try now to integrate Geco in an interdisciplinary architectural engineering studio: hoping we can show you some nice applications of your tool, I'll keep you update and sending now details by e-mail. Here the file (very welcome to be shared). It most probably contais trivial errors by me, thanks for helping and giving some tip! Gr. Michela
FILE:
Ok, right, I see the outputs update correctly. Origin of problems must be in some different mistake I do:
- Incident radiation: I am not sure I understand what is going on: why I get so many 'not a number' ? (The Galapagos report is full of NaNs).
Bio-Diversity: 0.887 Genome[0], Fitness=NaN, Genes [89% · 44%] { Record: Too many fitness values supplied } ...
Genome[7], Fitness=NaN, Genes [74%] { Record: No fitness value was supplied } ....
Genome[9], Fitness=NaN, Genes [37% · 11%] { Record: Genome was mutated to avoid collision Record: Too many fitness values supplied }
- Daylight calculations: the geometry accumulates withouth deleting the previous models. As a consequance, results almost do not change after few varations (so, outputs get updated but do not vary). In current daylight definition: the first object being imported is the one where the grid has to fit; its setting makes it cancelling all the other objects during import. All the others, do not delete anything when imported. When running loops (manual or GA) that vary parameters, the entire geometry do not get cancelled - so I guess the loop does not pass back by the cancelling step, but imports only the geometry which has been varied by the parameters using the setting of that import component only? I will then try again by changing the order of the operations, but if you have specfic tips, let me know.
THANKS!
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ceros.
Public concerné /
Architectes et designers, utilisateurs de Rhino souhaitant paramétrer Rhinocéros à l’aide de Grasshopper, programme
associant des composants et une structure de graphe interagissants avec le modèle Rhino.
Une bonne connaissance de Rhinocéros est nécessaire. La langue de la formation est le français.
Structure et Objectif de la formation /
La formation se déroule sur 3 jours : les 2 premières journées sont consacrées aux « fondamentaux » de Grasshopper
avec en préambule une introduction au design et à l’architecture paramétrique et leurs impacts dans la conception, la
création et la construction.
La troisième journée sous forme d’atelier est dédiée à l’étude de cas concrets proposés par les stagiaires, qui, quelques
jours avant la formation, pourront envoyer leurs projets par mail à info AT rhinoforyou DOT com
Les stagiaires, après la formation, pourront rester en contact avec les formateurs de HDA par le biais du blog
complexitys.com et le twitter @HDA_Paris. La durée de cette formation permettra d’atteindre une autonomie et une
bonne compréhension basée sur des exemples concrets.
3 Formules possibles /
3 jours ( Initiation+Atelier ) : du lundi 20 septembre au mercredi 22 septembre
2 jours ( Initiation ) : lundi 20 et mardi 21 septembre
1 jour ( Atelier ) : mercredi 22 septembre
Programme ind icatif des notions traitéES pendan t la formation /
Introduction à la conception Paramétrique . Rhinoscript, Grasshopper: différences et similarités . Interface
graphique de Grasshopper . Objets, Données, Listes . Opérateurs scalaires : La mathématique de
Grasshopper . Gestions des données : la logique de Grasshopper . Vecteurs, Points, Lignes, Surfaces : La
géométrie de Grasshopper . Listes, Arbres, Branches . Le dessin paramétrique: exercices divers et exemples
. Références, Bibliographie, Support de cours . Ateliers d’architecture et design paramétrique (3ème jour) .
Moda lité de la formation /
Venir avec un PC portable équipé de Rhinocéros version 4.0 SR 7 et de la dernière version du plug-in
Grasshopper (téléchargeable sur www.grasshopper3d.com).
Le coût du stage est de 350 € HT/jour par personne.
Réserver votre place dès que possible car les places sont limitées à 10 participants maximum.
Inscriptions et renseignements: Jacques Hababou, info AT rhinoforyou DOT com
Pour en savoir plus sur l’architecture paramétrique: www.complexitys.com…
horas.
Los datos al contextualizar la fachada serán:
Vehículos (ISD: input social data)
Personas (ISD: input social data)
Edificaciones contiguas: (UI: urban input)
Sol (Radiación e iluminación): (EFI: energetic flow input)
Creación de energía solar y térmica: (ECI: energetic contribution input)
Objetivos específicos:
Cada asistente generará una fachada contextual a esos 5 inputs.
