e:
Modulo 1Il workshop è finalizzato a fornire ai partecipanti i fondamenti della modellazione parametrica e generativa attraverso Grasshopper, plug-in di programmazione visuale per Rhinoceros 3D (uno dei più diffusi modellatori NURBS per l‘architettura e il design). Il workshop mira a gestire e sviluppare il rapporto tra informazione e geometria lavorando sui sistemi di involucro in condizioni specifiche. La discretizzazione di superfici (pannellizazione sia Nurbs che Mesh), la modellazione delle geometrie attraverso informazioni (siano esse provenienti da dati di analisi ambientali, da mappe di colore o da database), l’estrazione e la gestione di informazioni richiedono la comprensione delle strutture dei dati al fine di definire un processo che va dalla progettazione alla costruzione.I partecipanti impareranno come costruire e sviluppare strutture di dati parametrici per informare geometrie ‘data-driven’ e come estrarre le informazioni rilevanti da tali modelli per il processo di costruzione.Modulo 2Il workshop, volto a promuovere le nuove tecnologie digitali di supporto alla progettazione e alla fabbricazione, fornirà ai partecipanti gli strumenti per la preparazione, attraverso Grasshopper, dei modelli per il processo di stampa 3d. Il workshop inoltre, darà ai partecipanti i fondamenti dell’uso della stampante 3d e si concluderà con la fabbricazione del proprio modello realizzato durante il corso.
[.] Date:Modulo 1 – 25/26/27 Luglio 2014 – SiracusaModulo 2 – 28/29 Luglio 2014 – Catania
[.] Tutors:Arch. Andrea Graziano (Co-de-iT)Arch. Salvo Pappalardo (Studio Aion)Arch. David Montenegro (Hackspace_Catania)
[.] Luogo:Modulo 1Officina Ermocrate – Viale Ermocrate 7, 96100 – SiracusaModulo 2Hackspace_Catania – Via Grotte Bianche, 112 – Catania
[more info]
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.0004. [1 of 7] Writing simulation parameters...5. [2 of 6] No context surfaces...6. [3 of 6] Writing geometry...7. [4 of 6] Writing materials and constructions...8. [5 of 7] Writing schedules...9. [6 of 7] Writing loads and ideal air system...10. [7 of 7] Writing outputs...11. ...... idf file is successfully written to : c:\ladybug\unnamed\EnergyPlus\unnamed.idf12. 13. Analysis is running!...14. c:\ladybug\unnamed\EnergyPlus\eplusout.csv15. ......
Done! Read below for errors and warnings:
16. 17. Program Version,EnergyPlus, Version 8.2.7-777c1f8d79, YMD=2015.02.28 16:09,IDD_Version 8.2.718. 19. ** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details.20. 21. ** Warning ** Version: in IDF="'8.2.7'" not the same as expected="8.2"22. 23. ** Warning ** ManageSizing: For a zone sizing run, there must be at least 1 Sizing:Zone input object. SimulationControl Zone Sizing option ignored.24. 25. ** Warning ** ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.26. 27. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=F73533B3C6894C67936B_GLZP_1228. 29. ** ~~~ ** Opening Surface creating error=F73533B3C6894C67936B_GLZP_12_GLZ_1230. 31. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=F73533B3C6894C67936B_GLZP_2532. 33. ** ~~~ ** Opening Surface creating error=F73533B3C6894C67936B_GLZP_25_GLZ_2534. 35. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=F73533B3C6894C67936B_GLZP_2836. 37. ** ~~~ ** Opening Surface creating error=F73533B3C6894C67936B_GLZP_28_GLZ_2838. 39. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_940. 41. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_9_GLZ_942. 43. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_1044. 45. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_10_GLZ_1046. 47. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_1148. 49. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_11_GLZ_1150. 51. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_1552. 53. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_15_GLZ_1554. 55. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_2456. 57. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_24_GLZ_2458. 59. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_2560. 61. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_25_GLZ_2562. 63. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_3064. 65. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_30_GLZ_3066. 67. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_3268. 69. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_32_GLZ_3270. 71. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_3472. 73. