathematica antes de exportarlos a SystemModeler.

Acceda a un entendimiento más profundo del comportamiento del modelo usando Mathematica. Analice las ecuaciones del modelo y los resultados de simulación utilizando todas las funciones de Mathematica, incluyendo visualización, diseño de sistemas de control y mucho más. Entre sus características destacan:

Simulación de control programáticaEjecute las simulaciones SystemModeler desde Mathematica para barridos de parámetros, optimización y más.

Interfaz de simulación en tiempo realVisualice sus resultados de simulación en tiempo real creando paneles de control interactivos en Mathematica, y conéctese a dispositivos de hardware.

Elaboración de gráficos y visualización personalizadaGrafi que variables y bandas de sensibilidad directamente desde los resultados de la simulación y elabore gráfi cos personalizados e interfaces de usuario.

Diseño de sistemas de controlAutomáticamente linealice modelos en forma de espacio de estado para analizar la estabilidad, controladores de diseño y mucho más.

Las ecuaciones del modelo y los resultados de la simulación de SystemModeler son accesibles en Mathematica en una forma completamente natural, para su uso inmediato con las grandes colecciones de algoritmos de Mathematica sobre matemáticas simbólicas y numéricas.

• Apple

• Raytheon

• JPL

• Daimler

• German Aerospace Center

• EDF

• Hydac

• ABB

• MIT

• Yale

• University of Delaware

• Los Alamos National Lab

• Sandia National Labs

• University of Reading

• DENSO

• Electroimpact

• University of South Africa

• Indian Institute of Technology Madras

• Universiti Teknologi Malaysia

• American University in Cairo

• University of Tokyo

• Kyoto University

• Kyushu University

• Japan Atomic Energy Agency

• Fujitsu Research Institute

• CEDIA

ConectividadImporte y exporte modelos por medio del Functional Mock-up Interface (FMI) estándar para el intercambio de modelos.

Entorno de cuadernoCombine código, datos, textos explicativos, gráfi cos y elementos interactivos en un solo documento.

www.wolfram.com/contact-us 1-800-WOLFRAM (965-3726) +1-217-398-0700 (fuera de EE. UU. y Canadá)

www.wolfram.co.uk/contact-us +44-(0)1993-883400

WOLFRAM RESEARCH, INC.

WOLFRAM RESEARCH EUROPE LTD.

www.wolfram.com/system-modeler

Para solicitar una prueba gratuita y obtener más información, por favor visite:

POR QUÉ SYSTEMMODELER

SystemModeler es la herramienta de modelado y simulación física más completa. A diferencia de otros sistemas, SystemModeler no requiere de complementos adicionales y es totalmente compatible con el lenguaje estándar de modelado de Modelica.

SIGUIENTES PASOS

Realice cursos gratuitos a pedidoAcceda a una introducción rápida de las capacidades de

SystemModeler, aprenda cómo extender su modelo de análisis y

diseño con Mathematica, haga un recorrido en profundidad del

lenguaje Modelica y mucho más.

Vea la documentación en líneaEncuentre documentación completa y actualizada de las funciones

y capacidades de SystemModeler.

Obtenga ayuda con sus proyectosLos consultores y el personal de apoyo técnico de Wolfram

MathCore aportan sus habilidades, conocimientos en la industria

y experiencia única, para satisfacer los objetivos de los clientes.

Basado en componentes Basado en bloques

1. Solo arrastre y coloque los componentes.

2. Conecte los componentes entre sí.

1. Debe decidir sobre las señales de entrada y salida para el sistema.

2. Debe confi gurar el sistema de ecuaciones.

3. Se deriva la salida como una función de la entrada.

4. Finalmente se elabora el modelo.

Driving Insight, Innovation, and Results

Model with Real-World TopologyConnections between model components, such as the carrier, catapult, and control logic, mirror the real-world interactions between the corresponding objects and subsystems.

Built-in Model Libraries Combine components from built-in logical and state graph libraries to control the launch sequence of the catapult.

Annotate the ModelAdd text and graphical content to make the model easy to understand.

Instantly Plot ResultsPlot the response to glucose intake in different organs.

