pper" in the command line in Rhino:
"Unable to load Grasshopper.dll plug-in: Rhino version not specified."
Details of the command line are as follows:
Command: GrasshopperRhino.NET plug-in: C:\Program Files\Rhinoceros 4.0\Plug-ins\Grasshopper\Grasshopper.dll> - referenced assembly count: 20> - mscorlib> - Microsoft.VisualBasic> - System.Windows.Forms> - GH_IO> - System.Drawing> - System> - RhinoCommon> - GH_Util> - OpenTK.GLControl> - QWhale.Editor> - QWhale.Syntax> - QWhale.Syntax.Parsers> - System.Core> - System.Design> - System.Xml> - System.Data> - OpenTK> - QWhale.Common> - System.Xml.Linq> - System.ServiceModel> Rhino.NET error: unable to locate a reference to Rhino_DotNET.DLL> Unable to load Grasshopper.dll plug-in: Rhino version not specified.
I tried creating the new user and looks like that one works too, but I do need my current "user" profile as there are a lot of things already set up well, do not want to miss those.
If someone could advise me on where to look for the problem?
Thank you,
Artem
…
surface which are fully inside it(each cell's area should be 100% inside surface).
Idea how to do this:
Use Surface|Curve to cut the grid of cells to the surface --->
---> Area to get centroids of those cells --->
---> Dispatch using as pattern distances of cells' centroids from polyline to have in one of list those that are fully within the surface --->
---> Dispatch using as pattern distances of cells' centroids from curves (that defy holes) to have in one of list those that are fully within the surface
Problem:
Cannot use Area to extract centroids. Ironically, when I click on the Area button is shows me centroids of all of cells that are fully inside surface but button is red so I cannot progress.
I tried using Split Surface too (instead of Surface|Curve) but it crashed my PC, even after flattening input data.
I'm a newbie and looked for answer but did not manage to find topic that would relate to my problem. Maybe I formulate my questions in wrong way.
…
noceros 3D, en caso de aprobar satisfactoriamente el examen, se les otorga un reconocimiento avalado por el CMJ y la Secretaría del Trabajo. Este workshop va dirigido principalmente a estudiantes de arquitectura; sin embargo, ya que la parametrización es una herramienta que abarca diferentes ámbitos del diseño, se pueden integrar estudiantes de diseño industrial, artistas o estudiantes que tengan relación con lo gráfico y lo formal. Al finalizar el curso, los asistentes serán capaces de manejar Rhinoceros y Grasshopper en un nivel medio, con el objetivo de que el alumno pueda continuar aprendiendo con alguno de nuestros workshops subsiguientes o de manera autodidacta.
Las personas inscritas deben tener conocimientos básicos de geometría y de preferencia utilizar algún programa de dibujo en 2D o modelación en 3d. Rhino.GetMe Rigid // Enfocado a construir un objeto de diseño parametrizado a cualquier escala, el workshop se divide en tres módulos: Módulo 1 // Rhinoceros 3D // Una sesión de cinco horas. Módulo 2 //Grasshopper // Una sesión de cinco horas. Módulo 3 // Ejercicios prácticos /Tres sesiones de diez horas c/u. Es necesario traer el equipo necesario para trabajar, se cuenta con equipos en caso de que algún alumno no cuente con laptop pero son limitados, por favor avísanos a la brevedad si lo requieres. Se les recomienda que traigan dispositivos de almacenamiento en caso de que necesitemos compartir información.
El costo del Workshop es de $6500.00 para profesionales y $5000 pesos para estudiantes.
Pre-venta únicamente para estudiantes, hasta el día viernes 29 de junio, con un costo de $3500.00 pesos.
El cupo del evento es limitado puedes apartar tu lugar y terminar de liquidar antes del 29 de junio en pre-venta, antes del 6 de junio en admisión general.
Para hacer tu registro al workshop por favor envía un correo a workshop@transformalab.com incluyendo:
Nombre
Universidad u oficina de procedencia
Teléfono móvil
En el caso de estudiantes por favor incluyan una copia escaneada de su Constancia de Estudios para hacer válido su descuento.
Una vez recibida su información se les enviará un correo con la información necesaria para realizar su pago mediante depósito bancario, y posteriormente un mail de confirmación de su participación en el Workshop.
www.transformalab.com…
ents (e.g. only fabric between 2 radial cable). But if I try to simulate a completely whole structure like picture below + if I trying to model a material that has more degree subdivision + adding diagonals (as resistance to shear deformation which causes the creases like Daniel Pikels example of tablecloth drop), then I have huge problem to deal with my hardware.
