Grasshopper: Parametric Design - Full Course

Parametric and Computational Design in Grasshopper for Rhino From Zero to Hero

What you'll learn

Parametric Design

Algorithmic Modeling

Visual Programming

Integration With Rhino

Automation

Plugins & Flexibility

Complex Geometries

Customization & Scalability

Form Finding

Optimization

Analysis

Parametric Pattern

Requirements

Basic Knowledge About 3D Modeling

Description

Note: This Project-Based Course Teaches You All Grasshopper Tools Through Real-World Examples and Various Projects, From Beginner to Advanced• Do You Want to Create Complex and Parametric Design without the Need for Coding?•  Do You Want to Use Rhino and Grasshopper's Advanced Features and Powerful Plugins (from Food4Rhino Website) to Automate Complex Design Processes and Save time?• Are You Interested Learning Grasshopper Tools through Real-World and Practical Projects?Grasshopper is a Visual Programming Tool Integrated with Rhino 3D, Widely Used for Parametric Design and Complex Geometry Modeling. It Allows Users to Create Flexible, Algorithm-Driven Designs without Needing to Write Code.Key Features of Grasshopper Include:• Parametric Design: Easily Adjust Models by Changing Input Parameters.• Visual Programming: Node-Based Interface for Creating Algorithms without Coding.• Complex Geometry Creation: Ideal for Generating Intricate and Freeform Structures.• Automation: Automates Repetitive Tasks in Design and Fabrication.• Powerful Plugins: Extensions Like LunchBox, Weaverbird, Mesh+, Pufferfish, Dendro, Meshedit, Peacock, AnemoneGrasshopper is Popular in Architecture, Engineering, and Industrial Design for its Flexibility and Efficiency.Headline:Grasshopper Offers Several Powerful Features that Attract Users, Especially in Fields Like Architecture, Design, and Engineering. Here are Some of its most Appealing Capabilities:• Parametric Design: Grasshopper Allows Users to Create Complex Designs Through Parameters. You Can Easily Modify Shapes, Patterns, and Structures by Changing Input Values, Enabling Rapid Design Iterations.• Algorithmic Modeling: It Enables Designers to Use Algorithms to Generate Intricate Forms and Structures, Which Would be Difficult to Create Manually.• Visual Programming: The Node-Based Interface Is User-Friendly and Doesn’t Require Coding Skills, Making it Accessible for Designers and Architects Who May not be Familiar with Traditional Programming.• Integration with Rhino: Seamless Integration with Rhino 3D Allows Users to Build and Manipulate Models with Precision and Flexibility.• Automation: Grasshopper Can Automate Repetitive Tasks, Saving Time and Reducing Manual Errors in Design Processes.• Plugins & Flexibility: Grasshopper Supports a Variety of Plugins, Such as LunchBox, Weaverbird, Mesh+, Pufferfish, Dendro, Meshedit, Peacock, Anemone• Complex Geometries: It’s Especially Attractive for Creating Organic and Freeform Shapes that are Difficult to Model with Traditional CAD tools.• Customization & Scalability: Grasshopper is Highly Customizable, Allowing Users to Create their own Components or Scripts, and is Scalable for Both Small Projects and Large, Complex Designs.Please Watch this Course and Feel Free to Ask me any Questions You Have while Watching it. Additionally, During the Learning Grasshopper, Ask me Questions so that I Can Guid You.Enroll Now for Being Professional in Grasshopper and Parametric Design.

Overview

Section 1: Beginner

Lecture 1 Introduction to Rhino software and Grasshopper

Lecture 2 Construct Point and Polyline

Lecture 3 Sort Along Curve, Remove Duplicate Point

Lecture 4 Interpolate and Nurbs Curve

Lecture 5 Boundary Surface, Loft, Ruled Surface

Lecture 6 XYZ Vector, 2-Point Vector, Multiplication, Amplitude, Vector Display, Extrude

Lecture 7 Curve Evaluation, Domain, Reparameterize

Lecture 8 Range, Grouping

Lecture 9 Move, Line, Middle Curve, Rotate

Lecture 10 Point on Curve, Extruding Curves, Entwine, Flip Matrix

Lecture 11 Gene Pool, Series

Lecture 12 Data Matching in Grasshopper

Lecture 13 Data Tree Structure

Lecture 14 Point List, Branches and Sub-Branches, Partition List

Lecture 15 Tree Item, List Item

Lecture 16 Graft

Lecture 17 Flatten

Lecture 18 Bang or Explode Tree

Lecture 19 Area, Tree Branch

Lecture 20 Displaying Wires (Dashed Line, Double Line, and Single Line)

