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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pecific character it encounters in the file a specific curve would be created (a line with a particular length/orientation associated with that specific character) whose starting point is on the end of the last previous line. here is simple action list:
read first character in txt file
identify character (number 20 in attached example)
insert line associated with character (1" horizontal line)
read next character in txt file.
identify character (number 8 in attached example)
start curve (specific curve associated with the number 8 (1.25" vertical line)) on the end of the previous line.
read next character in txt file.
identify character (number 5 in attached example)
start curve (specific curve associated with the number 5 (.25" horizontal line)) on the end of the previous line.
etc
loop repeats till end of txt file.
i am good with everything else (linking the file, building curves on the ends of things, creating line parameter w/ persistent data, etc) but I'm having a problem with the "if/then" nature of the project. I haven't found a component that has this sophistication yet... I've tried the equals component that compare lists and identify true/false scenarios and the f(x) along with dispatch to create a curve if a single situation occurs (like if x>3, then make a circle) but what about the next character?
I am wondering if I should do this in C+ (which I also don't know) but would rather create this in grasshopper.
See attached for example grasshopper file and txt file.
I would really appreciate any help you can offer - Thanks!!!
// jon…
Added by jon kuzmich at 11:14pm on September 14, 2013
control point edit from a sphere.
Since it is the first time I try Exoskeleton, I checked the lists of input geometry in the exemple and got the same in my definition, but the component turned red, giving this error message:
1. Solution exception:Index was outside the bounds of the array.
For the Radius at Start and End values, I tried using the same principle applied inside the Exo-vase exemple, which links the radius to the Z values, remapping them from .3 to 8.
Is there the problem or elsewhere?
Could someone give me a hint about what I am missing ? Many thanks!!!
Below a screenshot., and I attach the definition.
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you still have left, what matters is how much memory Rhino is using compared to how much Windows is prepared to give it. On 32-bit systems this is usually 2, sometimes 3 Gigs. On 64-bit systems it's such a high limit that it's unlikely you've reached the limit.
You're low on or out of specially allocated memory/handles. Certain processes such as GDI drawing or winforms UI elements require a handle per instance. Every window, every label, every button, every slider, every bitmap... each one has a unique handle associated with it. Depending on the windows version, you either get a few, some, a bunch or lots of these handles to play with. When you start running out, usually the first sign is that the UI goes all wonky. Text disappears, fonts suddenly look terrible, parts of windows go missing. When all the GDI handles that are allowed have been claimed, the application will crash. The same may be true for OpenGL or DirectX handles, I'm not an expert on those.
There's an arithmetic error causing an overflow error. Sometimes these are handled gracefully and you get a proper crash or error message, sometimes they cause software to start accessing the wrong memory.
It's just some random crash that decides to manifest as an out-of-memory crash. This happens a lot and it makes these crashes very difficult to track down.
Since your images start going black before the crash, I'm tempted to think we're dealing with a #2 crash here. Maybe all these images we're saving out are hogging GDI handles and choking the system. If the handles or GDI objects assigned to Rhino keep going up and up as you write out these images, that'll be good supporting evidence. You can use the Windows 8 Task Manager to keep an eye on these values, or if you're running an older version of Windows I recommend installing Sysinternal Process Explorer in lieu of the Task Manager.
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Added by David Rutten at 1:20pm on February 28, 2015
ruses could follow. Then cones are made and some other things.You can move the cones around via the equivalent slider. If the cones "touch" then ... well .. test it and see what's happening,
2. Interactive capability is not present: assume that you have 666 paths/cones > by what means you think that you could control what's happening? By adding 666 sliders? (not in a million years).
3. Rhino is amusing with regard the solid union Method. Depending on Karma you can get this:
or that :
4. Leaving aside N3 .. if the real-time response goes AWOL with just 8 cones what would be the situation if you add 666 cones? This is the reason for using K to solve this ... obviously with "some" compromises yielding "vault" stuff like this:
or like that (an Alien billiard (C)(Tm)(US patent pending) for planet Zorg):
Moral: stick to the Soap_opera approach.…
onstrates the following:
1. The definition's functionality employing HumanUI for the custom user interface.
2. Color based segmentation in manual and auto modes.
3. The evaluation of the definition's ability to handle different point cloud data sets.
This definition performs color based segmentation in two modes.
A manual mode, that implements the Delta-E CIE 2000 color difference formula, for targeted feature detection. An auto mode, that employs a simple RGB Color Range algorithm for quicker preliminary results.
RGB to XYZ to CIELab conversion and Delta-E scripts were based on Colormine's project code from github. Results have been compared and verified with the results of http://colormine.org/color-converter and http://colormine.org/delta-e-calculator/Cie2000.
Each stored class is charted and can be accessed through the UI, as shown at 2:30, where Delta-E CIE 2000, in CieLab color space, output results were found to be in perceptive conformity with human eyes, far superior to the preliminary RGB implementation.
Initial definition versions could process highly subsampled clouds in acceptable timings. Further research showed that employing the multithread processing of Volvox components, bundling the Delta E formula with the RGB to CIE lab color conversion script, per color segmentation calculations for a one million points point cloud would go down from 23 (c# script component) and 8 (vb script component) seconds to approx. 1 second (volvox script cloud component), thus allowing the segmentation of less subsampled point clouds.
I would like to thank Heumann A. and Zwierzycki M. who provided direct support with HumanUI and Volvox. Also Grasshopper3d forum users Maher S. and Segeren P., who contributed with Rhino viewport manipulation scripts.