(I am using Intel Xeon 4 cores, 2.93GHz with 4GB RAM and running in Win7 in 64 bit but with Rhino 32 bit.)
(Roof geometry can be completely asymmetrical, so let’s assuming that we can’t array the resulting geometries!)
There are some discussions about how to increase the processing power of grasshopper:
http://www.grasshopper3d.com/forum/topics/is-there-a-plan-to-suppor...
http://www.grasshopper3d.com/forum/topics/performance-of-grasshopper?
http://www.grasshopper3d.com/forum/topics/grasshopper-cpu-optimization
As I know that the GH is single threaded, we could over clocking the CPU + give lot of RAM.
I am curious if Kangaroo and other Apps are following the same performance-rule (single thread) like Rhino/ G.H? And what would be the key-feature to increase the power of Rhino/GH/Kangaroo in order to process the case I mentioned before (completely retractable roof)?
- Which level of CPU? Or constraint of CPU over clocking when necessary and capacity of RAM)
- How fine tuning my PC for best performance? (Parallel computing, c-flex…)
- is GPU a matter? (E.g. in Animation standard: Nvidia CUDA Quadro 4000+)
Or probably just a suggestion of workstation ;-)
Sorry I am not expertise of computer technical…
Thanks!…
w elements (e.g. only fabric between 2 radial cable). But if I try to simulate a completely whole structure like picture below + if I trying to model a material that has more degree subdivision + adding diagonals (as resistance to shear deformation which causes the creases like your example of tablecloth drop), then I have huge problem to deal with my hardware.
(I am using Intel Xeon 4 cores, 2.93GHz with 4GB RAM and running in Win7 in 64 bit but with Rhino 32 bit.)
(Roof geometry can be completely asymmetrical, so let’s assuming that we can’t array the resulting geometries!)
There are some discussions about how to increase the processing power of grasshopper:
http://www.grasshopper3d.com/forum/topics/is-there-a-plan-to-support-multicore-in-the-future
http://www.grasshopper3d.com/forum/topics/performance-of-grasshopper?
http://www.grasshopper3d.com/forum/topics/grasshopper-cpu-optimization
As I read that the GH is single threaded, we could over clocking the CPU + give lot of RAM.
I am curious if Kangaroo and other Apps are following the same performance-rule (single thread) like Rhino/ G.H? And what would be the key-feature to increase the power of Rhino/GH/Kangaroo in order to process the case I mentioned before (completely retractable roof)?
- Which level of CPU? Or constraint of CPU over clocking when necessary and capacity of RAM)
- How fine tuning my PC for best performance? (Parallel computing, c-flex…)
- is GPU a matter? (E.g. in Animation standard: Nvidia CUDA Quadro 4000+)
Or probably just a suggestion of workstation ;-)
Sorry I am not expertise of computer technical…
Thanks!
…
Added by Jon to Kangaroo at 3:31am on June 27, 2014
o I can apply your color gradient code (not shown but in GH file, off screen) after the Z sort:170316_SpheresStandardizer_2017Mar16b.gh
The fact that sphere 'Volume' is required a second time, after 'Pull' to wires, reminds me of a similar issue we dealt with last week: http://www.grasshopper3d.com/forum/topics/trimming-points-pulled-fr...
Seems to me that 'Pull Point' has a serious defect that requires extraordinary effort and/or kludgy code to remedy. If you don't graft the curves, 'Pull' returns each point pulled to it's nearest curve - exactly what you want, except without knowing which curve puled it?
In this code (above), you are using 'Pull D (Distance)', 'Smaller' with an arbitrary value as 'B' and 'Cull' to associate the closest curve with each point. In the other thread, I ended up creating brep cylinders around the curves to get the correct result. Ridiculous!!
I've spent a lot of time trying and utterly failing to find a truly proper solution. Is there one? (see "AHA!!!!" below!)
Searching the forum, I quickly found a couple old posts referring to the same problem:
pull point (bug?) May 27, 2009http://www.grasshopper3d.com/forum/topics/pull-point-bug
Small request April 18, 2013http://www.grasshopper3d.com/forum/topics/small-request
=========================
AHA!!!! I had given up and was about to post the above when I finally solved it. Created a cluster called 'PullT' that does the job, sorting by 'D (Distance)'. Here's the cluster:
And here's how it's used: 170316_SpheresStandardizer_2017Mar16c.gh
Notice that 'PullT' emits a cull pattern ('Pc') that can be used on related data to structure it into the same tree pattern - 'Volume (V)' in this case, so it's only used once. Could do the same with the original mesh spheres if there was reason to do so.
