iseño de proyectos a través de algoritmos mediante programación. Se explica el entorno de Grasshopper, se desarrollan diversos ejercicios. No es necesario conocimiento previo de Rhinoceros ni de programación.Total horas: 20 hrsFechas, Horario, Sede: Revisar la página de "Próxima Formación"Otros beneficios: 1) Un CD con: libreria de definiciones de Grasshopper desde herramientas simples hasta complejas y libros, tutoriales relacionados.2) 10% de descuento en los siguientes cursos o talleres que SEED | KRFR organicen.3) Posibilidad de unirte a SEED y a KRFR para hacer prácticas o para generar proyectos en conjunto.4) Se da un 10% de descuento en el licencia original de Rhinoceros.…
Added by ESTUDIO SEED at 2:41pm on January 17, 2011
300895
FB: https://www.facebook.com/ChidoStudio
FB: https://www.facebook.com/WEDOTdesign
Detalles:
Instructores:
Arturo de La Fuente (Chido Studio Argentina)
Eliana Monaco (Chido Studio Argentina)
Luis de La Parra (Chido Studio Mexico)
WS ROSARIO
Lugar:
DOSCASAS
ROSARIO: Sarmiento 1232 Planta Alta (2000 Rosario)
Fechas:
Viernes 16 de Mayo 2014 – 11:00 – 19:00 hs
Sábado 17 de Mayo 2014 – 11:00 – 19:00 hs
Domingo 18 de Mayo 2014 – 11:00 – 19:00 hs.
WS BUENOS AIRES
Lugar:
GARAGELAB
BsAs: Roseti 1380 CABA
Fechas:
Jueves 22 de Mayo 2014 – 18:00 – 21:00 hs
Viernes 23 de Mayo 2014 – 18:00 – 21:00 hs
Sábado 24 de Mayo 2014 – 11:00 – 20:00 hs.
Domingo 25 de Mayo 2014 – 11:00 – 20:00 hs
Importante:
Todos los niveles de experiencia son bienvenidos el único requisito es tener un entendimiento básico de los programas CAD y una actitud positiva hacia el aprendizaje de dichas herramientas. Necesitas llevar una laptop, nosotros te instalamos los programas de prueba.
Si planeas venir de fuera de la ciudad avísanos y te pondremos en contacto con otras personas que también vayan a hacerlo para en caso de desearlo puedan compartir su lugar de estancia.
Al participar en el workshop obtienes el 50 % de descuento en la licencia educacional Rhinoceros por medio de Rhino Chile.
COSTOS:
Profesionales: $1600
Estudiantes: $1400
Si ya realizaste algún Workshop de Chidostudio tenes un 20% descuento en esta inscripción.
Si venis en grupo con 2 amigos más cada uno tiene un %20 de descuento.
Proceso de Inscripción:
El participante deberá un mail a bsas@chidostudio.com donde se le enviará el procedimiento y medios de pago.
El depósito mínimo para reservar la matrícula es del 50% el resto deberá ser cubierto el día del evento.
Una vez que el depósito se haya llevado a cabo el participante deberá enviar a este correobsas@chidostudio.com los siguientes datos:
Nombre completo
Email
Teléfono
Institución educativa u Oficina
Archivo adjunto del recibo del depósito bancario
En cuanto recibamos la información immediatamente nos pondremos en contacto para especificar los pasos a seguir.
Contacto:
Arturo de La Fuente
bsas@chidostudio.com
Tel: (+54) 11-57268799
…
and pioneers in the fields of architecture, design and engineering.
The event will be in two parts, a four day Workshop 15-18 April, and a public conference beginning with Talkshop 19 April, followed by a Symposium 20 April. The event follows the format of the highly successful preceding events sg2010 Barcelona, sg2011 Copenhagen, and sg2012 Troy.
The Challenge for sg2013 is entitled Constructing for Uncertainty.
more information
CONSTRUCTING FOR UNCERTAINTY
Design and construction, increasingly more information-centric, must also address issues of computational ambiguity. As users, we must drive computational systems to assume new roles and subsume more domains to meet the needs before us. We must consider issues of time and permanence within a cultural and technological landscape of constant change - our most grand gestures will define our environment physically, culturally and economically for generations.
Where historic responses to uncertainty constructed a simplistic environment with basic mechanisms for aggregation and subdivision, we augment these with smart, dynamic and interactive systems. Where modeling capacity has been limited, we now take advantage of vast amounts of data collected by sensing and scanning devices, processed by cluster or grid computing, filtered by machine learning algorithms into patterns, and communicated by ubiquitous devices. Our past data trajectories can guide us in discovering robust and tolerant design systems to meet the demands of a malleable present and uncertain future.
sg2013 Constructing for Uncertainty: transition computational design from the hard space of the ideal to the soft reality of an uncertain built environment.
more information
sg2013 WORKSHOPSThe SG Workshop is a unique creative cauldron attracting attendees from across the world of academia, professional practice as well as many of the brightest students. The Workshop is open to 100 applicants who come together for four intensive days of design and collaboration.
