There are also many improvements to existing libraries, such as support for thermal ports in the Rotational and Translational mechanics libraries so that heat losses can be captured.īut we also wanted to make it easy to access all the other great existing and future model libraries.
For instance, we’ve added Digital, for digital electronics following the VHDL multivalued logic standard QuasiStationary, for efficient approximate modeling of large analog circuits and FundamentalWave, for modeling multiphase electrical machines. So we’ve made SystemModeler‘s already broad collection of built-in libraries even larger. Reusing components and interfaces from already tested and documented libraries not only speeds up development and learning, but also improves quality. And you may very well have to refactor the library more than once before you’re done. There are many aspects to think of: the best structure for easy modeling, the right level of detail, the interfaces to other components, which components to include, documentation, etc.
Many of those have been well supported by built-in libraries, but many are totally new domains where models typically need to be built from scratch.įor most applications, using existing model libraries gives a real boost to productivity, but developing a good library takes a lot of effort. People have been using SystemModeler in an astonishing variety of areas.
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We’ve also improved workflows for everything from learning the software to developing models to analyzing and deploying them. Today we are proud to announce the release of Wolfram SystemModeler 4.įor SystemModeler 4, we have expanded the supported model libraries to cover many new areas. Explore the contents of this article with a free Wolfram SystemModeler trial.
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