me logic produced by running the 2-d voronoi component.
From a given set of polylines we can extract the centers and this can drive both the voronoi component as well as provide the XYZ drill points for the cnc. The definition has a variety of different options. You need Lunchbox, Weaverbird, and Starling. I can't tell you how amazing these 3 tools are from a design perspective. They are extremely powerful so if you don't have these you must install them asap. You can get the tools at http://www.food4rhino.com/
This definition works by first choosing a grid type, next you choose voronoi type, and subdivision type. From the voronoi type list you can choose basic (just grid), truncation (uses truncation calculated via the image sampler), truncation dual (uses the dual of the truncated image based grid), and subdivision (takes the basic grid type and uses different subdivision shcemes). Each of these provide different patterns of polylines from which we can extract our drilling points. I am rather proud of this definition since the overall idea is one which is so simple it's easy to overlook - the idea that drilling with a ball end mill makes voronoi plots. Now when you combine that with all of these amazing tools it can go off right quick. The nice thing is the paatern you see on screen is the pattern that gets made by drilling wysiwyg cnc patterns.
VORONIO_DRILLing.gh
Here are some on screen patterns in process in the following order truncation, basic, subdivision:
here is a video moving over a machined example:
…
Introduction to Grasshopper Videos by David Rutten.
Wondering how to get started with Grasshopper? Look no further. Spend an some time with the creator of Grasshopper, David Rutten, to learn the
nter the programming world and tinker more complex, interactive solutions. We will also explore advanced programming paradigms. There is no class official programming language, as both C# and Vb.Net are possible on the participant’s side, and all examples will be provided in both C# and Vb.Net. Additionally, we will see how to get started writing full .Net plug-ins. Finally, we will have time to explore user’s own proposals on the third day.
Day 1 Morning: programming introduction in .Net
• The Grasshopper scripting components. Choosing a .Net language. Language developments
• Variables declaration, assignment and utilization. Operators. Methods [functions]. Calls
• Classes: declaration and instancing. Constructors. Importing a namespace. On3dPoints, OnLines
• Arrays declaration and usage. Lists. Adding to arrays and lists, advantages and opportunities.
Afternoon: patterns
• About OOP (object oriented programming) as opposed to procedural programming. Discussion
• Example of OOP good code reuse: sorting points by coordinates using the .Net SDK classes
• Lists as input parameters. Trees as input parameters. Usage and limitations
• Finding resources: on the net with website that can help getting started and troubleshoot. And books
Day 2 Morning: extending Grasshopper functionality with our definitions
• Store data between updates. The use of fields [globals, or static locals]
• Examples on how to use stored data between updates: a simple agents simulation
• Baking geometry with scripting directly into the Rhino document. Baking with names
• Passing custom types from a scripted component to another one. Our own code reusability
• Rendering an animation from Grasshopper. How to get started and final results
Afternoon: customizing our tools
• Our Rhino plug-in with Visual Studio C# [Vb.Net] Express Edition & wizard. Parametric mesher
• Writing a custom Grasshopper component: hacking an exporter for our data to Excel
Day 3 All day: personal project
• Rehearsal on any example from the first two days. A project that you want to start on your own, being it a Rhinoceros plug-in, a Grasshopper assembly or a script. Example might be to send data through network with UDP to Processing
MINIMUM REQUIREMENTS
A good foundation of Grasshopper visual programming is mandatory. You will need a level which corresponds to the Grasshopper 101 course outline. Examples of things that will not be covered in this course are: sorting document spheres by diameter, paneling of a surface with grasshopper components. You are expected to already know these from the Grasshopper course.…
ntación en distintos procesos del Diseño.
Se abordaran los conceptos basicos y la metodologia para abordar problemas de diseño a traves del desarrollo de Herramientas Algorítmicas mediante un proceso de programacion visual.
Como plataforma de trabajo se utilizara Rhinoceros+Grasshopper.
