In this grasshopper example file you can design a parametric Voronoi facade and then convert a series of selected cells into windows.

In this Grasshopper example file, you can use the Ngon plugin and the Polygon offset component to model a simple parametric 2D connection.

In this grasshopper example file, you can create a parametric building by rotating and extruding a series of surfaces.

In this grasshopper example file, you can design a Parametric Pattern With PufferFish "TweenCurve" Component and then project it on a Brep.

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 Kangaroo 2 plugin to simulate a differential growth pattern for a building's facade.

In this grasshopper example file you can create a parametric polygonal pavilion by using the kangaroo 2 plugin.

In this grasshopper example file you can create a parametric facade by modeling a parametric base module.

In this grasshopper example file you can create a parametric wall pattern based on a series of Polygons.

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

In this grasshopper example file you can model a parametric tower by generating UV points on the facade and then connecting them based on a diamond Pattern.

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 use the field component to design a parametric 2D pattern.

in this grasshopper example file you can use the sorting technique for a series of curves to Design a Parametric Pavilion.

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 create a parametric 3d pattern by lofting a series of curves inside a polygon.

In this grasshopper example file you can divide a surface by using a random generated cutting plane and then convert it to a frame.

In this Grasshopper example file you can use the Pufferfish Displace Mesh component to deform a mesh and create a wave like 3d pattern.

In this Grasshopper example file you can use the Anemone plugin combined with Pufferfish to model a rotating parametric polygonal pattern.

Lloyd's algorithm, also known as Voronoi relaxation, finds evenly spaced sets of points in subsets of Euclidean spaces. In this grasshopper example file you can create a Voronoi pattern by using the Anemone plugin combined with the Lloyd's algorithm.

In this grasshopper example file you can extrude a series of polygons to a random plane to generate a parametric pattern.

In this grasshopper example file you can apply a spin force on a series of voronoi cells.

In this grasshopper example file you can mode a parametric Hexagonal Pattern by using a series of points as the center of a Force Field component.

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 create a parametric octagonal 3D pattern by defining two octagons and lofting them together.

In this grasshopper example file you can stellate a series of arrayed trapezoids to create differnet 3d parametric patterns.

In this grasshopper example file You can design a parametric facade by using a Bezier Span curve.

In this grasshopper example file you can create a hexagonal paneling pattern and combine it with the Dendro plugin.

In this grasshopper example file you can design a parametric diamond paneling pattern which you can open or close it.

In this grasshopper example file you can generste a parametric panel pattern by defining a curve.

In this grasshopper example file you can create a pattern by arraying a series of curves inside a rectangle.

In this grasshopper example file you can create different patterns by rotating a series of parametric polygons.

In this grasshopper example file you can model different tiling patterns by using a parametric arc-based shape.

In this grasshopper example file you can create a variety of Truchet tiles by rotating the base tiles clockwise, counter-clockwise or in a random sequence.

In this grasshopper example file by rotating the vertices of a square you can model a 3d parametric pattern.

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

In this grasshopper example file you can create a 3D pattern by applying force using the Kangaroo2 plugin on a 2D cairo pattern.

In this grasshopper example file you can create different parametric patterns based on a triangular grid cell.

In this grasshopper example file You can use the Lunchbox or Mesh+ plugins to generate a series of parametric patterns on a Nurbs surface.

In this grasshopper example file, you can divide a surface into a series of panels and then randomly select the panels and extrude them. We have used the Lunchbox Plugin to model the panels.

In this grasshopper example file by using a Delaunay mesh combined with the pipe variable component, you can model a parametric pattern.

In this this grasshopper example file you can model a differential growth pattern using stella3d.

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 model a parametric mandala geometry.

In this grasshopper example file, you can create a circular pattern with different radiuses on a parametric panel.

In this Grasshopper example file you can model a random parametric facade pattern on a polysurface solid.

In this grasshopper definition you can use the metaball (t) custom component to model a series of parametric sections.

In this short Paracourse lesson you can use the Parakeet's Network Region component to extract the interior borders of a series of intersecting lines and then convert them to borders and windows.

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 by creating circles around a base circle and using the "Trim With Region" component you can create a recursive flower-like pattern in grasshopper.

In this grasshopper definition by creating series of circles and creating panels from each of them you can create a polar plaid pattern.

In this grasshopper definition you can create two series of intersected hexagonal grids and create new regions from the intersection.

In this grasshopper definition by generating a Noise from the "Fractals" Plugin and applying them on a series of Particles, surrounding a base circle, you can create interesting noise patterns.

In this Grasshopper definition, you can define a planar closed curve and a series of points for the branching base locations. use the Shortest walk plugin to find the nearest distance between the starting point and the branches. Finally, you can give it a thickness.

In this grasshopper definition, you can generate a Perlin noise on a pattern and use it for weaving the parameters. you can also use weaverbird to smooth the result.

In this grasshopper definition, you can use point attractors to define the distribution of a series of scaling Panels. By converting the distance between the grid centers and attractors we can pick between different modules.

you can make a parametric Islamic pattern with this python component and by changing the point attractor you can transform the pattern in the X-Y direction.

In this grasshopper definition by using a rectangle's diameter and extracting two points on it you can generate a series of skewed lines.

In this Grasshopper definition, you can use a series of point attractors to change the scale of a square grid and then connect the corners to the middle of the scaled border.