mbre de 9:00 am a 8:00 pm Este taller está dirigido principalmente a arquitectos y diseñadores interesados en el aprendizaje del diseño paramétrico y generativo aplicados a la generación y racionalización de geometrías complejas para su implementación en diferentes procesos de diseño. En el curso se abordarán los conceptos básicos y metodología para hacer frente a diversas problemáticas del diseño mediante el desarrollo de herramientas algorítmicas a través de un lenguaje de programación visual y el desarrollo de esquemas de fabricación digital. No se requieren conocimientos previos de Rhinoceros 3D ni de programación, conocimientos previos de CAD deseables. Estudiantes: 2,500 MXN Profesionales: 3,000 MXN
CONCURSO DE RENDERS - BECA DEL 100% - Parametric & Generative Architecture & Design Grasshopper Workshop.
- Publica tu render en www.facebook.com/3dmetrica - El render con más likes será el ganador. - Fecha límite de votaciones 15 de septiembre del 2012.
Informes e Inscripciones: workshop@3dmetrica.com 04455 28790084 www.3dmetrica.com www.facebook.com/3dmetrica
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rogettisti, artisti di vari media, paesaggisti, studenti.
Orario_ 9.00-18.00 ( 1 ora pausa pranzo). 16 ore_2 giorni da 8 ore.
Descrizione_Il livello base di Grasshopper serve come introduzione al plugin parametrico Grasshopper per Rhino 3d. I partecipanti saranno esposti a flussi di lavoro di livello principiante /intermedio ed a strategie di progettazione per la MODELLAZIONE PARAMETRICA. L'accento sarà posto sulle tecniche di flusso di dati, la visualizzazione e l'analisi in grado di fornire una solida base per la futura ricerca e sviluppo.
Le lezioni saranno composte da una parte teorica ed una pratica in cui si svilupperanno esercizi basati su elementi di Design ed Architetture contemporanee.
Iscrizioni_ generativef@gmail.com
+info_Grasshopper Workshop_Livello base
Organizza_generativeflow.com
Chi_ I docenti saranno Marco Bonucci & Fernando Rial
___________________________________________
When?_ 27/28 October 2012 (Saturday and Sunday)
Where?_ AD Comunicazione. Via di Sant'Anna, 3, Roma. (Centro Storico)
Schedule_ 9:00 to 18:00 (1 hour lunch break). Ore_2 days_16 hours_8 h/day
Who is the target Audience?_Architects, Engineers, Industrial Designers, Interior Designers, Product Designers, Artists of various media, Landscapers.
Abstract_ The basic level of Grasshopper serves as an introduction to Grasshopper, the parametric plugin for Rhino 3d. Participants will be exposed to beginner / intermediate workflows and design strategies for PARAMETRIC MODELING. The focus will be on techniques of data flow, visualization and analysis that will provide a solid basis for future research and development.
Registration_ generativef@gmail.com
+ info_Grasshopper Workshop_Basic Level
Organizes_generativeflow.com
Who_ I docenti saranno Marco Bonucci & Fernando Rial
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Added by Fernando Rial at 10:48am on October 18, 2012
imes. Your loop should go to y.Count - 1. Or, you could use a For...Each loop, circumventing the problem altogether:
Dim shortLines As New List(Of Line)
For Each segment As Line in y
If (segment.Length < x) Then
shortLines.Add(segment)
End If
Next
A = shortLines
--------------------------------
Another problem is this line of code:
New_Lines.Add(New_Line)
It is located inside the loop but outside the If statement, meaning it gets run every single iteration. This fills up the short line list with duplicates.
-------------------------------
Here's something else which is redundant:
Dim Input_Line As New Line
Apart from the fact that you don't need a special variable for this at all, you also don't need to add a New keyword. The type Line in RhinoCommon (just like Point3d, Vector3d, Plane, BoundingBox etc. etc.) are Structures, not Classes. Structures always exist when they are defined, whereas Classes can be null ("Nothing" in VB).
-------------------------------
Some more advice:
Dim i As Integer
For i = 0 To y.Count()
You can merge these two lines into one. VB.NET allows you to declare your iteration variable inside the loop:
For i As Integer = 0 To y.Count - 1
--------------------------------
If you don't like the For...Each approach at the top of this answer, here's how to write this using a For...To loop:
Dim shortLines As New List(Of Line)
For i As Integer = 0 To y.Count - 1
If (y(i).Length < x) Then
shortLines.Add(y(i))
End If
Next
A = shortLines
ps. A personal preference of mine is that I always encase the expressions inside If...Then statements in brackets. You technically don't need to do this, but I find it makes the code more readable.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
taTree.
2. Since GH is acyclic by design we can't pick individually (without code, that is) our "picks" for the iceberg ... thus we need a global policy applied to ALL grid points at once.
3. This is what the next part does: it picks randomly some iceberg stuff and modifies their Z by a random value. If the Z is always "above" the grid or not it depends upon the domain of values to operate. Seed means "roll the bones again" (meaning another collection).
