掌握编程过程中遇到的思路方面和技术方面的问题. 内容包括以下几个方面:
反向逻辑思维能力的培养;
建立清晰的编程逻辑思维能力;
GH 的程序设计理念;
并行数据结构深入理解和控制.
Grasshopper course of McNeel Asia focus on the cultivation of students flexible use of programming techniques, the ability to solve practical problems. Our course deep into the whole process of programming, from programming thinking model, the components principle to usage details do detailed explanation, help students complete mastery programming encountered in the process of thinking and technical aspects, include the following content:
Ability of reverse logical thinking;
Establishment of clear programming logical thinking ability;
The program design concept of Grasshopper;
Understanding parallel data tree structure and how to control it.
更多详细内容... More details…
授课讲师 Instructor 课程由Grasshopper原厂McNeel公司在中国地区的两位 Rhino 原厂技术推广工程师 – Dixon、Jessesn联合授课。课程结束后对达到授课预定目标的学员颁发唯一由Grasshopper原厂认证的结业证书.
Dixon & Jessesn, McNeel Asia Support engineer, by the end of course student who achieve the intended target will get the authentication certificate from McNeel Asia.
课程报名 Register this course 课程即日开始报名, 开课一周前停止报名, 名额满提前报名结束. This course begin to sign up, stop sign up a week ago, with the quota ahead over.
在线报名参加课程...
Sign up to this course…
课程日期 Schedule 7/15-7/20 Beijing 北京 7/26-7/31 Shanghai 上海 7/07-7/12 Shenzhen 深圳
课程范例演示 Samples of Grasshopper course demo
Note: pls follow below comments by Jessesn to see the samples…
minativo (15, 16 y 17 de julio)
- MÓDULO 3. Curso de scripting con Grasshopper, Processing y Arduino: modelado iterativo, interacción y sensorización (22, 23 y 24 de julio)
Más información y reserva de plazas.
¡Consulta los descuentos para estudiantes de grado y posgrado y para más de un miembro del mismo estudio!
Los cursos serán impartidos en Madrid por dos Authorized Rhino Trainers.…
r-workshop programme will focus on the design and 1:1 fabrication of an interactive pavilion for the 2012 International Festival of Electronic Language (FILE). Located on Avenida Paulista, the pavilion will react to light sensors and human activity, so as to transform and create a range of different lighting and spatial effects, triggering further movement and producing an interactive feedback loop of behaviour and response. To accommodate this responsiveness, the design should be developed using recursive scripting, associative modelling and digital fabrication.
Each workshop will focus on a different phase of the pavilion’s design and construction. Instruction will be led by Rob Stuart-Smith of Kokuggia and Tristan Simmonds of Simmonds Studio, with Lawrence Friesen of Generative Geometry, Anne Save de Beaurecueil and Franklin Lee of SUBdV, together withand other AA tutors, as well as local structural engineers and set-designers. Each workshop will offer introductory instruction in computational design - Grasshopper, (GECO, Firefly) and Arduino, and digital fabrication, while advanced instruction will be offered to participants undertaking multiple workshops.
Workshop 1 will develop design variations in small models, as well as material and structural scale modeling, testing and initial 1:1 prototyping, following computational and digital fabrication instruction. Workshop 2 will produce 1:1 prototyping. Following computational and digital fabrication instruction, it will explore the mechanics and electronics of the light-sensors and motors that generate the transformations of the pavilion. Workshop 3 will fabricate the final elements, working directly with manufacturers, testing partial assemblies. Advanced development of all circuits and Arduino scripts will take place following computational and digital fabrication instruction. Workshop 4 will focus on the final assemblage of the pavilion on site.
www.aaschool.ac.uk/saopaulo.
OTHER WORKSHOPS
Workshop 2: 4–13 January 2012
Workshop 3: 3–12 April 2012
Workshop 4: 3–12 July 2012
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oft stopped developing or supporting IronPython some years ago, and instead supports standard CPython (such as Canopy or Anaconda) in Visual Studio. Development of the numpy and scipy libraries for IronPython stopped in early 2011. Enthought makes these builds of numpy and scipy for IronPython available for download as a public service, but can provide no support for them. Any support that exists is from the legacy IronPython user community.
