nth". It complains about "global name "orange" not defined. When you define this situation through Series component it works fine. Checked with other LB components that use input from the AnalysisPeriod and they seem to work well, so the issue is only with SunPath.
2. Another one with the same components: defining, for instance, fromHour 10 - toHour 15, in the model you get from 10 to 14 (one hour less than you asked for), even though that the report output and analysisPeriod input are correct.
3. If already there, defining the "center point" for the Sunpath will be usefull. Not always you want the 0,0,0, or the center of the model. I mentioned this after seeing the part of the video when you intersect the lofted sun positions with a building. Of course you can move the model or move the fan but this can make a shortcut for the user.
Thanks,
-A.…
0,
I want to move everything in {2} up 5 and 10 and 15,
Any ideas. I have been trying using the series component to create the right data structure but somehow its not working and i am sure there is a simple way?
Do i have to repeat the data so that the number of transform data matches the input list or is there a way to simply apply the transformation to everything in {0}{1} and {2} respectively depending on its structure ??
Hopefully this makes sense? I am not really sure but is it a job for stream - i cant understand why i cant get it to work. Sorry i am sure this is covered in the forums, i have been looking but cant anything which helps specifically.
Many thanks
Chris…
feed back:
Last year a group of graduate students at McGill did this: http://web.farmmresearch.com/pavilion/
I was a member of this group and was one of the people involved in the creation of the grasshopper file (see screen shot at bottom of post - please excuse the spelling errors if you find them). There were effectively no drawings, only the grasshopper script, a bit of post processing in soildworks, cnc fabrication, and hand assembly using labels etched in at the time of cnc fabrication.
As you can see from the screen shot the GH file is a hellish nightmare, right on the edge of the memory limit of rhino 4 (which we had to use because of a minor difference in the way rhino 5-GH handled sweeping), and, towards the end, it took about 15 minutes of computer time just to get to the point were we could work on the script because of all the calculations need in the stack.
Here is a list of things that would have really helped us:
1. More programming experience. i had a bit, most others didn't. David can't help to much with this in a direct way.
2. Clusters: at the time we started clusters didn't work well, by the time they did we were almost done - oh well. I do have some ideas about how it would be nifty for clusters to have version control so that the master assembly could revert thinks that cause other things to break. - I'm sure this can be done manually right now but i have never tried it. could GH be plumbed into something like svn?
3. Concurrent editing - Like a video game. It would, i imagine, require some sort of cloudy file storage and server solution or something but there were MANY hours were 3 or more people were crowded around one computer trying to solve a problem. Alowing everyone to have there own view of the file that stayed in sync would just have been more comfortable...
4. Progress bars and the UI and Display running in a separate thread from the solver. Davids addition of esc to allow us two sometimes save ourselves if we connected a wire wrong but often not. It would be cool to be able to interact with the grasshopper file right away and sill know that the solver was working away (especially when a single run of the file took 15 minutes). Progress bars would be nice on any component taking more than a second or two to run (which was the case with many of our components - especially the ones that we wrote ourselves) but they only make sense to add after the threads for the solver and the UI have been separated.
So, anyone else done a really huge GH file? Thoughts?
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Added by Dieter Toews at 7:43pm on September 3, 2013
s and I want to use galapagos to optimize walking distance between the fixed spaces and rooms around them.
I have a few questions:
1. How can I assign a minimum distance of 35' between the fixed spaces and rooms around them?
2. How can I assign a minimum distance of 15' between rooms?
3. Now I just used one of the fixed space to optimize walking distance, how can I implement both of them in the model?
I really appreciate your help and support.
Best,
Adeleh
…
Added by adeleh nejati at 1:05pm on November 23, 2013
so the list actualy looks like this:
0 5
1 10
2 15
3 20
4 25
....
Is above possible? and insteed of doing this "a manual way" would it be possible with a function? Sometimes there might be 9 rows sometimes only 7 rows.…
rsi giornalieri (livello base) dedicati a 4 diversi topic Rhinoceros - 8 febbraio Grasshopper - 16 febbraio Rhino cam - 8 marzo Stampa 3D - 9 marzo
tutor: Amleto Picerno Ceraso, Francesca Viglione, Gianpiero Picerno Ceraso.
. Arduino for interaction (livello base-medio) 15, 16 marzo Il workshop parte dalle basi della programmazione di arduino fino ad arrivare all’interazione tra un oggetto fisico ed un imput informativo tutor: Gianpiero Picerno Ceraso
. Grasshopper advanced: “Complex surface” (livello medio) - 18, 19, 20 marzo Il workshop ha come obiettivo lo sviluppo di superfici complesse rispondenti ad informazioni provenienti dall’ambiente. Il corso parte dalle nozioni di Grasshopper fino ad arrivare alla possibile realizzazione di un oggetto tramite le tecniche di fabbrizazione digitale. tutor: Amleto Picerno Ceraso nb: è richiesta una conoscenza base di Grasshopper
. Emotional design (livello alto) 23, 24, 25 marzo Il workshop verterà sull’acquisizione, registrazione e manipolazione di tali dati/emozioni tramite Grasshopper e il loro utilizzo per controllare i parametri del design di specifici oggetti che diventeranno quindi, essendo customizzanti con le specifiche emozioni dell’utente, istanze e memoria tattile di precise esperienze. tutor: Andrea Graziano nb: è richiesta una conoscenza base di Grasshopper
. Fabricated fashion (livello alto) 26, 27, 28, 29, 30 marzo Il tema del workshop verte sulle tecniche di progettazione digitale applicate al fashion. tutor: Luis e Elizabeth Fraguada nb: è richiesta una conoscenza base di Grasshopper
. Blender (livello alto) - 16, 17, 18 maggio tutor: Andrea Graziano
. Interaction design: Arduino + Grasshopper (livello medio) - 2, 3, 4 maggio Il corso ha l’obiettivo di indagare processi di interazione tra le persone e gli ambienti in cui vivono attraverso il responsive design. nb: è richiesta una conoscenza base di Grasshopper e Arduino. tutor: Amleto Picerno Ceraso del Mediterranean FabLab e Antonio Grillo del FabLab Napoli.
