Computational Design Modeling In Grasshopper

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Sequence Summary:

This sequence of modules introduces computational design modeling in Grasshopper through first exploring the concept of computational design modeling and positioning it relative to other related methods, such as parametric modeling and generative modeling, and then developing a simple computational urban design model.

You get to generate hundreds of urban design schemes + performance metrics. Who wouldn't want to do that??

This sequence assumes that you have done the Intro to Grasshopper sequence.

Why?

The previous Intro to Grasshopper sequence touched on the power of computational design modeling to facilitate informed, data driven decision making through the generation and evaluation of hundreds or thousands of design options through the development of a parametric tower. However, that computational design model didn't have the complexity of inputs, procedural relationships, or metric outputs to really understand the value of computational design modelling. Through the development of an urban scale computational design model in this sequence you will introduce exactly that level complexity into your models, creating robust spatial data sets.

But wait, this section is title "Why?" and all you did was give me more of the sequence summary. If you can't explain why this is important, is it really?

Yes! The "Why" is such a big topic that the entire first module will be devoted to it.

Modules:

  1. What is Computational Design Modeling?
  2. Subdividing Geometry for Analysis.
  3. Developing spatial analysis tools and metrics.
  4. Creating a parametric street grid.
  5. Urban scale procedural generation.
  6. Putting Everything Together.
  7. Creating a design spaces & exploring results.
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