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_34_GLZ_3474. 75. ** Warning ** GetSurfaceData: Very small surface area[2.94495E-004], Surface=F73533B3C6894C67936B_GLZP_076. 77. ** Warning ** GetSurfaceData: Very small surface area[3.84753E-004], Surface=F73533B3C6894C67936B_GLZP_178. 79. ** Warning ** GetSurfaceData: Very small surface area[9.16905E-004], Surface=F73533B3C6894C67936B_GLZP_380. 81. ** Warning ** GetSurfaceData: Very small surface area[4.96186E-004], Surface=F73533B3C6894C67936B_GLZP_482. 83. ** Warning ** GetSurfaceData: Very small surface area[2.37373E-005], Surface=F73533B3C6894C67936B_GLZP_684. 85. ** Warning ** GetSurfaceData: Very small surface area[6.35824E-004], Surface=F73533B3C6894C67936B_GLZP_786. 87. ** Warning ** GetSurfaceData: Very small surface area[5.86549E-004], Surface=F73533B3C6894C67936B_GLZP_888. 89. ** Warning ** GetSurfaceData: Very small surface area[7.63765E-004], Surface=F73533B3C6894C67936B_GLZP_1090. 91. ** Severe ** GetSurfaceData: Zero or negative surface area[-8.09566E-004], Surface=F73533B3C6894C67936B_GLZP_1292. 93. ** Warning ** GetSurfaceData: Very small surface area[1.51701E-004], Surface=F73533B3C6894C67936B_GLZP_1394. 95. ** Warning ** GetSurfaceData: Very small surface area[9.29917E-004], Surface=F73533B3C6894C67936B_GLZP_1596. 97. ** Warning ** GetSurfaceData: Very small surface area[2.94451E-004], Surface=F73533B3C6894C67936B_GLZP_1698. 99. ** Warning ** GetSurfaceData: Very small surface area[8.03294E-004], Surface=F73533B3C6894C67936B_GLZP_17100. 101. ** Warning ** GetSurfaceData: Very small surface area[6.83026E-004], Surface=F73533B3C6894C67936B_GLZP_18102. 103. ** Warning ** GetSurfaceData: Very small surface area[9.29917E-004], Surface=F73533B3C6894C67936B_GLZP_20104. 105. ** Warning ** GetSurfaceData: Very small surface area[3.19851E-005], Surface=F73533B3C6894C67936B_GLZP_21106. 107. ** Warning ** GetSurfaceData: Very small surface area[7.63765E-004], Surface=F73533B3C6894C67936B_GLZP_23108. 109. ** Severe ** GetSurfaceData: Zero or negative surface area[-4.05899E-004], Surface=F73533B3C6894C67936B_GLZP_25110. 111. ** Warning ** GetSurfaceData: Very small surface area[6.35824E-004], Surface=F73533B3C6894C67936B_GLZP_27112. 113. ** Severe ** GetSurfaceData: Zero or negative surface area[-9.91146E-004], Surface=F73533B3C6894C67936B_GLZP_28114. 115. ** Warning ** GetSurfaceData: Very small surface area[2.70158E-004], Surface=F73533B3C6894C67936B_GLZP_29116. 117. ** Warning ** GetSurfaceData: Very small surface area[3.22781E-004], Surface=F73533B3C6894C67936B_GLZP_30118. 119. ** Warning ** GetSurfaceData: Very small surface area[4.67821E-004], Surface=F73533B3C6894C67936B_GLZP_33120. 121. ** Warning ** GetSurfaceData: Very small surface area[3.22737E-004], Surface=F73533B3C6894C67936B_GLZP_34122. 123. ** Warning ** GetSurfaceData: Very small surface area[2.65634E-004], Surface=4BDFD67E6D0E486796CC_GLZP_0124. 125. ** Warning ** GetSurfaceData: Very small surface area[4.70736E-004], Surface=4BDFD67E6D0E486796CC_GLZP_1126. 127. ** Warning ** GetSurfaceData: Very small surface area[3.42507E-004], Surface=4BDFD67E6D0E486796CC_GLZP_3128. 129. ** Warning ** GetSurfaceData: Very small surface area[5.89276E-004], Surface=4BDFD67E6D0E486796CC_GLZP_4130. 131. ** Warning ** GetSurfaceData: Very small surface area[1.91146E-004], Surface=4BDFD67E6D0E486796CC_GLZP_6132. 133. ** Warning ** GetSurfaceData: Very small surface area[9.71205E-004], Surface=4BDFD67E6D0E486796CC_GLZP_7134. 135. ** Warning ** GetSurfaceData: Very small surface area[4.34494E-004], Surface=4BDFD67E6D0E486796CC_GLZP_8136. 137. ** Severe ** GetSurfaceData: Zero or negative surface area[-3.60159E-004], Surface=4BDFD67E6D0E486796CC_GLZP_9138. 139. ** Severe ** GetSurfaceData: Zero or negative surface area[-1.11946E-004], Surface=4BDFD67E6D0E486796CC_GLZP_10140. 141. ** Severe ** GetSurfaceData: Zero or negative surface area[-3.41257E-004], Surface=4BDFD67E6D0E486796CC_GLZP_11142. 143. ** Severe ** GetSurfaceData: Zero or negative surface area[-8.21483E-005], Surface=4BDFD67E6D0E486796CC_GLZP_15144. 145. ** Warning ** GetSurfaceData: Very small surface area[2.65716E-004], Surface=4BDFD67E6D0E486796CC_GLZP_16146. 147. ** Warning ** GetSurfaceData: Very small surface area[4.84044E-004], Surface=4BDFD67E6D0E486796CC_GLZP_17148. 149. ** Warning ** GetSurfaceData: Very small surface area[7.12297E-004], Surface=4BDFD67E6D0E486796CC_GLZP_19150. 