Regarding the size difference: the numpy and scipy eggs in Canopy's current distribution are respectively 3.2MB and 11.6 MB, vs 2.3 and 8.8 MB respectively in the IronPython download.
AFAIK, this relatively small difference in size is due to (in no particular order):
1) The packages have grown since 2011.2) The IronPython versions can rely on some .NET runtime functionality which is not available to the CPython versions, so requires more code in CPython.3) Equivalent code often compiles more compactly in .NET than in CPython.4) Not all of scipy was implemented for IronPython.
Hope this helps. Good luck with your project.
Best,
So to sum it all up, trying to use Numpy, and to a much larger extent Scipy, is a dead-end since you are not going to get all the goodies like linear algebra solvers and such. Giulio's post might be a better path to follow. …
Added by Jesus Galvez at 10:27am on October 24, 2015
s para acercarse al diseño paramétrico.
El curso esta dirigido a arquitectos diseñadores e ingenieros de diseño que pretendan implementar las técnicas del modelado por parámetros dentro de sus herramientas de proyectación.
La duración de dicho curso es de 20 horas, repartidas en 6 sesiones los días lunes y miércoles de 5pm a 8:20pm, en el espacio cultural calle nueve (calle 9 # 43b-75 abajo del parque del Poblado. https://www.facebook.com/calle.nueve). El curso dará inicio el día lunes 22 de Agosto de 2011. El máximo de inscritos por curso es de 15 personas para garantizar la calidad de la enseñanza.
Este curso estará dictado por los arquitectos Ana Maria Bustamante Y David Vanegas arquitectos de la oficina de arquitectura interior137 (www.interior137.blogspot.com) que cuentan con más de dos años de experiencia en el manejo de GRASSHOPPER, y tienen una trayectoria reconocida como docentes en la Facultad de Arquitectura de la U.P.B.
Para participar en el taller los estudiantes deberán tener un computador portátil para su uso personal, durante todo el curso, además deben tener instalado el software Rhino versión 4.0 con la actualización SR9, y un conocimiento mínimo del modelado y la interfaz de este software.
Contenidos:
Sesión 1: * Introducción al modelado por parámetros y al diseño mediante algoritmos.
* Grasshopper: datos + acciones. Interface.
Sesión 2: * Datos fijos, datos variables: Parámetros.
* Puntos, Curvas parametrizables.
* Transformaciones: Mover, Rotar.
Sesión 3: * Datos múltiples (listas): Series. Rangos.
* Funciones de 1 y 2 variables.
Sesión 4: * Gestiones de datos en listas: seleccionar items, ordenarlos, desordenarlos, eliminarlos.
Sesión 5: * Atractores.
Sesión 6: * Superficies: creación de superficies, panelizaciones.
Informes e inscripciones:
Para inscribirse en el curso deberá reservar su cupo abonando el costo total del curso al menos hasta el miércoles 17 de Agosto. Este valor se devolverá totalmente únicamente en caso de cancelación del curso.
Para mayor información, póngase en contacto a través del correo electrónico interior137@gmail.com asunto: CURSO GH…
and networking about the emerging practice of digital parametrics within the AEC community.The event will come in three parts, a Workshop (28th-31st March), a public Shop Talk (1 April), and a public Symposium andReception (2 April). These events follow the highly successful previous SG events in Barcelona 2010, San Francisco 2009, Munich 2008, New York 2007, Cambridge/London, UK 2006 and multiple preceding events.
Click here for more info...
The SmartGeometry 2011 Workshop will take place at CITA http://cita.karch.dk/This year's Challenge is entitled:BUILDING THE INVISIBLEInforming Digital Design with Real World Data
THE PREMISEVast streams of data offer a rich resource for designers. By incorporating external information into our design processes the autonomy of the design is challenged. User data, energy calculations, embedded sensing, material and structural simulation, human behaviour and perception, particle flows and force fields allows design to be situated and responsive. From the simulation of megacities to the solid modelling of material systems, design has the potential to be informed by the real. Design sits not separate from is environment but inhabits an ecological system, open, dynamic and interdependent, diverse, partially self-organising, adaptive, and fragile. Across scale and within time we now have the chance to instil architecture with an immanent intelligence creating new relationships between the user, the built and its ecosphere.THE OPPORTUNITYSystems theorists suggest that data is only a raw material. It can be differentiated from information, knowledge and wisdom. Understanding is multi-levelled: understanding of relations, understanding of patterns, understanding of principles. As digital designers our challenge is in harnessing the power of computation to assist us in informing our design process. Computers help us collect, manage and analyse the environment and inform us about an abundance of data. Our challenge is to use these inputs in a meaningful way to help us make better informed design decisions.THE AIMSG 2011 explores how the incorporation of real world data challenges existing design thinking. The SG 2011 workshop aim is to create physical prototypes of design systems to be exhibited in the SG2011 exhibition.