Model Biological SystemsUse the built-in BioChem library to model the glucose-insulin system in a human body.

Use SBML Models Import and export Systems Biology Markup Language (SBML) models.

CAD AnimationAttach textures to a model and clearly see the real-world resemblance.

Model 3D Mechanical SystemsUse the built-in multibody library to model an excavator.

Simulation and ExperimentationAnalyze simulation results and perform sensitivity analysis, model calibration, parameter sweeps, and more in Mathematica.

www.wolfram.com/system-modelerTo explore more examples, visit

SystemModeler is an easy-to-use, next-generation modeling and simulation

environment for cyber-physical systems.

Using drag and drop from the large selection of built-in and expandable

modeling libraries, you can build industrial-strength, multidomain models of your

complete system.

Adding the power of Mathematica gives you a fully integrated environment for

analyzing, understanding, and quickly iterating system designs. Driving insight,

innovation, and results.

Driving Insight, Innovation, and Results

Model with Real-World TopologyConnections between model components, such as the carrier, catapult, and control logic, mirror the real-world interactions between the corresponding objects and subsystems.

Built-in Model Libraries Combine components from built-in logical and state graph libraries to control the launch sequence of the catapult.

Annotate the ModelAdd text and graphical content to make the model easy to understand.

Instantly Plot ResultsPlot the response to glucose intake in different organs.

Model Biological SystemsUse the built-in BioChem library to model the glucose-insulin system in a human body.

Use SBML Models Import and export Systems Biology Markup Language (SBML) models.

CAD AnimationAttach textures to a model and clearly see the real-world resemblance.

Model 3D Mechanical SystemsUse the built-in multibody library to model an excavator.

Simulation and ExperimentationAnalyze simulation results and perform sensitivity analysis, model calibration, parameter sweeps, and more in Mathematica.

www.wolfram.com/system-modelerTo explore more examples, visit

SystemModeler is an easy-to-use, next-generation modeling and simulation

environment for cyber-physical systems.

Using drag and drop from the large selection of built-in and expandable

modeling libraries, you can build industrial-strength, multidomain models of your

complete system.

Adding the power of Mathematica gives you a fully integrated environment for

analyzing, understanding, and quickly iterating system designs. Driving insight,

innovation, and results.

Driving Insight, Innovation, and Results

Model with Real-World TopologyConnections between model components, such as the carrier, catapult, and control logic, mirror the real-world interactions between the corresponding objects and subsystems.

Built-in Model Libraries Combine components from built-in logical and state graph libraries to control the launch sequence of the catapult.

Annotate the ModelAdd text and graphical content to make the model easy to understand.

Instantly Plot ResultsPlot the response to glucose intake in different organs.

Model Biological SystemsUse the built-in BioChem library to model the glucose-insulin system in a human body.

Use SBML Models Import and export Systems Biology Markup Language (SBML) models.

CAD AnimationAttach textures to a model and clearly see the real-world resemblance.

Model 3D Mechanical SystemsUse the built-in multibody library to model an excavator.

Simulation and ExperimentationAnalyze simulation results and perform sensitivity analysis, model calibration, parameter sweeps, and more in Mathematica.

www.wolfram.com/system-modelerTo explore more examples, visit

SystemModeler is an easy-to-use, next-generation modeling and simulation

environment for cyber-physical systems.

Using drag and drop from the large selection of built-in and expandable

modeling libraries, you can build industrial-strength, multidomain models of your

complete system.

Adding the power of Mathematica gives you a fully integrated environment for

analyzing, understanding, and quickly iterating system designs. Driving insight,

innovation, and results.

“I decided to do everything with Mathematica and Wolfram SystemModeler: slides, homework—including theoretical assignments, simulations, and system exploration.”

–Dr. Yehuda Ben-Shimol Senior Lecturer, Ben-Gurion University

• Apple

• Raytheon

• JPL

• Daimler

• German Aerospace Center

• EDF

• Hydac

• ABB

• MIT

• Yale

• University of Delaware

• Los Alamos National Lab

• Sandia National Labs

• University of Reading

• DENSO

• Electroimpact

• University of South Africa

• Indian Institute of Technology Madras

• Universiti Teknologi Malaysia

• American University in Cairo

• University of Tokyo

• Kyoto University

• Kyushu University

• Japan Atomic Energy Agency

• Fujitsu Research Institute

• CEDIA

“By using MathCore as an external partner, we can be sure that we really obtain a fi nished 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

WHO USES WOLFRAM SYSTEMMODELER?