Entenderá la plataforma de Grasshopper
Comprenderá los conceptos de diseño generativo
Usará los conceptos de programación orientada a objetos (POO)
Generará renders y modelos físicos de la fachada (Fabricación digital)
Costos: $3,250 alumnos $4,180 alumnos de posgrado y profesores $4,830 profesionales
Aulas VI salón 6205, ITESM CEM
Informes: (55)-34449396 mexdf@krfr.org bioarchitecturestudio@gmail.com
Para más información visitanos en:
Fachadas ContextualesWorkshop >Fachadas Contextuales< KRFR|SEEDKRFR|SEED Red Internacional de Investigación OR/gan
http://www.bioarchitecturestudio.wordpress.com
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igitais de forma criativa e rigorosa, para a concepção de modelos 3D– Familiarizar-se com as lógicas de criação de geometrias tridimensionais NURBS.- Desenvolver técnicas de criação de imagens fotorealistas com o motor de render V-Ray- Introduzir as lógicas paramétricas e associativas processo criativo.- Introduzir novas lógicas de BIM no processo estrutural (Building Information Modeling).# INFORMAÇÕES E INSCRIÇÕESinfo@rhino3dportugal.comAna Fonseca: 917140716 Mais informações disponíveis no site: www.rhino3dportugal.com# FORMADORES Brimet Silva ( Authorized Rhino Trainer )
...................................................
Curso de Rhino3D Nível I
6, 7 e 9 de Julho9h-13h e 14h-18h (sessões diárias de 8h).....................................................Curso de Vray-Nível I
12 e 14 de Julho9h-13h e 14h-18h (sessões diárias de 8h).................................................Curso de Grasshopper Nível I
16 e 18 de Julho9h-13h e 14h-18h (sessões diárias de 8h).................................................
VisualARQ e Rhino BIM- Nível I
21 e 23 de Julho9h-13h e 14h-18h (sessões diárias de 8h)
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he last nights, let me try to describe it:-disclaimer: I'm an industrial designer, my coding experience can be compared to your, when you were 4 year old :)-disclaimer 2: I did a picture at the end of the post that maybe explains more than my words
the component has 2 inputs (Start Value, End Value) and one output (Picked Value)
this phantomatic component (which I would refere to as "dynamic value picker") supports any amount of domains on every input -> it works as if they come grafted, from a "longest list" component
The component "at rest" shows only one slider -with question marks on both edges-
For every couple on inputs you connect (1 Start Value connection + 1 End Value connection) it would visually generate a new slider (exactly like a "number slider" component)main difference from the "number slider" component, this one would show the Start Value and End Value numbers at the edges of each thus generated slider
Right click -> edit on it would recall a window similar to the "number slider", with the main difference that only the first part of those options would be present (see attached image for clarity)Whatever slide accuracy you set, it will affect the whole "dinamic value picker" phantom component (if you set "integer numbers" and for any reason one or more inputs are "floating points numbers", the component automatically rounds the inputs to the best "Integer", and allows you only to pick integer numbers in-between)
If you suddenly change a "Start Value" or an "End Value" input, the affected slider/sliders in the component will try to stay as close as possible to the same % value they were before (example if the domain was from 5 to 11, integers only, and you first picked the value 8, the slider was exactly in position 50%: when you change the End Value domain to 21 the slider will set itself to 13 - yes, I picked an easy one lol )
When you first plug a couple of Start Value + End Value, the slider sets itself to Picked Value = Start Value
It could also be possible to supply negative values as Value End and positive values as Value Start: the slider let you pick a number on that domain regardless of the numerical order you use
Last thing, but it's just fancy imagination, if you zoom-in the output (Picked Value) connection dot, a little - and + appears (like in other common components), letting you add a new cursor to every existing slider (it could be possible to customize the color of the new cursor to avoid confusion)
This is the exact description of what I would ask to the lamp genie :)
I attach a pic I just did, in the hope to better explain myself: picture link
and of course thank you again for reading this long poem!