...more info to follow...
The SmartGeometry Group is a not-for-profit educational organization dedicated to the use of computational tools in architecture and engineering. SG brings professionals, academics, and industry together to explore the next generation of digital design. SG Workshops are non-platform specific, believing it is the methodology, not the tool, that matters.
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Added by Shane Burger at 3:02pm on November 29, 2010
lla progettazione parametrica e le tecniche di modellazione algoritmica per la generazione di forme complesse
___________________________________________________________________________________
luogo:
Sala meeting Hotel Mercure Milano Centro Piazza Oberdan 12 – 20129 MILANO
Scadenza iscrizioni: 12 Novembre 2011 – ore 15.00
___________________________________________________________________________________
info e prenotazioni:
Le Penseur (coordinamento formazione)
info@lepenseur.it
081 564 21 84
347 548 71 78
quote di partecipazione e programma (formato PDF)
ulteriori informazioni sui corsi PLUG > IT
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PROGRAMMA DEL CORSO
GIORNO_01
10.00 – 10.30: presentazione workshop
10.30 – 11.30: introduzione alla progettazione parametrica: teoria, esempi, casi studio
11.30 – 13.00: Grasshopper: concetti base, logica algoritmica, interfaccia grafica
13.00 – 14.00: break | lunch
14.00 – 16.00: nozioni fondamentali: componenti, connessioni, data flow
16.00 – 18.00: esercitazione
GIORNO_02
10.00 – 12.00: funzioni matematiche e logiche, serie, gestione dei dati
12.00 – 15.00: analisi e definizione di curve e superfici
GIORNO_03
10.00 – 12.00: definizione di griglie e pattern complessi
12.00 – 13.00: trasformazioni geometriche, paneling
13.00 – 14.00: break | lunch
14.00 – 16.00: esercitazione
16.00 – 18.00: attrattori, image sampler
GIORNO_04
10.00 – 13.00: data tree: gestione di dati complessi
13.00 – 14.00: break | lunch
14.00 – 15.00: digital fabrication: teoria ed esempi
15.00 – 18.00: nesting: scomposizione di oggetti tridimensionali in sezioni e posizionamento su piani di taglio per macchine a controllo numerico CNC…
comerciales. Rhino permite comunicar ideas en el desarrollo, investigación, manufactura, marketing y proceso de construcción de un producto o espacio, antes de ser construido y genera documentos constructivos para la elaboración de los mismos. Permite exportar los archivos a las extensiones comerciales más utilizadas en la industria como DXF, DWG, Illustrator y 3ds entre muchos otros. La gran cantidad de extensiones suplen las necesidades especificas para arquitectura, diseño de producto, calzado, joyería, ingeniería, manufactura y visualización fotorealista.
Grasshopper es una extensión de Rhino que permite el modelado paramétrico sin tener conocimientos de programación o matemáticas avanzadas, facilitando el desarrollo de modelos de alta complejidad a partir de formas simples o complejas.
Dimension
Del 12 Septiembre al 14 de Octubre de 2011
Sesiones: 15 de 3 hrs
Duración: 45 horas
Días: lunes, miércoles y viernes
Horario: de 19:00 hrs a 22:00 hrs
Costo:
Pago único: $4,000 (antes del inicio del taller)
Pago fraccionado: $4,500
Primer pago: $2,000 para reservar tu lugar.
Segundo pago: $1,250 - 26 de septiembre
Tercer pago: $1,250 - 3 de octubre
Es necesario traer Laptop Propia
En caso de requerir factura se cobrará el i.v.a.
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