I've tested it on last week's code in the other thread and it seems to work fine; will post it there shortly.…
it seems that was this. Now all is working fine !
Glad that it worked! But I am still a bit worried. Gismo components only modify the gdal-data/osmconf.ini file and no other MapWinGIS file. So your MapWinGIS installation files should not be compromised. The fact that you did not get the "COM CLSID" error message when running the "Gismo Gismo" component suggests that MapWinGIS has been properly installed. So I wonder if the cause for the permanent "invalid shapes" warning has again something with the fact that your system is again not allowing the MapWinGIS to properly edit the osmconf.ini. Maybe this problem will appear again, and again, and reinstallation of MapWinGIS every time can be somewhat bothersome.
- About the terrain generation, is it possible to have the texture from google or other provider mapped onto the terrain surface from gismo component ? (Same as using the ladybug terrain generator in fact). I try to used the image extracted by ladybug component and then applied it to the gismo terrain but the texture is rotated by 90°.
The issue with the rotation can be solved by swapping/reversing the U,V directions of the terrain surface. A slightly more important issue is that terrain surface generated with Gismo "Terrain Generator" component might have a bit smaller radius than what the radius_ input required. This stems from the fact that the terrain data first needs to be downloaded in geographic coordinate system, and then projected. Some projecting issues may occur at the very edges of the projected terrain, so I had to slightly cut out the very edges of the terrain which results in the actual terrain diameters being slightly shorted in both directions. This means that if you apply the same satellite image from Ladybug "Terrain Generator" component to Gismo "Terrain Generator" component the results may not be the same.I attached below a python component which tries to solve this issue by extending the edges of Gismo "Terrain Generator" terrain, and then cutting them with the cuboid of the exact dimensions as the radius_ input. Have in mind that this extension of the original terrain at its edges is not a correct representation of the actual terrain in that location. But rather just an extension of the isoparameteric curve of the terrain surface. So basically: some 0 to 10% (0 to 10 percent of the width and length) of the terrain around all four edges is not the actual terrain for that location, but rather just its extension.The python component is located at the very right of the definition attached below.
Also, if you would like to use the satellite images from Ladybug "Terrain Generator" component along with "OSM shapes", sometimes you may find slight differences in position of the shapes. This is due to openstreetmap data not being based on Google Maps (that's what Ladybug "Terrain Generator" component is using), but rather on Bing, MapQuest and a few others.
- About the requiredKeys_ input of OSM shapes, I understand what you mean and your advice, but in most cases I use it, the component was working fine even without input. I think it's better to extract all tags, values and keys of the selected area, instead of searching for specific ones as I try to find all data related to what I want after, isn't it ? To check what keys are present on the area also.
Ineed, you are correct.I though you were trying to only create a terrain, 3d buildings and maybe find some school or similar 3d building, for these two locations. The recommendation I mentioned previously is due to shapefiles having a limit (2044) to how many keys it can contain. This requires further testing of some big cities locations with maybe larger radii, which I haven't performed due to my poor PC configuration. But in theory, I imagine that it may happen that a downloaded .osm file may have more than 2044 keys. In that case shapefile will only record 2044 of them, and disregard the others. That was my point.But again 2044 is a lot of keys, and I haven't been checking much this in practice. For example, when I set the radius_ to 1000 meters, and use your "3 Rue de Bretonvilliers Paris" location I get around 350 something keys, which is way below the 2044.Another reason why one should use the requiredKeys_ input is to make the Gismo OSM components run quicker: for example, the upper mentioned 350 something keys will result in 350 values for each branch of the "OSM shapes" component's "values" output.Which means if you have 10 000 shapes, the "OSM shapes" component will have 10 000 branches with 350 items on each branch (values). This can make all Gismo OSM components very heavy, and significantly elongate the calculation process.With requiredKeys_ input you may end up with only a couple of tens of items per each branch.Sorry for the long reply.…
Added by djordje to Gismo at 8:57am on June 11, 2017
rent actors to work together in real time on an architectural project.