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1 of 8] Writing simulation parameters...[2 of 8] No context surfaces...[3 of 8] Writing geometry...[4 of 8] Writing Electric Load Center - Generator specifications ...[5 of 8] Writing materials and constructions...[6 of 8] Writing schedules...[7 of 8] Writing loads and ideal air system...[8 of 8] Writing outputs......... idf file is successfully written to : c:\ladybug\unnamed\EnergyPlus\unnamed.idfAnalysis is running!...c:\ladybug\unnamed\EnergyPlus\eplusout.csv......Done! Read below for errors and warnings:Program Version,EnergyPlus, Version 8.4.0-09f5359d8a, YMD=2016.05.27 21:14,IDD_Version 8.4.0 ** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details. ************* Beginning Zone Sizing Calculations ** Warning ** ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored. ************* Testing Individual Branch Integrity ************* All Branches passed integrity testing ************* Testing Individual Supply Air Path Integrity ************* All Supply Air Paths passed integrity testing ************* Testing Individual Return Air Path Integrity ************* All Return Air Paths passed integrity testing ************* No node connection errors were found. ************* Beginning Simulation ************* Simulation Error Summary ************* ** Warning ** The following Report Variables were requested but not generated ** ~~~ ** because IDF did not contain these elements or misspelled variable name -- check .rdd file ************* Key=*, VarName=ZONE PACKAGED TERMINAL HEAT PUMP TOTAL COOLING ENERGY, Frequency=Hourly ************* Key=*, VarName=ZONE PACKAGED TERMINAL HEAT PUMP TOTAL HEATING ENERGY, Frequency=Hourly ************* Key=*, VarName=CHILLER ELECTRIC ENERGY, Frequency=Hourly ************* Key=*, VarName=BOILER HEATING ENERGY, Frequency=Hourly ************* Key=*, VarName=FAN ELECTRIC ENERGY, Frequency=Hourly ************* Key=*, VarName=ZONE VENTILATION FAN ELECTRIC ENERGY, Frequency=Hourly ************* Key=*, VarName=EARTH TUBE FAN ELECTRIC ENERGY, Frequency=Hourly ************* Key=*, VarName=PUMP ELECTRIC ENERGY, Frequency=Hourly ************* Key=*, VarName=ZONE VENTILATION TOTAL HEAT LOSS ENERGY, Frequency=Hourly ************* Key=*, VarName=ZONE VENTILATION TOTAL HEAT GAIN ENERGY, Frequency=Hourly ************* There are 1 unused schedules in input. ************* There are 1 unused week schedules in input. ************* There are 3 unused day schedules in input. ************* Use Output:Diagnostics,DisplayUnusedSchedules; to see them. ************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors. ************* EnergyPlus Sizing Error Summary. During Sizing: 1 Warning; 0 Severe Errors. ************* EnergyPlus Completed Successfully-- 3 Warning; 0 Severe Errors; Elapsed Time=00hr 00min 1.19sec
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edit 29/04/14 - Here is a new collection of more than 80 example files, organized by category:
KangarooExamples.zip
This zip is the most up to date collection of examples at the moment, and collects t
ers and researchers, programmers and artists, professionals and academics who come together for 4 days of intense collaboration, development, and design.
The sg2012 Workshop will be organised around Clusters. Clusters are hubs of expertise. They comprise of people, knowledge, tools, materials and machines. The Clusters provide a focus for workshop participants working together within a common framework.
Clusters provide a forum for the exchange of ideas, processes and techniques and act as a catalyst for design resolution. The Workshop is made up of ten Clusters that respond in diverse ways to the sg2012 Challenge Material Intensities.
Applicants to the sg2012 Workshop will select their preferred cluster from the following:
Beyond Mechanics
Micro Synergetics
Composite Territories
Ceramics 2.0
Material Conflicts
Transgranular Perspiration
Reactive Acoustic Environments
Form Follows Flow
Bioresponsive Building Envelopes
Gridshell Digital Tectonics
More information about the Workshop and Clusters can be found here:
http://smartgeometry.org/index.php?option=com_content&view=article&id=116&Itemid=131
The application process will close on January 15th, 2012.
Full Fee $1500
Reduced Fee $750
Scholarship Fee $350
Fees include attendance to both the workshop and conference from March 19th-24th.
