Digital fabrication plays a crucial role in computational design by enabling the creation of physical prototypes and models that can be iteratively improved and refined in the design process. Digital fabrication technologies, such as 3D printing, CNC machining, laser cutting, and robotics, allow designers to quickly and accurately produce complex geometries and structures that would be difficult or impossible to create by traditional manufacturing methods.
By integrating digital fabrication tools into the computational design workflow, designers can more easily and effectively explore different design options, test and evaluate their designs, and quickly produce functional prototypes for testing and validation. Digital fabrication also allows for greater precision and efficiency in the manufacturing process, reducing waste and enabling faster production times.
Overall, digital fabrication is an essential component of computational design, enabling designers to bridge the gap between virtual models and physical reality, and turning design concepts into tangible, functional objects.
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