Lecture 21 Comparing the Loft and Twist, Line SDL

Lecture 22 Ellipse, Linear Array, Scale

Lecture 23 LunchBox Plugin

Lecture 24 Evaluate Surface, MD Slider, Rebuild Command in Rhino, Vector XYZ, Circle CNR

Lecture 25 Project Point on Surfaces, Pull Point, Surface Closest Point

Lecture 26 Normal Vectors, Extrude Point

Section 2: Intermediate

Lecture 27 Attraction Point, Distance, Remap Number, Bounds

Lecture 28 Review

Lecture 29 Review

Lecture 30 Review

Lecture 31 Review

Lecture 32 Review

Lecture 33 Create UV/Curve in Rhino, Apply Curve in Rhino

Lecture 34 Review

Lecture 35 Surface, Boundary Surface, Network Surface, Patch Surface

Lecture 36 Section in Rhino, IsoCurve, Rebuild Curve

Lecture 37 Shatter, Pipe, Cap Holes

Lecture 38 Cull Pattern, Deconstruct Point, Polygon, Dispatch

Lecture 39 Larger Than, Smaller Than, Equality

Lecture 40 Point in Curves

Lecture 41 Gate And, Gate Or

Lecture 42 Review

Lecture 43 Review

Lecture 44 Subtraction, Addition

Lecture 45 Random, Integer Division, Integer, Round

Lecture 46 Stochastic Production Methods, Member Index, Jitter, Sub List, Duplicate Data

Lecture 47 Review

Lecture 48 Discontinuity

Lecture 49 Rotate Axis

Lecture 50 Review

Lecture 51 Review

Lecture 52 Insert Items, Replace Items

Lecture 53 Merge, Weave

Lecture 54 Map to Surface

Lecture 55 Create UVcrv, Flow Along srf, Flow

Lecture 56 Review

Section 3: Professional

Lecture 57 Shift List, Tree Branch, Explode Tree

Lecture 58 Graft Tree

Lecture 59 Review

Lecture 60 Partition List, Path Mapper

Lecture 61 Shift Path

Lecture 62 Review

Lecture 63 Sub List, 4point Surface, Cull Index, Brep Join

Lecture 64 Char Sequence

Lecture 65 Item Index, Member Index, Find Similar Member, Applications of Various

Lecture 66 C plane, Plane, Construct Plane, Cone component, Rectangle

Lecture 67 Plane Normal, Center Box, Evaluate Surface, Construct Plane

Lecture 68 Rotate Plane, Orient, Transform, Inverse Transform

Lecture 69 Bounding Box, Group, Isotrim

Lecture 70 Surface Box, Box Morph, Volume, Profiler plugin

Section 4: Expert

Lecture 71 Importing CAD file, UnGroup, Multipipe, Mesh

Lecture 72 Populate 3D, Evaluate Box

Lecture 73 Methods of mesh generation, Construct Mesh, Unify Mesh, Creating a heat map

Lecture 74 Voronoi, Mesh Brep, Mesh+ plugin

Lecture 75 Concatenate

Lecture 76 Mesh Surface, Deconstruct Mesh, Random Reduce, Mesh Explode, Mesh Join, Combine

Lecture 77 Face Boundaries, Offset Surface, Pufferfish Plugin

Lecture 78 TriRimesh, Triangle Mapping

Lecture 79 Weaverbirds Plugin

Lecture 80 Date Dam

Lecture 81 Continuum

Lecture 82 Image Sample

Lecture 83 Fillet, Simple Mesh, Refine

Lecture 84 Offset Curve, Setting (Quality, Speed, Custom), Graph Mapper, Gradient

Lecture 85 Surface From Point, List Length, Tree Statistics

Lecture 86 Mesh Explode, Weld Mesh

Lecture 87 Analysis of View Radius and View Distance, Iso View, Average, Number

Lecture 88 Path Mapper, Modulust

Lecture 89 Method of Transferring Index i from Source to Target

Lecture 90 Dendro Library, Create Setting, Curve To Volume, Smooth Volume, Volume to Mesh

Lecture 91 Review

Lecture 92 Contour

Lecture 93 Review

Lecture 94 Populate Geometry, Point Charge, Spin Force

Lecture 95 Domain Box, Populate 3D, Center Box, Solid Union, Brep | Plane

Lecture 96 Anemone Plugin, Loop End, Loop Start, Perp Frame, Remove Duplicate Pts

Lecture 97 Review

Lecture 98 Peacock Plugin, Pipe Custom

Lecture 99 Review

Lecture 100 Repeat Data, Sift Pattern, Combine Data

Architectures,Rhino Users,CG Artists,Interior Designers,Architectures/Design Students,Engineers,Industrial Designers,BIM Modelers,Programmers,Math/Geometry Students