r more details: workshop information
The 2012 Workshops:
1. "ALGORITHMS & MATHEMATICS" - Leader: Edmund Harris with David Celento, Brian Lockyear (Rhinoscript + Grasshopper / McNeel) 2. "ROBOTIC FABRICATION" - Leaders: Proto and Kruysman (SCI-Arch Staubli Robot + Maya, Autodesk) 3. "CASE STUDIES IN PARAMETRIC DESIGN" - Leader: Andrew Kudless with and Andrew Heumann (NBBJ) (Grasshopper) 4. "ROBOTIC PROTOTYPES" - Leaders: Shiloh, DeLeon, Johnson (Arduino + Grasshopper + Firefly) 5. "COMPUTATIONAL DESIGN STRATEGIES WITH DESIGNSCRIPT" - Leader: Robert Aish with Fisher, Tierney (DesignScript / Autodesk) 6. "PYTHON SCRIPTING WITH REVIT / VASARI" - Leader: Nathan Miller (Python + Revit + Vasari / Autodesk) 7. "GIS DRIVEN PARAMETRIC DESIGN" - Leaders: Sandoval, Faichney, de Monchaux (Grasshopper, Finches, LocalCode, GIS)
About ACADIA 2012
The conference will highlight experimental research and projects that explore the reciprocity and synergy between bits and atoms, the digital and the physical, and between digital code and material logic. The conference will bring together designers, researchers and practitioners who engage, question and aspire to stretch these boundaries. Architects, fabricators, engineers, media artists, technologists, hackers and others in related fields of inquiry are invited to participate.…
d C)
(3)
(4)Then I made the edges rigid (like in your model):
(5) The paper deals with this in two ways, one is crumpling:
(6) The other way is curved edges:
(7) The curved edges allow for a developable shape that consits of two cone sections (joined by the green line, which is also the location of your extra fold.) Centre points are A and C.
I guess crumpling is tricky to do in Grasshopper (perhaps something for Kangaroo?),
so I would use the two cone sections to create an accurate model in GH.
Or, actually, stick with the extra fold! (A folded surface is also developable, and you've already made lots of other folds).
Good luck!…
re_Never_Ends_V666".
3. Delete the left C# that does the Ziggurat (and feeds the truss maker with the "skin").
4. Remove all the comments of type "don't touch ..." > be brave.
5. Create any spiral surface (like the ones shown as demos) in Rhino. Or Any List of surfaces (say: one spiral surface and some others - but better start with ONE test surface). DO NOT use trimmed surfaces (only my "pro" C# truss maker does this - but it's incredibly complex to handle it). In fact ... you can use them ... but forget it, for the moment.
6. Feed this green GH component shown (aka: the Red pill [Matrix], he he) with your surface(s) > surrender to the crazy world of trusses.
7. Listen to some appropriate stuff .
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onstruct the Brep to understand which faces are planar which aren't.
2. I get the normal vector of each planar faces.
3. I deconstruct N into its component parts,
4. I put them on absolute values because i need to sort them by their parallelism in space not their actual side.
5. I merge the values together and create a set of only unique elements.
6. Partition the list by the third of its length
7. Flip matrix and concatenate the 3 values to get the unique code of their parallelism.
8. After, with another create set and a sift component i can sort them according to their N or -N direction.
The problem is that i don't want to use a sift pattern because it's not a very parametric way to get data; With it I have to manually change its number of outputs, I need a component that gives me x number of lists of surfaces parallel to one another. Like a "dispatch multiple component" but only with one ouput ?
Also I'm thinking that this code could be much clever if there's a tolerance parameter to put similar surfaces into the same lists even if their not perfectly parallel one to another
Thanks in advance for your help and your time.
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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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EP output variables are to calculate outdoorAirEnergy?
Thank you very much!
