![]() studying the spread of sickle cell anemia Exploring and investigating different scenarios, e.g.Designing and optimizing aspects of a system, e.g.Analyzing problems in and the performance of systems, e.g.The system modeling functionality in the Wolfram Language makes it very easy to accomplish tasks such as: With SystemModeler 5.1 and Wolfram Language 11.3, the full simulation core of SystemModeler is available to all Wolfram Language users. Share Models with Millions of Wolfram Language Users This makes it possible to quickly set up models that can easily be used, explored and configured by others.įind out more about the new model development improvements in the following video: That is why, with SystemModeler 5.1, we are making it easier to add, document and organize parameters. However, all these possibilities for arranging parameters, variables and configurations can feel daunting. It is what allows you to do things like tweak shape parameters to perform optimal cam design, explore fundamental processes in the human body or use different control schemes in a connected system. Whether your models are being simulated by yourself or by others-or whether you are building models for exploration, analysis or deployment-the ability to change or even completely switch configurations in your models is important. Ready Your Models for Exploration, Analysis and Deployment See how the integration with Excel works in the following video: Excel to calculate the return of investment for a power plant A project manager using the model as an advanced simulator in e.g. ![]() A game designer using the exported model to drive behaviors in a game engine.An engineer integrating the model with hardware, for hardware-in-the-loop simulation.This opens up many new use cases, such as: The FMI standard is supported by a wide variety of different tools. While the previous two standards required the importing software to have its own simulation engine, with co-simulation, you are instead exporting a standalone simulator that has the SystemModeler simulation engine built in. In SystemModeler 5.1, we are adding a new, powerful export option, with FMI for co-simulation. With SystemModeler 5, there were two standardized ways of exporting a SystemModeler model: either as Modelica code or using the Functional Mock-up Interface (FMI) for model exchange. Sharing models with millions of users with the simulation core now included in the Wolfram Language.Providing the right interface for your models so that they are easy for others to explore and analyze.Exporting models in a form that includes a full simulation engine, which makes them usable in a wide variety of tools.The Version 5.1 update expands SystemModeler beyond its previous usage horizons to include a whole host of options, such as: Since 2012, SystemModeler has been used in a wide variety of fields with an even larger number of goals-such as optimizing the fuel consumption of a car, finding the optimal dosage of a drug for liver disease and maximizing the lifetime of a battery system. We are excited to announce the latest installment in the Wolfram SystemModeler series, Version 5.1, where our primary focus has been on pushing the scope of use for models of systems beyond the initial stages of development. Explore the contents of this article with a free Wolfram SystemModeler trial.
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