More on Volvox:
http://papers.cumincad.org/cgi-bin/works/Show?_id=ecaade2016_171&sort=DEFAULT&search=ecaade%20volvox&hits=2629
http://www.food4rhino.com/app/volvox
http://duraark.eu/
HumanUI:
http://www.food4rhino.com/app/human-ui?page=1&ufh=&etx=
ColorMine:
https://github.com/THEjoezack/ColorMine…
hopper) and High Definition visualizations (V-Ray) and exploring its scientific innovations supporting the users' platform philosophical ideas.
SESSIONS: 5 sessions of 8 hours (40 hours total)
E-MAIL: educacion@chconsultores.net
REGISTRATION: (55) 56 62 57 93
TECHNICAL INFO: 044 (55) 31 22 71 83
INSTRUCTORS: Have past experience working at Gehry Technologies, and participated at studios with Eric Owen Moss and Tom Wiscombe at SCI-Arc (Southern California Institute of Architecture).
Day 1: Introduction to MAYA tools, 3D exercise start.
Day 2: Continue 3D exercise.
Day 3: Original 3D architecture design.
Day 4: Grasshopper optional application on 3D architecture design.
Day 5: V-Ray Application on 3D architecture design.
30 DAY TRIAL SOFTWARE DOWNLOAD:MAYA 2012: http://www.autodesk.com/products/autodesk-maya/free-triaRHINO 4: http://s3.amazonaws.com/files.na.mcneel.com/rhino/4.0/2011-02-11/eval/rh40eval_en_20110211.exe3DS MAX 2010: http://www.autodesk.com/products/autodesk-3ds-max/free-trialVRAY FOR 3DS MAX: http://www.vray.com/vray_for_3ds_max/demo/thankyou.shtml#thankyouPHOTOSHOP e ILLUSTRATOR: https://creative.adobe.com/apps?trial=PHSP&promoid=JZXPS
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in App store.
2. Modelo now supports VR! check out this video:
3. We've added a specular option in the rendering settings. So now you can have your design rendered a little bit shinny-er.
4. There is also a "filters" option in this panel, with which you can get some interesting image post processing effects. We are expanding this filter library, if you have any suggestions, please let us know.
5. This one is very important and has been requested by our customers for a long time. Now when you upload a model, you can grab the reviews(3d comments, screenshots,sketches) from your previously uploaded model! This works really conveniently if you use Modelo for your design review/presentation, cause you don't have to recreate the same 3d anchor views every time you made some changes to your design.
6. Also, our developer API is almost ready, which means if anyone is interested in developing a grasshopper plugin that works with Modelo, they can!
There are some many other updates and bug fixes happened. I don't want to list all of them here. Definitely stay subscribed with our newsletter. Modelo is thrived to grow into a more comprehensive platform! If you have any good ideas about our platform, please do not hesitate to let me know!
Here is our Youtube channel: https://www.youtube.com/channel/UCufBShhLtUQepsit9ilI-AA
Cheers
Qi…
Added by Suqi to Modelo at 1:24pm on October 18, 2016
eration!
See an example work flow for designing, simulating and analysing a Photovoltaic system below.
Download a Grasshopper and Rhino example file:
https://www.dropbox.com/s/krbszlplj5i40dz/017_HBgeneration%20Rhino%20model.3dm?dl=0
https://www.dropbox.com/s/lxneuzal3mipd2q/017_HBgeneration.gh?dl=0
See a quick introduction and tutorial videos here: https://www.youtube.com/playlist?list=PLrx2KnyhaJ5YXo5hpk8Q9q4Vy99O5IegK
1. Select a building to mount a photovoltaic generator on (seen in Rhino in green).
2. Select a surface within that building to mount a photovoltaic generator on (seen in Rhino in green).
3. Create a Honeybee context surface from that surface.
4. Place a photovoltaic generator on that Honeybee context surface by using the Honeybee generation component. Honeybee_Generator_PV and connecting the context surface to it's input _HBSurfaces. Then you can specify both the performance and the financial data of the photovoltaic generator.
5. Create a Honeybee generation system which consists of the photovoltaic generator in 4. By using the component Honeybee_generationsystem and connecting 4 to its input PVHBSurfaces_. Then you can specify the annual maintenance cost of this system.
6. Run the simulation in Energy Plus by connecting 5. to the input HBGenerators_.
7. Read the results of the simulation:
- The electricity produced by the Honeybee generation system in 5.
- The net purchased electricity of the facility (the Honeybee zone) to which the Honeybee generation system is attached to. This is the electricity consumed by the facility less the electricity generated by the Honeybee generation system.
- The financial costs of the Honeybee generation system; capital, maintenance and replacement costs.
8. Calculate the net present cost of the Honeybee generation system in 5 assuming a 25 year lifetime.
9. Visualise the net present cost.
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ed. This image shows the problem:
If this is not what you are seeing on your own machine when you hook up your HBZones to a panel, then you have not uploaded the right Rhino and Grasshopper file.
2) You have not run your HBZones through an EnergyPlus simulation. You need to do this in order to get data with which to construct the indoor temperature map. I would strongly recommend following along through the first 8 videos of this tutorial series before trying to construct an indoor radiant temperature map of your own project (https://www.youtube.com/playlist?list=PLruLh1AdY-SgW4uDtNSMLeiUmA8YXEHT_)
3) You are using components from the last stable release, which is fine but you should know that there has been a lot of development on the indoor temperature map workflow in the last 20 days (there is now a much cleaner workflow that integrates the air and radiant temperature with comfort alanyses now on the github). If you imagine using this workflow frequently, I would recommend updating with the Ladybug_Update Ladybug and Hopneybee_Update Honeybee components. See the attached recent file for how the workflow is currently structured.
-Chris…