Output variables on the Read EP Results component:[1] totalThermalEnergy=cooling+heating[2] thermalEnergyBalance=cooling (-)andheating (+)[3] cooling= Zone Ideal Loads Supply Air Total Cooling Energy [J](Hourly)=Zone Ideal Loads Supply Air Sensible Cooling Energy [J](Hourly)+ Zone Ideal Loads Supply Air Latent Cooling Energy [J](Hourly)[4] heating= Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)= Zone Ideal Loads Supply Air Sensible Heating Energy [J](Hourly) + Zone Ideal Loads Supply Air Latent Heating Energy [J](Hourly)[5] electricLight=Zone Lights Electric Energy [J](Hourly)[6] electricEquip=Electric Equipment Electric Energy [J](Hourly)[7] peopleGains=Zone People Total Heating Energy [J](Hourly)[8] totalSolarGain=Zone Windows Total Transmitted Solar Radiation Energy[9] infiltrationEnergy=Zone Infiltration Total Heat Gain Energy (+)andZone Infiltration Total Heat Loss Energy (-)[10] outdoorAirEnergy= ???[11] natVentEnergy=Zone Ventilation Total Heat Gain Energy (+)andZone Ventilation Total Heat Loss Energy (-)[12] operativeTemperature=Zone Operative Temperature[13] airTemperature=Zone Mean Air Temperature[14] meanRadTemperature=Zone Mean Radiant Temperature[15] relativeHumidity=Zone Air Relative Humidity[16] airFlowVolume=[infiltrationFlow] Zone Infiltration Standard Density Volume Flow Rate+[natVentFlow] Zone Ventilation Standard Density Volume Flow Rate+[mechSysAirFlow] Zone Mechanical Ventilation Standard Density Volume Flow Rate+[earthTubeFlow] Earth Tube Air Flow Volume[17] airHeatGainRate=[surfaceAirGain] Zone Air Heat Balance Surface Convection Rate+[systemAirGain] Zone Air Heat Balance System Air Transfer Rate
Output variables on the Read EP Surface Results component:[1] surfaceIndoorTemp= Surface Inside Face Temperature[2] surfaceOutdoorTemp=Surface Outside Face Temperature[3] surfaceEnergyFlow=[opaqueEnergyFlow] Surface Average Face Conduction Heat Transfer Energy+[glazEnergyFlow] Surface Window Heat Gain Energy[4] opaqueEnergyFlow =Surface Average Face Conduction Heat Transfer Energy[5] glazEnergyFlow= Surface Window Heat Gain Energy[6] windowTotalSolarEnergy=Surface Window Transmitted Solar Radiation Energy[7] windowBeamEnergy=Surface Window Transmitted Beam Solar Radiation Energy[8] windowDiffEnergy=Surface Window Transmitted Diffuse Solar Radiation Energy[9] windowTransmissivity=Surface Window System Solar Transmittance…
you post a screenshot of what the message coming from its readMe! output looks like?2) Close your Grasshopper and Rhino.3) Download "Revo Uninstaller Pro" from here. It is free for first 30 days, which is what we need.4) Right click on the RevoUninProSetup.exe and check if the file is blocked. If it is, unblock it.5) Run the RevoUninProSetup.exe file and install "Revo Uninstaller Pro".6) Uninstall "MapWinGIS" with "Revo Uninstaller Pro". It is important that "Revo Uninstaller Pro" deletes not only files from MapWinGIS installation folder, but also all other leftovers (as registry inputs). Here is a small tutorial on how to do that. Watch it from 6:10 till the end.7) Restart your PC8) When your Windows boots up, make sure that you are logged in as Administrator!9) In your Start menu's search box type: "UAC", which will find your User Account Control Settings. Click on it, and a new window will open. Set the bar on the left to "Never notify".10) Turn off your Windows Firewall.11) Then turn off your custom Firewall (in case you have another one, besides standard Windows Firewall).12) Completely turn off your Antivirus.13) Download again the MapWinGIS-only-v4.9.4.2-x64.exe.exe file from here.14) Right click on the MapWinGIS-only-v4.9.4.2-x64.exe file and see if it is blocked. If it is, unblock it.15) Right click on MapWinGIS-only-v4.9.4.2-x64.exe file and choose: "Run as"... Administrator.16) One the installation preparation steps start, choose "Full installation". Wait for the MapWinGIS installation to finish.17) Right-click on "Rhino 5" icon and then choose: "Run as administrator".18) Open the the ironpython_admin.gh file again, and again post a screenshot of the message coming from its readMe! output.19) Drop the "Gismo Gismo" component to Grasshopper canvas. Post a screenshot of the message coming out from its readMe! output.
So we will need in total three screenshots of the readMe! output messages.
Thank you once again for being patient, and sorry for the large number of steps.…
Added by djordje to Gismo at 1:52am on April 9, 2017
tivas.
Desde lo básico a sistemas complejos + documentación para fabricación.
Orientado a Diseñadores, Arquitectos, Artistas Multimedios y profesionales afines.