The annual Workshop is organised around Clusters. Clusters are hubs of expertise comprising of people, knowledge, tools, materials and machines. The Clusters provide a focus for Workshop participants working together, within a common framework.
more information
sg2013 TALKSHOPAfter four intense days of innovative work, Talkshop offers an opportunity for critical reflection on what has been accomplished in the Workshop. Talkshop will be an opportunity to open debates, pose questions, challenge orthodoxies, and propose new ideas.
Talkshop will feature informal and open discussions between Cluster participants, leading practitioners and emerging talents in digital design, offering inside perspectives on how the landscape of computational design is reshaping built form.
sg2013 SYMPOSIUMThe Symposium will examine the year's Challenge. Invited keynote speakers will showcase major projects and research from around the globe that mark out the territory of the year's Challenge. The Symposium is a unique opportunity to hear insights into the challenges ahead for the discipline.
Interwoven throughout the day will be reports and highlights from each Workshop Cluster, giving an opportunity to view work created during the previous four days of intensive collaboration, design and development.
sg2013 SCHEDULECall for Clusters 26 September 2012Cluster Proposals Due 4 November 2012Workshop Applications Open November 2012
Workshop 15 - 18 April 2013Conference 19 - 20 April 2013
More information about the event can be found at smartgeometry.org…
Added by Shane Burger at 10:35am on October 25, 2012
2015. You will have the opportunity to play with an experimental large scale distributed framework we have been busy with over the last few months called 'Stampede'. You will get knowledge on MDO and parametric design, meet some of the developers of the framework, hands-on experience and investigate the gained results in an experimental atmosphere. You will be working with Rhino and Grasshopper during the workshop.
PROGRAMME
The workshop will start with an introduction on Stampede and the different technologies involved, such as cloud computing, parametric modelling and multi-disciplinary design optimisation. After the presentations, we will discuss an example use case, get to work with and gain some hands-on experience by applying your newly gained knowledge to design your own multi-disciplinary design optimisation model and investigate its behaviour.
REGISTRATION
Excited? The IASS conference organisation lowered the price of the two-day workshop from € 250,- to € 150,-. You can register here via the IASS2015 website. The workshop is also available for people who did not register for the IASS2015 Symposium. There is also a rumour around that if you e-mail White Lioness that you can get a code for a even bigger discount.
MORE INFORMATION
Keep an eye on the Stampede website if you want to keep up to date with the latest developments about the workshop. Updated information about Stampede and the workshop will be regularly posted.
CONTACT
Please contact Dion Jansen for more information +31 (0) 20 737 1997 or send an email to dionjansen@wlnss.com.…
mple problem.
Imagine you're dividing a space (100m²) into two rooms, one of which (room A) should be 60m², the other (room B) 40m². Now it follows that the sum of both rooms must always add up to 100m². And if you make one room smaller by 5m², the other one gets bigger by 5m².
The simplest expression that would convert room areas into a fitness value is, I think:
Abs(A - 40) + Abs(B - 60)
or, in English, the sum total of the discrepancies between the actual areas and the desired areas.
If the rooms are both 50m² we get a fitness of:
Abs(50-40) + Abs(50-60) = 20
If room A equals 10m² and room B equals 90m², we get:
Abs(10-40) + Abs(90-60) = 60
If both rooms are exactly right, we get:
Abs(40-40) + Abs(60-60) = 0
So the point here is to minimize fitness, and once the fitness has reached zero we know we're home free.
But this is a very straightforward case. What if we're trying to optimize a problem, while knowing there's no way on Earth we'll be able to solve all constraints? This is after all what Evolutionary solvers are good at. So what if the problem is not as clear cut?
This time try to imagine we want every room to be 50m², but all the rooms are too small. Let's write down three cases like before:
(Room A = 30m², Room B = 40m²)
Abs(30 - 50) + Abs(40 - 50) = 30
(Room A = 35m², Room B = 35m²)
Abs(35 - 50) + Abs(35 - 50) = 30
(Room A = 25m², Room B = 45m²)
Abs(25 - 50) + Abs(45 - 50) = 30
Holy Crap! They're all the same! Well this is no good, it's like three bald men fighting over a comb. Even though all solutions fail to meet constraints, they certainly shouldn't all be equally fit. Let's assume for the time being we'd rather have both rooms fail to meet demands in equal amounts instead of one room being ok-ish and the other being way off. How can we add this assumption to the fitness function?
Basically we need to exaggerate large departures from the ideal and trivialize small departures. Our naive fitness function was linear, our new and improved fitness function must be non-linear. The simplest non-linear function is the parabola (x²). So let's see where that gets us.