4. So we have the modified points Data Tree (that are steady - acting as the tips of the iceberg). Let's call them Anchors.
5. If we subtract set 4 from 1 we have the points prone to vary according some manipulation. Kangaroo does that manipulation (this is the best add-on that GH has to offer by 1M miles made by a very clever fella).
6. But if we instruct Kangaroo to do the job... he makes chaos since the points in 4 are not sufficient: we need perimeter steady points that act as Anchors as well. So we manage some logic to pick a variable set of perimeter points and we "merge" 4 and 6 and we have the final set of Anchors on hand - whilst all the rest are points willing to change.
7. Kangaroo is a physics engine meaning that the only thing that understands is ... er ... points and their relation (the "line" connecting them, that is). Kinda like a CPU that understands 0 and 1 and nothing else.
8. So we provide Kangaroo info about all the lines involved: how "stiff" they are and what is the expected/desired final length.
9. By double clicking the Kangaroo component ... the "simulation" starts running (in some kind of "loops") and goes towards an "equilibrium" where all our desires are satisfied - or the solution's entropy is the minimum possible (well up to some level, he he). Kangaroo displays a small control dialog that allows you to halt the process or reset it (meaning: start again).
10. If the instructions are "good"/"proper" the "loops" (iterations) are relatively few: if K does 1M "loops" ... this means that your instructions are silly or not well thought.
After stopping Kangaroo ... we have (hopefully) a "well" distorted collection of points (and their equivalent mesh) to proceed further via components usually found in the WB add-on
PS: If all the above sound Greek to you ... it's because I'm Greek, he he.
Moral: Get the gist of Kangaroo ASAP - worth spending some time I recon. If you do that and you need examples (other than the ones available at download time) ... well I have more than 300 (from simple to ultra paranoid).…
d of interpenetrating surfaces somewhere:
Now all links (except a possible single ball on the very end of odd numbered ball series) are four balls long, including the jostled ones. Without that step, those items simply don't appear in the output, leaving way too big of gaps to ignore, eventually leaving huge gaps at later stages of segment doubling:
So if I turn the jostling multiplication factor way down it should work imperceptibly:
Ta-dah! The jostling strategy WORKS! Granted, only in this special case where I know I'm dealing with adjacent pairs of worms along a curve, not generic objects arranged in space by some artist.
Now I just need to wrap the multiple Python script components I'm stringing together into one script.
How long does the full 2400 balls take, finally? It took 12 Python scripts that merge pairs, to achieve this breakdown: 2400 -> 1200 -> 600 -> 300 -> 150 -> 75 -> 38 -> 19 -> 9 -> 5 -> 3 -> 2 -> 1. Time was 2 minutes 50 seconds, so there is some extra struggle for 2X as many balls as 1200 that took 1 minute 20 seconds, but only ten more seconds.
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Added by Nik Willmore at 9:06pm on February 17, 2016
iles and rad files in this folder :
C:\Users\Sarith\AppData\Local\Temp\radSources (replace my name with yours).
However, the pic file which is created in that folder crashes. So, I tried to hack the process and get an image through a screenshot and ra_bmp.
This is the rendering that I got through Relux:
This is what I got from my own renderings with image that I got:
This is surprising because the material is called Glass. However the radiance definition of the material is :
void colorpict mat_104~19 red green blue surfpic2.pic alignpic.cal tile_u tile_v -s 0.5850001 0.975mat_104~1 plastic mat_104005 1 1 1 0 0
The colorpict on the the first line only modifies color patterns and does not make the material transparent/translucent. Similarly, the plastic type implies that the material won't be transparent anyway.
I don't think this material as defined in Relux is a physically based material. You are probably better off importing the Raytracer materials to Honeybee. Andy Mcneil had an excellent presentation about GlassBlocks in the last Radiance workshop: http://www.radiance-online.org/community/workshops/2015-philadelphi...
The pic file that I generated is here : https://www.dropbox.com/s/5c32layqehdns72/surfpic2.pic?dl=0…
Angeles, which has 12% of the year made comfortable, and Shiraz, Iran, which also has 12% comfortable (assuming default parameters).
Jerusalem also makes sense to me. There is only a maximum possible 9% of the year that is inside the polygon (you'll see this if you set the timeConstant to a very high number). The default strategyPar makes 6% of these hours comfortable and 3% without cool enough temperatures in the previous hours. This seems reasonable to me.
I could be convinced to change the default time constant to 12 hours (instead of 8) as I know that 12 is the default of climate consultant but that seemed really idealized in my opinion. You'll need really high exposed mass and insulation without much internal heat gain to make conditions stable for more than 8 hours in my opinion.