Instructor:
Leonardo Nuevo Arenas
Fechas:
17 y 18 de Septiembre de 2011
Lugar:
Calzada del Federalismo Sur No. 135 Altos 3, Frente al Parque Rojo (http://bit.ly/nNOuZ5)
Cupo:
Limitado a 15 plazas
Fecha limite de pago:
Viernes 9 de Septiembre
Importante:
Los participantes deberán traer su propia Laptop con todo el software y actualizaciones (originales o versiones de demostración oficiales) previamente instaladas. (Se fijara una fecha unos días antes para revisas que todos los equipos estén en orden y listos para trabajar). Si planeas venir de fuera de la ciudad contactanos y te pondremos en contacto con otras personas que también vayan a hacerlo para en caso de desearlo puedan compartir su lugar de estancia.
Contacto:
Leo. 33 3956 9209
nuarle@msn.com
Aye. 33 1050 3482
ayeritza.fara@gmail.com…
to enter the programming world and tinker more complex, interactive solutions. We will also explore advanced programming paradigms. There is no class official programming language, as both C# and Vb.Net are possible on the participant’s side, and all examples will be provided in both C# and Vb.Net. Additionally, we will see how to get started writing full .Net plug-ins. Finally, we will have time to explore user’s own proposals on the third day.
Day 1 Morning: programming introduction in .Net • The Grasshopper scripting components. Choosing a .Net language. Language developments • Variables declaration, assignment and utilization. Operators. Methods [functions]. Calls • Classes: declaration and instancing. Constructors. Importing a namespace. Point3d, Lines • Arrays declaration and usage. Lists. Adding to arrays and lists, advantages and opportunities. Afternoon: patterns • About OOP (object oriented programming) as opposed to procedural programming. Discussion • Example of OOP good code reuse: sorting points by coordinates using the .Net SDK classes • Lists as input parameters. Trees as input parameters. Usage and limitations • Finding resources: on the net with website that can help getting started and troubleshoot. And books Day 2 Morning: extending Grasshopper functionality with our definitions • Store data between updates. The use of fields [globals, or static locals] • Examples on how to use stored data between updates: a simple agents simulation • Baking geometry with scripting directly into the Rhino document. Baking with names • Passing custom types from a scripted component to another one. Our own code reusability • Rendering an animation from Grasshopper. How to get started and final results Afternoon: customizing our tools • Our Rhino plug-in with Visual Studio C# [Vb.Net] Express Edition & wizard. Parametric mesher • Writing a custom Grasshopper component: hacking an exporter for our data to Excel Day 3 All day: personal project • Rehearsal on any example from the first two days. A project that you want to start on your own, being it a Rhinoceros plug-in, a Grasshopper assembly or a script. Example might be to send data through network with UDP to Processing MINIMUM REQUIREMENTS A good foundation of Grasshopper visual programming is mandatory. You will need a level which corresponds to the Grasshopper 101 course outline. Examples of things that will not be covered in this course are: sorting document spheres by diameter, paneling of a surface with grasshopper components. You are expected to already know these from the Grasshopper course.…
a modélisation paramétrique avec Grasshopper pour Rhinoceros3D ainsi que démontrer plusieurs façons de l’appliquer à votre travail architectural.
Cette formation est conçue comme une expérience augmentée autour de l’architecture paramétrique et elle comprend aussi :
+ Une introduction au design paramétrique par Francesco Cingolani+ Une étude de cas d’un projet de l’agence de l’agence HDA Hugh Dutton Associés+ Acces gratuit 3 journées à l’espace de coworking SUPERBELLEVILLE
INSTRUCTEURS
FRANCESCO CINGOLANI . designer, enseignant en architecture paramétrique, co-fondateur deSUPERBELLEVILLE coworking, collaborateur de l’agence Hugh Dutton Associés. – voir le profil Linked-in
ŞULE ERTÜRK . Architecte diplômée de l’Université Yildiz Teknik à Istanbul, Master en architecture paramétrique, travaille actuellement aux Ateliers Jean Nouvel dans le département 3D. - voir le profil Linked-in
QUENTIN GAUCHER . Architecte DE-HMONP, diplômé de l’ENSA Paris La Villette, intervenant en architecture paramétrique sur divers projets - voir le profil Linked-in
DATES 25 mars 2013 . Annonce de la formation / Début des inscriptions5 avril 2013 . Fin des inscriptions13 – 14 avril 2013 . Formation
HORAIRES Samedi et Dimanche 13 et 14 avril . 10:00 > 13:00 – 14:00 > 19:00Total : 16 heures
TARIF700 € professionnels400 € étudiants
RÈGLEMENT50% est à régler lors de l’inscription (au plus tard le 5 avril)50% au début de la formation.Les règlements s’effectuent par carte bancaire via Paypal ou par virement bancaire.