Abs(30 - 50)² + Abs(40 - 50)² = 500
Abs(35 - 50)² + Abs(35 - 50)² = 450
Abs(25 - 50)² + Abs(45 - 50)² = 650
Phew... The case where both room fail to meet demands equally has the lowest value (and thus the highest fitness) whereas the most extreme discrepancy has the highest value (and thus the lowest fitness).
This approach is called Least Squares fitting and it's one of the most common fitting algorithms in statistics.
Whether you decide to weigh your competing factors equally or differently, and whether you decide to treat deviations linearly or non-linearly is entirely up to you. It requires you have a decent understanding of the problem at hand and also a decent understanding of the mathematical behaviour of the fitness function.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 6:16am on February 25, 2011
this common installation problem please find a tested remedy shared by one of the group members:
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
I hope this helps,
Best regards,
Pirouz
…
an introduction of the new robotic facilities at the Digital Architecture and Robotics Laboratory, while Lorenzo Vianello will give an introduction on researches and parametric tools that will enable the shift.
—-DARLab (Digital Architectural Robotics lab) is a research platform in architecture education that advances experimentation and cross-discipline collaboration among professors, students and industry partners to expand the boundaries of architectural practice. We are a mixed team of qualified experts from all over the world who work together to obtain the best results out of avant-garde technologies applied to architecture and design. Further information on http://www.dar-lab.net/South London Society of Architects (SLSA) is is the South London regional branch of the Royal Institute of British Architects (RIBA). It is a non-for-profit organisation, dedicated to promoting architecture and inspiring all involved in shaping of our environments. SLSA members include over 1,500 professionals and 220 architectural practices. Further information visit: http://slsanet.ning.com
…
re not clearing at each rebuild.
I was finding that if I send in 10 lines to "Riblist", on the first instance it reports holding 10 items. Upon the rebuild, without the explicit Riblist.Clear(), it reported holding 20 items.
I included an explicit xxx.clear() before I call DA.GetDataList and that fixed it (for now at least). For example:
RibList.Clear()
SubDivision = 1If Not (DA.GetDataList(0, RibList)) Then Return
If Not (DA.GetData(1, SubDivision)) Then Return
DA.GetData(2, ClosedDiagrid_bool)
In this component, I had declared the variables after the "Inherits GH_Component" as private. Example:
Inherits GH_ComponentPrivate RibList As New List(Of Curve)
Private SubDivision As Integer = 1
Private ClosedDiagrid_bool As Boolean = False
Might this be messing things up since upon a rebuild of the solution, the class is not getting reinstantiated but just the "solve instance" sub routine is run?
Oddly, this was messing up any other custom component without the grasshopper file.
Hope this make some sort of sense.
Thanks.
Kermin
…
1':
And changed the 'v_dis' slider (the 'du/dv' inputs to 'ptSrfDis') 'Real' with a lower maximum of 20 instead of 100.
Then slowly increase the resolution by reducing the value of the 'v_dis' slider (needs a better name).
After all that, you can 'Pull' circles to surface and 'SrfSplit' to create holes, or whatever.
NOTE: As before, GH will lose the 'Image Sampler' when I save my copy so you'll have to copy/paste from yours, connect and edit that domain.
…
Added by Joseph Oster at 3:58pm on October 28, 2017
finalizzato a fornire i fondamenti della modellazione parametrica e generativa attraverso Grasshopper, plug-in di programmazione visuale per Rhinoceros.
“Tools are extension of our minds and our nervous systems. Through devices we are able to capture more invisible data to make it visible and readable. Self monitoring triggers selfknowledge and self awareness. This new and enormous potential about aquiring data can drive better our design explorations and customized solutions.”Lo spazio in cui viviamo è in ogni suo aspetto monitorabile e risulta essere un gradiente di dati in continua evoluzione e cambiamento. Uno dei maggiori vantaggi degli strumenti parametrici è quello di poter informare i processi progettuali con flussi di dati accurati, specifici e variabili nel tempo e nello spazio. “Data Fields” è un workshop dedicato al plug-in Grasshopper di Rhino3D che si focalizzerà sulla sua principale natura di processore di informazioni. Il workshop delineerà anche in che modo Grasshopper può essere usato per acquisire e manipolare flussi di dati provenienti da varie fonti, e come tali dati, a loro volta, possono essere utilizzati per informare sia i processi logici che le geometrie, dalle più semplici fino a quelle più complesse.L’obiettivo è quello di fornire una comprensione del valore delle informazioni e dell’articolazione dei dati, e di come siano già di per sè un’operazione progettuale, spaziale e architettonica. I risultati potranno quindi variare da puri protocolli di comunicazione dati, dataViz o geometrie “data-driven”.…