As for the solarHeatCapacity, I get changes when I drop it down to 10 W/m2 or boost it up to 100 W/m2. It's definitely a parameter that operates on an "order of magnitude" scale and little tweaks to it won't change it too much. You can think of this number as representative of a lot of other physical properties: most notably the depth of the space being passively heated and the thermal mass of that space's materials that participate in heat exchange over the time constant. Climate consultant uses a default assumption of 30 W/m2 but, from my calculations, this is likely assuming a space that has a facade to floor area ratio that is greater than 1. If we say that we need to raise the temperature of 10 cm of an exposed concrete floor for passive heating purposes, and we have a facade-to-floor area ratio of 1:
Required solar flux = ((1 facade-to-floor ratio) x (0.1 m3 of concrete) x (2400 kg/m3 concrete density) x (880 J/kg-K concrete specific heat capacity)) / 3600 seconds/hour
This lands you with a required solar flux of 58 W, which is almost twice the 30 W climate consultant default. While me might say that not all 10 cm of concrete participates over the course of a default 8-hour time constant (most of the action is probably within the first 5 cm), we also have to account for things like transmittance of solar though the window, which, for triple pane, is probably only half of the incident solar. So 50 W seemed to be a more reasonable rule of thumb from my perspective, essentially assuming a facade-to-floor ratio of roughly 1 with 5 cm of concrete participating in an 8 hour heat exchange and a little more than half of solar heat getting through a fully glazed window.
Let me know if that makes sense or if you have any suggestions,
-Chris…
on excel (leaving 0,0 cell blank and also making sure there are no commas in the names ) Also let's call the names "ID"
2 - For the weight, use numbers ranging from 1 - 10 where 10 is the highest dependancy.
3 - Save the file as a Unicode CSV from excel
4 - Create another file on excel that has the attributes of your spaces, with the names of your spaces under the header ID (let's start with a simple "area" and "SNo" attribute but you could add more features for sorting and manipulating your data)
5 - Open Gephi and further open your matrix CSV file
5 - Import it as "," (comma delimited file) and make sure you check "matrix" for the data type
6 - Ensure the import is nondirectional as well (or Gephi adds silly arrows)
7 - Not gonna go into the gephi bit too much but select a force atlas layout and set the force to something high 1000 or 10000 depending on the size of the data and the attraction to a 1000th of that 1 or 10. Go to the data lab and import your excel with the attributes and append to your existing datasheet.
8 - Set the node attributes to use the area for the node size and color scheme to SNo
9 - Play around with all the layout options and finally go to your preview. Once you're happy with it, export it to a GDF graph file.
the GDF now has the coordinates of the circles and the diameters. as well as the edge connections.
I've written a very amateur script that converts this to GH geometry (below)
Hope this helps someone out, I'm still figuring out the gephi streaming API but I've only started with python about a month ago so might take a while to get there.
You can use the second half of the GDF files to also create dependency chord diagrams online as shown in the third image.
https://flourish.studio/2018/07/25/how-to-make-a-chord-diagram/
Cheers,
Sanjay
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ugh. Although I see now how over my head I am. Hopefully with time I will be able to help others.
I just started experimenting with Grasshopper two days ago. I would like to take a toy I designed and re-create it with a skeletal mesh.
As a super beginner it would be wonderful if any of you experts could direct me to some MUST-reads so I can increase my knowledge.
To other novices I found this intro guide helpful
and this intro video was helpful too.
Special thank you to everyone in this thread on creating a Skeletal Mesh I am trying to apply SkeletalM grasshopper files to my problem. Please don't hesitate to offer any critique:This is a picture of my toy:Here is a picture of where I am:
Here is a picture of what I understand:
This is my first post on here, so feel free to help me make it better and ask any questions.
Ultimately my goal is to create a voronoi-like structure that can attach to my exisiting wood shapes.
I created the basic form as a polysurface and then in GH i used that as my Brep. The idea i had was to use the Brep in conjunction with the populate3D. The initial idea would be that I could create points within the Brep to use for the Voronoi volume command. The first problem I ran in to was that the populate3D command created points outside my brep. I see how this is a problem, but... How do I create more specific parameters?
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Added by Kenny Arnold at 10:42am on April 16, 2014
the following image of a hut.
I do not have experience using kangaroo to simulate forces, but I have made a test using multiple random components on a flat surface to fake the effect I'm going for. See image below.
The main issue I'm having is that the original file used for my test surface used box morph and the variable pipe command. Box morph is a bit touchy on a curved surface and it is not as elegant as I would like it to be (ie. I want all the hair diameters to be perfectly circular and uniform in size). Variable pipe also does not align the base of the hair with the existing surface, which means I have to offset the surface and then trim the excess of my pipe.....leading to heavy code and the file crashing.
So I'm trying to rebuild the "hairs" using a new method:
1) Subdivide the surface
2) Find the midpoint of each surface and then create a straight line that is perpendicular
3) Move a point along the on the straight line (between the start and end points) in the z direction, and then create a nurbs curve using this point and the start and end points
4) create a circle at the base of each crv, and then two more circles: one at the point in the middle point (I think I set it to .9) and the end of the curve
5) The problem: Now I am trying to sweep along these three circles and the nurbs curve to create a bent hair/pipe that is flush with the conic surface, but it does not work.
If someone can help that would be amazing. I've included my original surface test file and my new file where I am rebuilding using the sweep command. Below is a drawing of what I'm trying to achieve.
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