Objetivos específicos:
• Distinguir los conceptos principales del diseño paramétrico y su aplicación en entornos de modelación CAD. • Manejar la modelación paramétrica de sistemas geométricos simples y complejos en Grasshopper 3D. • Aplicar el conocimiento paramétrico en la creación de documentación para construcción y fabricación de un modelo desarrollado en Grasshopper 3D. Contenidos: Sesión 1. Introducción a la modelación paramétrica. Sesión 2. Elementos geométricos y sus propiedades. Sesión 3. Estructura de la información. Sesión 4. Condiciones de campos, grillas y atractores. Sesión 5. Panelización de elementos en superficie complejas. Sesión 6. Parametrización orientada a objetos. Sesión 7. Documentación paramétrica 1. Sesión 8. Documentación paramétrica 2. Sesión 9. Modelación avanzada y optimizaciones. Sesión 10. Profundización personal.
Fechas : Del 14 de Marzo al 13 de Abril de 2016
Modalidad : Presencial
Duración : 30 horas (10 sesiones)
Horario : Lunes y miércoles de 18:30 a 21:30 hrs.
Facultad : Escuela de Arquitectura
Pontificia Universidad Católica de Chile
…
o let the community extend it as needed in particular bespoke areas by having a well exposed API and giving a medium for people to present those plug-ins. As others have said, I think as long as you concentrate on the core experience/robustness/openness/performance/experience, everyone else can help fill in the gaps and the bespoke areas needed, like in AEC, with custom components/userobjects/clusters.
As an aside:
1 a graphical way of documenting and navigating through components on a canvas such as through a hierarchal specification tree/browser would be useful.
2. please do not get rid of clusters, these are huge, especially the ability to modularize, reuse and clean up grasshopper definitions using them. I use these a lot now.
3 I would like the ability to have a way of easily navigating through and linking grasshopper documents. I think a tab based approach to access different documents is better than the existing window approach.
4 I would concentrate on also improving the performance of GH, I still can potentially get massive bottle necks. Especially with viewing a large amount of BREPS.
5 The ability to externally reference a grasshopper document form another document would be massive. Similar to mathCAD where I can reference a set of functions or global parameters in one work sheet and read them in a new one.
6 I also would like to be able to add a jpeg to the canvas - say I had a sketch of a structural detail with annotation as a PDF I would like to be able to drop that on the canvas for viewing. A live rhino viewport viewer that could be dropped on the canvas would be nice
7 PDF printing of the canvas/other ways of documenting a grasshopper definition for issue to a client say
8 Away to add hyperlinks to a table of contents say, so I, or a downstream user, can quickly navigate around the canvas form this table of contents - for example Section 1 Inputs Section 2 Driver geometry 2.1 Structure 2.2 façade 3 Outputs 3.1 Façade penalization study…
file. A TSpline made thing in fact.
2. This atroci ... er ... hmm ... I mean unspeakable beauty uses an exo-skeletal load bearing structure hence is THAT big (BTW: Apparently nobody knows what thermal bridge is nor thermal expansion nor vapor condensation ... but these are "minor" details these holly blob days, he he).
3. 2 means that some nodes of that "grid" MUST "meet" floors in order to support them and (hopefully) withstand some seismic forces. BTW: A Richter scale 9 (for an hour) is all what this building actually needs (that's acid "humor").
4. The "smarter" way to do this is to spread "some" (i.e a lot) random points (Note: David's algo yields "evenly-spaced-points" within the limits of the possible) on the guide blob (a polysurface in fact).
5. Then ... you need some algo that tests proximity AND "adjusts" the Z in order to have some node points "co-planar" (Z) with the floors.
6. Then you triangulate all that stuff (the points, that is) using some decent Ball Pivot Algorithm (NOT Delauney) and you get a triangulated mesh that "engulfs" the guide blob. If you want some quads (as shown) this is also possible.
7. So you have edges ... i.e poly lines (per mesh face) and if you offset them ... you have "drilling" profiles that you must use against a second guide "thickened" blob for creating a continuously smooth exo-skeletal LBS (as shown). Of course Rhino (being a surface modeller) could require years to do this solid difference opp (or an eternity).
8. Rounding the "lips" of that LBS Brep is out of question with Rhino or GH (but it can been done very easily using other apps). Then you must "split" the Brep (in modules? in nodes + "rodes"? you tell me) in order to make it in real-life (what about forgetting all that?, he he).
9. Then, there's the glazing thingy that is made via quads meaning planarity. This is achievable with Kangaroo2 but is a bit tricky.
Moral: WHAT a gigantic pile of worms is this thread of yours...
more soon.
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