NOMBRE DE PARTICIPANTSMinimum pour l’activation de la formation : 5Maximum : 7
CONTACTInscriptions et réglements : fr.cingolani@gmail.com . SUPERBELLEVILLE coworkingInformations : quentin.gaucher@gmail.comimmaginoteca.com/grasshopper
EN BONUSLe café italien et les plats faits maison de Claudia offerts aux participants :)…
ll-Facade using Rhino and Grasshopper Participants will learn; Rhinoceros Grasshopper Advanced Parametric Design Brick Formations and Explorations Shadow-Design Relationship
Session 2: Advanced Digital Modeling for Additive Manufacturing (3D Printing) Participants will learn; How to prepare a 3D design to 3D Printing process in Rhinoceros Advanced Methods for 3D Print optimisation for time and cost effective production 3D Printing software education Cura
INFO
Date Saturday, 28 September 2019 Schedule 9:30am – 2:30pm (Session 1) | 2:45pm – 7:00pm (Session2) Venue (TBC) Pada Labs, Istanbul Language English/Turkish Softwares Rhinoceros Grasshopper 3D Cura Participants will need to bring their own laptops with software installed; other plugins will be distributed at the workshop. Prerequisites All tutorials are open to beginner level. No previous knowledge of Cura and Grasshopper needed. Basic knowledge of Rhinoceros recommended. Participation The workshop is limited to the first 20 applicants. Each student will receive a certificate of participation. Prices for each session: (You can pick one and attend one) Special Early registration (Deadline 1 August ) Students 310 TL Professionals 400 TL Regular registration Students 390 TL Professionals 480 TL Prices for Session 1&2 Combined: (Full Day) Special Early registration (Deadline 1 August ) Students 540 TL Professionals 690 TL Regular registration Students 620 TL Professionals 790 TL DISCOUNTS Group registration of 3 or more people will get a 15% discount. * Previous Pada workshop students will get a 10% discount. DIRECTOR Begum Aydinoglu, M.Arch AA DRL will be instructing and directing the following workshops. REGISTRATION: Email to pada.workshops@gmail.com for registration instructions. Please note that we have limited seats and there won't be any exceptions. …
large scale prototyping techniques. The programme continues to build on its expertise on complex architectural design and fabrication processes, relying heavily on materiality and performance. Autumn DLAB brings together a range of experts – tutors and lecturers – from internationally acclaimed academic institutions and practices, Architectural Association, Zaha Hadid Architects, among others.
The research generated at Autumn DLAB has been published in international media – ArchDaily, Archinect, Bustler – and peer-reviewed conference papers, including SimAUD (Simulation in Architecture and Urban Design), eCAADe (Education and research in Computer Aided Architectural Design in Europe).
Autumn DLAB investigates on the correlations between form, material, and structure through the rigorous implementation of computational methods for design, analysis, and fabrication, coupled with analog modes of physical experimentation and prototype making. Each cycle of the programme devises custom-made architectural processes through the creation of novel associations between conventional and contemporary design and fabrication techniques. The research culminates in the design and fabrication of a one-to-one scale prototype realized by the use of robotic fabrication techniques, with the aim of integrating of form-finding, material computation, and structural performance.
The programme is structured in two stages:
PART 1 – participants are introduced to core concepts of material processes, computational methods and digital fabrication techniques. Basic and advanced tutorials on computational design and analysis tools are provided. The programme performs as a team-based workshop promoting collaboration, research and ‘learning-by-experimentation’.
