Products

Creating a highly-intuitive, parameter-based design with Algorithmic Modeling

Products continue to grow more organic in form and function. As these new structures grow more complex as does the design process. At times, these designs are easier to describe computationally than they are to model manually using traditional CAD tools.

This may often require complex, time-consuming custom coding to create and modify those models, limiting creativity and flexibility.

Algorithmic Modeling with NX

NX Algorithmic Modeling is a breakthrough capability that fuels and maximizes the ability to use a flexible, highly-intuitive, parameter-based approach to design.

It is a powerful tool for designers who need to create a unique, personalized, eye-pleasing aesthetic. Take this modern, curved building. It would be time consuming to design with traditional CAD.

Algorithmic Modeling simplifies this complex design process by enabling designers to describe the “intent” of their design with rules and logic to define its fundamental characteristics—such as the number of floors, twist and taper. These parameters can be easily modified, allowing stunning initial designs to be created in a fraction of the time. Plus, it’s just as fast and easy to adapt models throughout the process—freeing designers to experiment until they achieve the perfect final result.

New designs that share common characteristics with the algorithmic templates you’ve created can be leveraged to accelerate future design processes. Algorithmic Modeling is seamlessly integrated into NX—enabling teams to simulate and build designs with familiar, industry-leading NX capabilities. Imagine … Better designs. Faster. With greater flexibility.

Interested in seeing what else NX 3D CAD software has to offer. Begin a free trial today!

Julianne Bass

Leave a Reply

This article first appeared on the Siemens Digital Industries Software blog at https://blogs.stage.sw.siemens.com/nx-design/creating-a-highly-intuitive-parameter-based-design-with-algorithmic-modeling/