Reduced Fee and Scholarships are available only for Academics, Students and Young Practitioners, and are awarded during a competitive peer review process.
sg2012 takes place from 19-24 March 2012 at EMPAC (http://empac.rpi.edu/) and is hosted by Rensselaer Polytechnic Institute in Troy, upstate New York USA. The Workshop and Conference will be a gathering of the global community of innovators and pioneers in the fields of architecture, design and engineering.
The event will be in two parts: a four day Workshop 19-22 March, and a public conference beginning with Talkshop 23 March, followed by a Symposium 24 March. The event follows the format of the highly successful preceding events sg2010 Barcelona and sg2011 Copenhagen.
sg2012 Challenge Material Intensities
Simulation, Energy, Environment
Imagine the design space of architecture was no longer at the scale of rooms, walls and atria, but that of cells, grains and vapour droplets. Rather than the flow of people, services, or construction schedules, the focus becomes the flow of light, vapour, molecular vibrations and growth schedules: design from the inside out.
The sg2012 challenge, Material Intensities, is intended to dissolve our notion of the built environment as inert constructions enclosing physically sealed spaces. Spaces and boundaries are abundant with vibration, fluctuating intensities, shifting gradients and flows. The materials that define them are in a continual state of becoming: a dance of energy and information. Material potential is defined by multiple properties: acoustical, chemical, electrical, environmental, magnetic, manufacturing, mechanical, optical, radiological, sensorial, and thermal. The challenge for sg2012 Material Intensities is to consider material economy when creating environments, micro-climates and contexts congenial for social interaction, activities and organisation. This challenge calls for design innovation and dialogue between disciplines and responsibilities. sg2010 Working Prototypes strove to emancipate digital design from the hard drive by moving from the virtual to the actual in wrestling with the tangible world of physical fabrication. sg2011 Building the Invisible focused on informing digital design with real world data. sg2012 Material Intensities strives to energise our digital prototypes and infuse them with material behaviour. They have the potential to become rich simulations informed by the material dynamics, chemical composition, energy flows, force fields and environmental conditions that feed back into the design process.
More information can be found at http://www.smartgeometry.org
Follow us on Twitter at http://twitter.com/smartgeometry…
Added by Shane Burger at 12:29pm on December 13, 2011
rera de Arquitectura CEM | presenta la cordial invitación al Curso de Diseño Computacional a realizarse en nuestros laboratorios de Arquitectura y Diseño Industrial del Campus Estado de México.
Fecha: jueves 21, viernes 22 de 18: a 22:00 Hrs y sábado 23 de 8:00 a 15:00 Hrs febrero 2013. 15 Horas.
El taller está orientado a estudiantes y profesionales de la Arquitectura, Arte, el Diseño e Ingeniería.
COSTO:
Alumnos Tec o EXATEC con una cuota de $2000.00 pesos.* Estudiantes EXTERNOS y profesores TEC $3000.00*, Estudiantes de posgrado externos $3800.00* y Profesionales externos $4250.00 pesos.*
OBJETIVO GENERAL:
Alfabetización sobre lectura y escritura de herramientas computacionales para el desarrollo de la Arquitectura, Diseño e Ingeniería.
Objetivos específicos:
1. Comprenderá los conceptos metodológicos del Diseño Computacional y generativo.
2. Aplicará las metodologías en el diseño, análisis y despiece de una cubierta (celosía, muro, losa, fachada o mobiliario) con base en un espacio existente en el campus.
3. Desarrollará los conceptos de programación orientada a objetos (POO Intermedia)
4. Generará algoritmos y análisis en Grasshopper sobre el ejemplo de praxis.
5. Desarrollo de documentación y presentación de resultados.
6. Fabricación del objeto, escala por definir.
Requisitos: Conocimiento de alguna plataforma CAD/CAM/CAE.
Profesor:
Arq. David Hernández Melgarejo.
http://bioarchitecturestudio.wordpress.com
Mayor información:
Kathrin Schröter, Dipl.-Ing./Arch. (D)
Directora de la Carrera de Arquitectura e Ingeniería Civil
Escuela de Diseño, Ingeniería y Arquitectura
Campus Estado de México
TEC DE MONTERREY
Tel.: (52/55) 5864 5555 Ext. 5685 o 5750
Enlace intercampus:80.236.5685
Fax: (52/55) 5864 5319
kschroter@itesm.mx
www.itesm.mx
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