WHAT EXPERTS ARE SAYING

Users range from Fortune 500 companies to government departments to hundreds of universities worldwide, including:

© The Wolfram Companies. Trademarks: Wolfram SystemModeler, Mathematica, Wolfram MathCore. MKT1209 SYMO-1311 01.16HK

“ As a world leader in ship propulsion development, it is crucial to have an in-depth understanding of system dynamics. Therefore, we collaborate with 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

MODELING & SIMULATION WITH SYSTEMMODELER

Simulation & ExperimentationPerform numerical experiments with simulation executables automatically compiled from your model.

Multidomain ModelingCorrectly model and simulate real-world systems that include parts from multiple physical domains.

Build high-fi delity models using predefi ned components in an easy drag-and-drop environment. Perform numerical experiments on your models to explore and tune system behavior. Key features include:

Drag-and-Drop ModelingSimply pick up components like transistors or springs and drop them onto the canvas to create models.

The Library StoreExpand the capabilities of SystemModeler by adding paid and free libraries from a wide range of areas.

Hierarchical ModelingCreate hierarchical, component-based models with individually testable and reusable subcomponents.

Instant VisualizationPlot any system variable with a single click, and automatically animate 3D mechanical systems.

ConnectivityImport and export models via the Functional Mock-up Interface (FMI) standard for model exchange.

ANALYSIS & DESIGN WITH SYSTEMMODELER & MATHEMATICA

Model CalibrationUse Mathematica to calibrate and optimally fi t model parameters to real-world data.

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. Highlights include:

Programmatic Simulation ControlDrive SystemModeler simulations from Mathematica for parameter sweeps, optimization, and more.

Real-Time Simulation Interface Visualize your simulation results in real time by creating interactive dashboards in Mathematica, and connect to hardware devices.

Plotting & Custom VisualizationPlot variables and sensitivity bands directly from simulation results, and create custom graphics and user interfaces.

Control System DesignAutomatically linearize models into state-space form to analyze stability, design controllers, and more.

Model CreationPrototype components based on physical equations in Mathematica before exporting them to SystemModeler.

Notebook EnvironmentCombine code, data, explanatory text, plots and graphics, and interactive elements in a single document.

SystemModeler model equations and simulation results are accessible in Mathematica in a completely native form, immediately suitable for use with Mathematica’s large collections of algorithms for symbolic and numerical mathematics.

www.wolfram.com/contact-us 1-800-WOLFRAM (965-3726) +1-217-398-0700 (outside US & Canada)

www.wolfram.co.uk/contact-us +44-(0)1993-883400

WOLFRAM RESEARCH, INC.

WOLFRAM RESEARCH EUROPE LTD.

www.wolfram.com/system-modelerTo request a free trial and learn more, visit:

WHY SYSTEMMODELER?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.

NEXT STEPS

Take a Free On-Demand CourseGet a quick introduction to SystemModeler capabilities, learn how

to extend your model analysis and design with Mathematica, get

an in-depth tour of the Modelica language, and much more.

View Online DocumentationFind the complete up-to-date documentation of SystemModeler’s

functions and capabilities.

Get Help with Your ProjectsWolfram MathCore consultants and support staff bring technical

skills, vertical industry prowess, and unmatched expertise to meet

customer goals.

Component–Based Block–Based

1. Drag & drop components.

2. Connect the components together.

1. Decide on input & output signals for the system.

2. Set up the system of equations.

3. Derive the output as a function of the input.

4. Create the model.

“I decided to do everything with Mathematica and Wolfram SystemModeler: slides, homework—including theoretical assignments, simulations, and system exploration.”