DixieVR was born from the idea that virtual reality could become a fantastic tool for architecture and architects, not only for virtual tours but for the conception at its very core. Inspired by the efficiency of sandbox games, DixieVR will allow you to build a fully parametric 3D model from scratch in a very intuitive way and to simulate various factors like natural and artificial light, gravity, and more. DixieVR is also multi-user oriented : several people, architects or not, are able to work together in real time on the same 3D model and in the same shared immersive environment !
The project started in the Digital Knowledge department of Paris-Malaquais Architecture School.
The DixieVR Softwares can be found here : dixievr.github.io
// Interoperability
DixieVR deals with .dix files. For more information about this file format, please refer to the Interoperability documentation of DixieVR.
You can use this DixieIO plugin for Grasshopper/Rhinoceros for exchanging data between DixieVR (PC) & DixieViewer (Android).
You can import or export objects at any time inside a DixieVR scene. The Software also come with a library of premade objects that you might find useful. Adding your own premade objects to this library might be a good habit.
If you are hosting a scene, you also have the choice to open a .dix file directly from the main menu, this will load the last scene in which the geometry has been saved.
// Plugin
The DixieVR Plugin can be found in the Extra tab, come with 3 components and a example definition:
Dixie2Gh : Import DixieVR geometry to Grasshopper/Rhinoceros reading a .dix file (up to 1000 beams and/or 750 faces).
G2D_Polylines : Export Grasshopper/Rhinoceros Polylines to DixieVR writing a .dix file (up to 1000 line segments).
G2D_Mesh : Export Grasshopper/Rhinoceros Mesh to DixieVR writing a .dix file (up to 750 triangulated faces).
To install:
In Grasshopper, choose File > Special Folders > Components folder. Place the DixieIO_01.gha file there.
Right-click the file > Properties > make sure there is no "blocked" text.
Restart Rhinoceros or Unload Grasshopper.
// Contact - DixieVR
vr.dixie@gmail.com dixievr.github.io
- Oswald Pfeiffer oswaldpfeiffer.com
- Mathieu Venot mathieuvenot.com…
register, please contact Miss Roula Homsi Tel: 06/218400 ext:4007email: r.homsi@bau.edu.lbTOPICS: Parametric design , Algorithms, Kinetic Architecture, responsive facades, interactive design, smart buildings, generative design, NURBS modeling, parametric modeling, architectural design algorithms, form finding algorithms , and Environmental Adaptive Dynamic ArchitectureComputational skills: Rhino3D – Grasshopper 3d – Paneling tools - Kangaroo plugin - fields grasshopper -Digital Fabrication- Arduino micro controllers - lighting and temperature sensors - Firefly plugin - gHowl – mobile controller - Wi-Fi controllersWORKSHOP PROGRAM: PHASE ONE: Day 01- opening lecture on Algorithmic Added Design - tutorials and introductions to NURBS modeling with Rhino 3d- Parametric modeling tutorials with grasshopper 3d- Grasshopper processes, algorithmic logic and data management-Essential mathematical functions and logical operations- Projects assignments, groups divisions, project phase’s scheduleDay 02 - Form finding methods and theories for architecture - Training on physical algorithms using Kangaroo plugin-Catenary systems on curves, Catenary on surfaces, and mesh relaxation- Algorithms and design inspirations- Subdivision algorithms, paneling tools- Responsive materials, structural optimizations- Project phase one submissionDay 03- Envelope pattern optimizations for natural lighting- Kinetic Architecture introduction and projects examples- Responsive material analysis and design systems- Kinetic facades and dynamic pattern - Training on Arduino & preparing digital models for kinetic simulationPHASE TWODay 04- environmental Sensors, design reaction- lighting sensors, temperature sensors-Responsive envelop responsive simulations to sensors.-Smart and embedded systems for Architecture- Architectural models movements and mechanisms Day 05- Wireless controllers for grasshopper- Mobile controllers - Projects final submissionDay 06 -Finalizing students projects,-Models fabrications and sensors installations, documenting reactions-Final project ourcomesFEES for the 2 phases __ fees is 420 $ per participants( 360 for BAU students) Fees includes all teaching materials, software kit, lectures kit, laser cutting, Arduino microcontroller boards, sensors and using equipment. Students need to bring their own laptops, digital equipment and model making tools.PREREQUESTSThis program is open to current international Engineering, architecture and design students, masters, PhD candidates and young architects and professionals. Software Requirements: basic knowledge of 2D and 3D modeling software.…