In this grasshopper example, you can generate a parametric curve pattern from a colored mesh.

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 facade inspired by the Leyweg Municipal Office by Rudy Uytenhaak.

In this grasshopper example file, you can use attractor points to design a parametric table.

In this Rhino Grasshopper tutorial, we can use the Parakeet's "Complex Transform" component to deform a simple square grid and convert it into a parametric Window.

In this example file you can create a parametric brick wall pattern by using the Parakeet plugin.

In this example file you can design a kinetic facade with horizontal and vertical panels using the Lunchbox plugin.

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 file you can create a parametric pavilion by generating a 2D aggregated polygonal system using the Parakeet plugin.

In this example file you can you can design a parametric folding origami covered with Diamond panels using the Parakeet, LunchBox, Crane & Meshplus plugins.

In this Grasshopper example file you can use the tOpos plugin to optimize a parametric bridge for pedestrians.

in this grasshopper example file, you can have a Parametric Facade Using lunchbox and Parakeet plugin. then with Calculating the Coincident Surfaces, Cull Desired Surfaces to Acheive a 3D Pattern on it.

In this Grasshopper example file you can use the Parakeet plugin to model a parametric Voronoi-based tower.

in this grasshopper example file, you can create a parametric building with Tween Curves component and then use the LunchBox & Parakeet Plugins to generate different patterns on it.

In this grasshopper example file You can model a parametric dome by using the Weaverbird plugin.

in this grasshopper example file, you can Create a parametric gridshell structure using the Kangaroo2 plugin.

in this grasshopper example file, you can create a parametric brick wall using the Parakeet Brick Patterns. Then you can use the LunchBox plugin to define the attractors.

In this grasshopper example file You can model a parametric Arc-based structure by using the Parakeet & Pufferfish Plugin.

A Hamiltonian path is a path in an undirected or directed graph that visits each vertex exactly once. In this grasshopper example file you can use the GraphTheory Simulations from the LEAFVEIN Plug-in to create a Hamiltonian Path with Platonic Solids.

In this grasshopper example file you can simulate various inflated mazes on a mesh by using the kangaroo2 plugin.

In this grasshopper example file You can use the Mesh+ plugin combined with Weaverbird to model a parametric fractal mesh.

In this grasshopper example file You can design a Parametric tower by rotating the panel faces along an axis and using a point attractor .

In this grasshopper example file You can cover a base surface with panels with intersecting arc patterns.

In this grasshopper example file You can model a parametric facade with a series of panles which respond to a point attractor or a curve attractor.

In this grasshopper example file, You can use the Anemone plugin to generate parametric fractal patterns and then project them down on a dome.

In this grasshopper example file You can Design a parametric brick facade. By defining a curve attractor you can also dispatch the nearby bricks into two set of groups.

In this grasshopper example file You can use the Anemone Plugin for paneling a Nurbs surface.

In this Grasshopper example file you can model a generative 3d pattern using the Minimal surface plugin and defining the base curves.

In this grasshopper example file You can design a parametric brick wall and rotate the bricks based on their distance from point attractor

In this Parakeet Plugin Example You can make a series of rotating curves by using the "Reflection Point" component. By connecting the polylines to the Fatten plugin you can have a colourful visualization of these rotating curves.

In this Parakeet Plugin Example you can use the Flow Path component to Generate a Fluid Flow Path on a Mesh.

In this grasshopper example file by using the Parakeet plugin you can model a 3d Escher tiling based on a custom curve.

In this grasshopper example file you create a pattern similar to a maze on a mesh and then generate spheres on the vertices.

In this grasshopper example file you can create a parametric pattern on a sphere based on the height of each face.

In this grasshopper example file you can create a standard ring by using the Peacock plugin and then generate a flow simulation by using a series random points.

In this grasshopper example file you can use the parakeet's genotype patterns on a sphere or any mesh to generate a 3d parametric pattern.

In this example file you can generate a parametric model using random hexagonal wall panels.

In this grasshopper example file you can model a parametric pattern on a hexagonal grid.

In this grasshopper example file you can model a series of curly strips by finding points on a cone.

In this grasshopper example file you can modify a mesh sphere edges by using the Parakeet plugin.

In this grasshopper example file you can model a parametric pattern by using a series of parakeet components.

In this Grasshopper definition you can model a parametric mug with a differential pattern growing on its surface.

In this grasshopper definition you can use the Parakeet plugin to map any set of curves on a NURBS surface and voxelize it using the Dendro Plugin.

In this grasshopper definition, you can model a Parametric islamic pattern using the Parakeet Plugin. The pattern is a Geometrical method for designing Islamic Patterns (Based on a method presented by Craig S. Kaplan).

In this grasshopper definition, you can use the Parakeet Plugin to cover a curved wall with a "Brick Type F" component and use the Weaverbird plugin to give it some thickness.

In this grasshopper definition by using one of the parakeet's tiling you can generate a vault-like form by using Mesh+ plugin and also Weaverbird to thicken the form.

In this grasshopper definition, you can model a Klein bottle using Parakeet's plugin. Then you can twist the mesh around an axis and finally create a contour from the mesh and extract the curves.

In this grasshopper definition you can use one of the Parakeet's Plugin patterns. First we have transformed the pattern and then used the Millipede plugin to model a minimal surface between the two layers.

In this grasshopper definition by using the Parakeet's pattern genotype inside an hexagon, you can model a parametric pattern model.

In this grasshopper definition by defining a base pattern you can generate a kaleidoscope by using the Parakeet plugin.

In this grasshopper definition you can model a parametric maze on a sphere by rebuilding two layers of curves.

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 grasshopper definition by offsetting and scaling one of the Parakeet's Tiling components (patterns) you can create different patterns. this grasshopper definition uses Parakeet and Weaverbird plugins.

In this grasshopper definition by generating a truncated cubic grid you can give volume to it by using Dendro's plugin voxel method. We have also used the Parakeet plugin to change the form.

In this definition by using the Lunchbox spaceframe component and the Parakeet's Truncate tool we can make a recrusive 3d pattern. You can change the Truncation distance to make the pattern grow or shrink and by changing the Iteration you can define the number of loops.

In this grasshopper definition you can create a Truncated hexagonal grid and then add a pattern to it. You can rotate or scale the pattern with a point attractor and then finally offset the curves.

In this grasshopper definition you can generate several parakeet patterns through panelized surfaces using lunchbox and parakeet plugin.

In this definition you can use the Parakeet's "Knit" component which Generates a Knitted Pattern on a Surface. First you have to define the base surface (NURBS) and then you can define the number of divisions in the U,V direction , The height of the curves and the degree.

In this Grasshopper definition you can venate (Network of curve among points) on any geometry by using parakeet plugin and fattener component.