–Dr. Yehuda Ben-Shimol Senior Lecturer, Ben-Gurion University

• Apple

• Raytheon

• JPL

• Daimler

• German Aerospace Center

• EDF

• Hydac

• ABB

• MIT

• Yale

• University of Delaware

• Los Alamos National Lab

• Sandia National Labs

• University of Reading

• DENSO

• Electroimpact

• University of South Africa

• Indian Institute of Technology Madras

• Universiti Teknologi Malaysia

• American University in Cairo

• University of Tokyo

• Kyoto University

• Kyushu University

• Japan Atomic Energy Agency

• Fujitsu Research Institute

• CEDIA

“By using MathCore as an external partner, we can be sure that we really obtain a fi nished 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

WHO USES WOLFRAM SYSTEMMODELER?

WHAT EXPERTS ARE SAYING

Users range from Fortune 500 companies to government departments to hundreds of universities worldwide, including:

© The Wolfram Companies. Trademarks: Wolfram SystemModeler, Mathematica, Wolfram MathCore. MKT1209 SYMO-1311 01.16HK

“ As a world leader in ship propulsion development, it is crucial to have an in-depth understanding of system dynamics. Therefore, we collaborate with 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

MODELING & SIMULATION WITH SYSTEMMODELER

Simulation & ExperimentationPerform numerical experiments with simulation executables automatically compiled from your model.

Multidomain ModelingCorrectly model and simulate real-world systems that include parts from multiple physical domains.

Build high-fi delity models using predefi ned components in an easy drag-and-drop environment. Perform numerical experiments on your models to explore and tune system behavior. Key features include:

Drag-and-Drop ModelingSimply pick up components like transistors or springs and drop them onto the canvas to create models.

The Library StoreExpand the capabilities of SystemModeler by adding paid and free libraries from a wide range of areas.

Hierarchical ModelingCreate hierarchical, component-based models with individually testable and reusable subcomponents.

Instant VisualizationPlot any system variable with a single click, and automatically animate 3D mechanical systems.

ConnectivityImport and export models via the Functional Mock-up Interface (FMI) standard for model exchange.

ANALYSIS & DESIGN WITH SYSTEMMODELER & MATHEMATICA

Model CalibrationUse Mathematica to calibrate and optimally fi t model parameters to real-world data.

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. Highlights include:

Programmatic Simulation ControlDrive SystemModeler simulations from Mathematica for parameter sweeps, optimization, and more.

Real-Time Simulation Interface Visualize your simulation results in real time by creating interactive dashboards in Mathematica, and connect to hardware devices.

Plotting & Custom VisualizationPlot variables and sensitivity bands directly from simulation results, and create custom graphics and user interfaces.

Control System DesignAutomatically linearize models into state-space form to analyze stability, design controllers, and more.

Model CreationPrototype components based on physical equations in Mathematica before exporting them to SystemModeler.

Notebook EnvironmentCombine code, data, explanatory text, plots and graphics, and interactive elements in a single document.

SystemModeler model equations and simulation results are accessible in Mathematica in a completely native form, immediately suitable for use with Mathematica’s large collections of algorithms for symbolic and numerical mathematics.

www.wolfram.com/contact-us 1-800-WOLFRAM (965-3726) +1-217-398-0700 (outside US & Canada)

www.wolfram.co.uk/contact-us +44-(0)1993-883400

WOLFRAM RESEARCH, INC.

WOLFRAM RESEARCH EUROPE LTD.

www.wolfram.com/system-modelerTo request a free trial and learn more, visit:

WHY SYSTEMMODELER?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.

NEXT STEPS

Take a Free On-Demand CourseGet a quick introduction to SystemModeler capabilities, learn how

to extend your model analysis and design with Mathematica, get

an in-depth tour of the Modelica language, and much more.

View Online DocumentationFind the complete up-to-date documentation of SystemModeler’s

functions and capabilities.

Get Help with Your ProjectsWolfram MathCore consultants and support staff bring technical

skills, vertical industry prowess, and unmatched expertise to meet

customer goals.

Component–Based Block–Based

1. Drag & drop components.

2. Connect the components together.

1. Decide on input & output signals for the system.

2. Set up the system of equations.

3. Derive the output as a function of the input.

4. Create the model.