PART 2 – participants propose design interventions based on the skills and knowledge gained during phase 1 and supported by scaled study models and prototypes. The fabrication and assembly of a full-scale architectural intervention with the use of robotic fabrication techniques will then unify the design goals of the programme.
Applications
1) A limited number of 10 places are available. To apply, please send a small portfolio (5MB) to the Visiting School Office.2) PARTIAL SCHOLARSHIPS ARE AVAILABLE. Please send a letter of intent and a small portfolio (5MB) to the Visiting School Office.3) As this programme has a limited number of places it requires a selection process, if you are offered a place on programme, the Visiting School Office will inform you of how you can complete the registration process.
The deadline for applications is 13 AUGUST 2021.
Eligibility
The workshop is open to current architecture and design students, PhD candidates and young professionals. Software Requirements: Adobe Creative Suite, Rhino 6. No prior knowledge of software tools is required for eligibility.
Fees
The AA Visiting School requires a fee of £975 per participant, which includes a £60 Digital Membership fee.Students need to bring their own laptops, digital equipment and model making tools.
…
s: [Mesh Brep] which used the Rhino mesher, [Mesh Surface] which create a rectangular grid of mesh faces on a single surface and [Simple Mesh] which attempts to represent each face in a Brep using a single Tri or Quad and accuracy be damned. Let's focus on the easy ones first...
[Simple Mesh] is a first attempt at providing a completely reductionist meshing engine. It was born out of a skype discussion I had with Brian James one night during the weekly Seattle RMA developer meeting. It only handles very simple cases at the moment so it's probably not all that useful, but it's there anyway just in case. If this mesher cannot handle a certain Brep face because it's too complicated it will use the native Rhino mesher for that face.
The purpose of [Mesh Surface] is to provide a single surface mesh that isn't distorted by the underlying parameterization of a surface. My approach for this actually turned out to be really slow, which is why the [Q] input is set to false by default. This mesher was never designed to take trims into account, however you get a single option [H] to control how trims interact with the mesh.
[Mesh Brep] merely channels the native Rhino mesher. You can supply meshing settings that look a little bit like the meshing settings that Rhino itself exposes. With these settings you can control how seams in breps are handled, how much the mesh is allowed to deviate from the underlying geometry, how many quads you want etc. This is the most customizable option, but even here it's totally possible you can't get what you want. For example, there is no way to enforce a mesh that contains only quads. As soon as seams are stitched or whenever trims are present, you're going to get triangles along the edges of meshes.
--
David Rutten
david@mcneel.com…
able all the components from that group.I know it's slowing down a lot, but the rhino performance is really poor on layouts. In Rhino 6 WIP it's a lot better though.
For the issue with different amount of drill holes i made an example script, how i would go for a solution to this. It's just a suggestion.
1) Do a little script that catches those holes and bake them to a separate layer.In my example i just generated them with GH.
2) Use RhinoCount (is installed with FabTools) to name the curves in Rhino by clicking one after the other. But first diable the layers, with the other geometry, so you don't accidentally click on geometry which you don't want to count.
You have 2 counters 1 for the part the second for the holes on each object. Increment the object counter if you have counted all holes of 1 object. By clicking on each hole the counter increments all by itself. Take a look at this command!
1 Click creates 1 Dot and renames the Rhino object. You can turn on/off all specific features of RhinoCount with the checkboxes. (see settings above)
And....this should be the result after some clicks:
3) If counted, you can reference the counted geometry again to GH with the counting as Datatree. (See attached GH File).
Then estimate the maximum amount of holes on one object in your drawing.Create a template with the amount of detail views and do the process from the layout tutorial again. For all objects with less holes you will have to delete the detail view which didn't have a target point or you do a sort of grouping for the hole centers and estimate the center of that group. You can be creative ;-)
I hope this helps. Good Work,
FF…
Added by Florian Frank at 7:49am on January 21, 2016