In this grasshopper example, you model a parametric brick wall and give it a 3D Pattern using the Parakeet plug-in.

In this Grasshopper Example File, you can use the NJS plugin combined with Weaverbird to To unfold a mesh.

In this grasshopper example, you can generate a window-like mesh from 3D voronoi cells inside a box.

In this grasshopper example, you can generate a parametric pattern on a Mobius Surface using the Parakeet Plugin.

In this Grasshopper Example File, you can model a parametric radial table and then use the Open nest plugin to extract the curves for fabrication.

In this Grasshopper Example File, you can model a parametric table by defining two curves and using the Kangaroo plugin to generate a relaxing mesh form.

In this Grasshopper Script, you can model a parametric lampshade by defining a series of circles which will give the overall shape of the lamp and also give the ribs a rotation.

In this Grasshopper Script, you can model a parametric lampshade by defining a series of horizontal and radial waffle sections.

In this grasshopper example file, you can model a Glazed Spaceframe with Nodes, Beams and Glass panels Parametrically.

In this grasshopper example file, you can design a parametric timber plate Pavilion using the ngon Plugin.

In this grasshopper example file, you can model a Parametric stair using Grasshopper native components.

In this grasshopper example file, you can create a Parametric Bamboo Pavilion using the tween curves component and deform it using GraphMapper.

In this grasshopper example file, you can model a parametric pavilion with a series of foldes triangular panels.

in this grasshopper example file, you can can convert a sphere into a waffle structure using the native grasshopper components.

In this grasshopper example file, you can model a Parametric Platonic space frame strcuture using 3D printed nodes.

In this grasshopper example file, you can design a parametric pavilion by using the Ngon plugin and then create box joints for each panel.

In this grasshopper example file, you can design a parametric shell using the ngon plugin and then design 3D connections for the vertices.

In this grasshopper example file, you can model a parametric pavilion based on the mathematical expression of a helicoid surface, using native grasshopper components.

In this grasshopper example file, you can generate a polyhedron Lamp Shade with fabrication details.

In this grasshopper example file, you can generate a parametric Grid Shell Vault that can be fabricated with a series of Stripped elements and Pins.

In this grasshopper example file, you can Model a parametric box which has finger joints on it's edges and can be used for fabrication.

In this grasshopper example file, you can model a 3D Printing node for connecting multiple elements with various angles.

In this grasshopper example file, you can model a Reciprocal frame structure for a Platonic Shape by using the Kangaroo 2 & Lunchbox plugin combined.

In this grasshopper example file, you can Create a Spherical Helix Curve around a Ramp and then use the Dendro Plugin to create a Parametric Railing for it.

In this grasshopper example file, you can Model a Parametric Lamp Shade with Planar Pieces by Subdividing a Nurbs Sphere.

in this grasshopper example file, you can design a Parametric Pavilion with the Graph Mapper Component and then use the Bowerbird Plugin to convert it into a Waffle Structure.

in this grasshopper example file, you can Design a Parametric Timber Pavilion and generate different alternatives. This Algorithm is inspired by Studiolada and Yoann Saehr Architect's ( The "forest shelter at Bertrichamp" Project).

in this grasshopper example file, you can Create a Parametric Plate Connection and change the Dimensions of the screws, Plates and Timber Elements.

in this grasshopper example file, you can Create an Initial Mesh with GraphMapper and then use the Bowerbird plug-in to design a Waffle or Radial Structure for your Parametric Shelf.

in this grasshopper example file, you can Calculate the Node sizes of a Space frame structure and as a result optimize the rod's Length.

in this grasshopper example file, you can design a parametric dovetail joint between two triangular surfaces.

In this grasshopper example file you can use the RemeshByColour Component from the Kangaroo2 plugin to generate a parametric mesh with different Triangular Mesh Faces.

In this Grasshopper example file you can use the Kangaroo2 Plugin combined with the Open Nest plugin to circle pack a series of cones on a surface.

In this grasshopper example file you can convert an Arc-like structure into a series of parametric rods & plates.

In this grasshopper example file you can create a rotated parametric 3d chevron pattern.

In this grasshopper example file you can simulate Diffusion Limited Aggregation by using the Anemone Plugin

In this grasshopper example file you can convert a Nurbs surface to triangular panels and then use some connectors for fabrication.

In this grasshopper example file you can model a laser-cut optimized 3D-Puzzle and also extract the joints, the final curves and the nesting 2D sheets.

In this grasshopper example file you can model a series of random voronoi panels and extract the final curves for fabrication.

In this grasshopper example file you can model a parametric wooden bookshelf and extract the length of each piece for fabrication.

In this grasshopper example file you can model a parametric wall with a zero-waste technique.

In this Premium grasshopper definition you can model a parametric Chandelier by defining a series of arcs which rotate along an axis. You can also extract the final curves for fabrication.

In this definition you can model a parametric chandelier in grasshopper and extract the curves for fabrication.

In this grasshopper definition, you can model a parametric structure by defining an arc-like curve. Then you can Extract the details and use them for fabrication.

In this premium python definition you can create a desk organizer using metaballs.

In this Grasshopper definition, you can model a sine wave table using Graph mappers. Then you can use the Weaverbird plugin to give it a smooth look and finally extract the sections for fabrication.

In this python definition, you can convert a Nurbs surface into a series of panels and then control the chamfering and height of the edges. Finally you can orient them on the ground for fabrication.

In this python definition, you can model parametric chandelier and change the scale, number of slabs or another parameters and manage them on the sheet for laser cutting (ready made).

In this python component you can make a parametric transforming bookshelf and change the size or the number of boxes by changing the inputs of the component.

In this grasshopper definition, you can customize a parametric lamp (height, frame and ribs thickness).You can also generate the final curves to cut with CNC, laser-cut, etc.

In this definition you can model a parametric joint connection for a network of lines. The connection can be 3d printed and by defining sleeves for the pipes you can insert them in the nodes.

In this defintion you can model a parametric wave like structure and two waffle parts which can hold those sections together.

In this grasshopper definition by using the Parakeet Plugin you can model a radial scissor mechanism by defining the number of elements , width , size and also the radius of the holes which connect the elements together.

In this definition you can model a parametric Islamic Pattern which is based on connecting the center of Triangular grid to a point located on edges and then connect that point to their neighboring corner.

In this definition we have remodeled the Rising Chair by Robert van Embricqs in Grasshopper3d. First we have made a rectangle and then by two parametric curves the bending of the parts will be defined.

In this definition you can make a simple Waffle bookshelf without using any plugins, First, the 3d boxes are modeled based on thickness and depth and then the details are modeled in several steps.

In this definition we will use the node points of a series of geodesic lines to find the best plane for the cylindrecal connections.