info su costi: http://www.medaarch.com/2765-il-nuovo-calendario-attivita-firmato-medaarch/
…
aph relaxation in 3D and more). There is much more already in our GitHub repos and more to be added. For getting an idea of our future direction check this lecture out. For getting a better understanding of graphs and graph theory watch this lecture and this lecture on a gamified spatial configuration process. Stay tuned for more and do not hesitate to post Python questions in the meantime.
ps. If you are having installation problems, please check the remedy suggested below:
Comment by Iman Sheikhansari on August 26, 2019 at 8:33amDelete Comment
HiIf you are encountering a problem with rhino 6 versions don't worryFollow these steps.1. Download SYNTACTIC from https://sites.google.com/site/pirouznourian/syntactic-design2. Install it and go to the installation folder, Drag & drop SYNTACTIC(green one) over your grasshopper canvas.3. Close your rhino and reopen it. 4. Type GrasshopperDeveloperSettings5. Tick the Memory load *.GHA assemblies using COFF byte arrays option6. Run grasshopper and enjoy plugin
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oxes in the most efficient way within boundaries of object and follow the following constraints. The Goal: To fit 125 boxes in the most efficient way inside the total area. Starting Variables: (1) 40% of the Boxes need to be between 60 and 85MSQ. (2) 40% of the boxes need to be between 86 and 110MSQ.
(3) 20% of the boxes need to be between 111 and 125mSQ. The breakdown doesn’t have to be exact to give the script some flexibility. Meaning you can have 41% +39% +20% = 100%.
Constraints:
1. A total MAXIMUM area of approximately 1600M per layer.
2. A maximum of 8 layers for a total of 12,800M per layer. Optimization can make as little or as many as 8 layers vertical to accommodate all boxes. So if script can achieve with 3 levels great. If needed all 8 levels, that's fine too. However, pay attention to next constraint (#3).
3. Approximately 15% of that space on each layer is off limits. (internal area) (blue area in example script) and the shape of the boundary cannot be modified to accommodate box design resulting in jagged lines for the internal area.
4. All generated squares/rectangles must have at least 3m touching an outside border (The Green lines).
5. All boxes must also be touching minimum 1M of border of the blue line.
6. If the boxes generated go outside the green boundary, they must be fillet to maintain the straight lines of the green boundaries.
7. Get as many of the boxes as possible a view towards the dots.
Could any one provide me a method or a way to start, if there are any useful links, please share with me. Thank you!…
Boxes in the most efficient way within boundaries of object and follow the following constraints.
The Goal: To fit 125 boxes in the most efficient way inside the total area. Starting Variables:
(1) 40% of the Boxes need to be between 60 and 85MSQ. (2) 40% of the boxes need to be between 86 and 110MSQ.
(3) 20% of the boxes need to be between 111 and 125mSQ. The breakdown doesn’t have to be exact to give the script some flexibility. Meaning you can have 41% +39% +20% = 100%.
Constraints:
1. A total MAXIMUM area of approximately 1600M per layer.
2. A maximum of 8 layers for a total of 12,800M per layer. Optimization can make as little or as many as 8 layers vertical to accommodate all boxes. So if script can achieve with 3 levels great. If needed all 8 levels, that's fine too. However, pay attention to next constraint (#3).
3. Approximately 15% of that space on each layer is off limits. (internal area) (blue area in example script) and the shape of the boundary cannot be modified to accommodate box design resulting in jagged lines for the internal area.
4. All generated squares/rectangles must have at least 3m touching an outside border (The Green lines).
5. All boxes must also be touching minimum 1M of border of the blue line.
6. If the boxes generated go outside the green boundary, they must be fillet to maintain the straight lines of the green boundaries.
7. Get as many of the boxes as possible a view towards the dots.
Could any one provide me a method or a way to start, if there are any useful links, please share with me. Thank you!
…
re is my problem... I need to arrange Boxes in the most efficient way within boundaries of object and follow the following constraints.
The Goal: To fit 125 boxes in the most efficient way inside the total area. Starting Variables:
(1) 40% of the Boxes need to be between 60 and 85MSQ. (2) 40% of the boxes need to be between 86 and 110MSQ.
(3) 20% of the boxes need to be between 111 and 125mSQ. The breakdown doesn’t have to be exact to give the script some flexibility. Meaning you can have 41% +39% +20% = 100%.
Constraints:
1. A total MAXIMUM area of approximately 1600M per layer.
2. A maximum of 8 layers for a total of 12,800M per layer. Optimization can make as little or as many as 8 layers vertical to accommodate all boxes. So if script can achieve with 3 levels great. If needed all 8 levels, that's fine too. However, pay attention to next constraint (#3).
3. Approximately 15% of that space on each layer is off limits. (internal area) (blue area in example script) and the shape of the boundary cannot be modified to accommodate box design resulting in jagged lines for the internal area.
4. All generated squares/rectangles must have at least 3m touching an outside border (The Green lines).
5. All boxes must also be touching minimum 1M of border of the blue line.
6. If the boxes generated go outside the green boundary, they must be fillet to maintain the straight lines of the green boundaries.
7. Get as many of the boxes as possible a view towards the dots.
Could any one provide me a method or a way to start, if there are any useful links, please share with me. Thank you!
…