151. ** Warning ** GetSurfaceData: Very small surface area[6.14324E-004], Surface=4BDFD67E6D0E486796CC_GLZP_22152. 153. ** Warning ** GetSurfaceData: Very small surface area[8.88887E-004], Surface=4BDFD67E6D0E486796CC_GLZP_23154. 155. ** Severe ** GetSurfaceData: Zero or negative surface area[-9.89060E-004], Surface=4BDFD67E6D0E486796CC_GLZP_24156. 157. ** Severe ** GetSurfaceData: Zero or negative surface area[-1.14849E-003], Surface=4BDFD67E6D0E486796CC_GLZP_25158. 159. ** Warning ** GetSurfaceData: Very small surface area[4.00479E-004], Surface=4BDFD67E6D0E486796CC_GLZP_27160. 161. ** Warning ** GetSurfaceData: Very small surface area[6.63061E-005], Surface=4BDFD67E6D0E486796CC_GLZP_28162. 163. ** Warning ** GetSurfaceData: Very small surface area[1.09018E-004], Surface=4BDFD67E6D0E486796CC_GLZP_29164. 165. ** Severe ** GetSurfaceData: Zero or negative surface area[-2.49326E-005], Surface=4BDFD67E6D0E486796CC_GLZP_30166. 167. ** Severe ** GetSurfaceData: Zero or negative surface area[-3.17446E-004], Surface=4BDFD67E6D0E486796CC_GLZP_32168. 169. ** Warning ** GetSurfaceData: Very small surface area[8.60686E-004], Surface=4BDFD67E6D0E486796CC_GLZP_33170. 171. ** Severe ** GetSurfaceData: Zero or negative surface area[-2.48515E-005], Surface=4BDFD67E6D0E486796CC_GLZP_34172. 173. ** Fatal ** GetSurfaceData: Errors discovered, program terminates.174. 175. ...Summary of Errors that led to program termination:176. 177. ..... Reference severe error count=24178. 179. ..... Last severe error=GetSurfaceData: Zero or negative surface area[-2.48515E-005], Surface=4BDFD67E6D0E486796CC_GLZP_34180. 181. ************* Warning: Node connection errors not checked - most system input has not been read (see previous warning).182. 183. ************* Fatal error -- final processing. Program exited before simulations began. See previous error messages.184. 185. ************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors.186. 187. ************* EnergyPlus Sizing Error Summary. During Sizing: 2 Warning; 0 Severe Errors.188. 189. ************* EnergyPlus Terminated--Fatal Error Detected. 41 Warning; 24 Severe Errors; Elapsed Time=00hr 00min 1.51sec190.…
faces2012la.eventbrite.com/
The Responsive Surfaces Workshop _ LA 2012 will explore the use of Grasshopper, Firefly and Arduino as creative and technical tools in the design, simulation and prototyping of intelligent building skins. Grasshopper, a free plug-in for McNeel’s Rhino modeler, allows designers to create adjustable parametric forms through graphic icons rather than programming. Firefly is a new set of comprehensive software tools dedicated to bridging the gap between Grasshopper, theArduino micro-controller, the internet and beyond. It allows near real-time data flow between the 3D digital and physical worlds, and will read/write data to/from internet feeds, remote sensors, connect with machine vision protocols, and more.
Instructor: Jason Kelly Johnson, Firefly co-developer, Future Cities Lab and the CCA San Francisco Lecturer: Miles Kemp, President of Variate Labs and co-author of “Interactive Architecture”
Additional Information: Workshop Location: 8451 Beverly Boulevard, Los Angeles, CA 90048 (GOOGLE MAP) Required Materials: Each participant should bring their own Sparkfun Inventors Kit or equivalent. Software: Please have the following software installed on your personal laptop computer - Rhino (SR9) + the latest versions of Grasshopper, Firefly and Arduino.
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rsi giornalieri (livello base) dedicati a 4 diversi topic Rhinoceros - 8 febbraio Grasshopper - 16 febbraio Rhino cam - 8 marzo Stampa 3D - 9 marzo
tutor: Amleto Picerno Ceraso, Francesca Viglione, Gianpiero Picerno Ceraso.
. Arduino for interaction (livello base-medio) 15, 16 marzo Il workshop parte dalle basi della programmazione di arduino fino ad arrivare all’interazione tra un oggetto fisico ed un imput informativo tutor: Gianpiero Picerno Ceraso
. Grasshopper advanced: “Complex surface” (livello medio) - 18, 19, 20 marzo Il workshop ha come obiettivo lo sviluppo di superfici complesse rispondenti ad informazioni provenienti dall’ambiente. Il corso parte dalle nozioni di Grasshopper fino ad arrivare alla possibile realizzazione di un oggetto tramite le tecniche di fabbrizazione digitale. tutor: Amleto Picerno Ceraso nb: è richiesta una conoscenza base di Grasshopper
. Emotional design (livello alto) 23, 24, 25 marzo Il workshop verterà sull’acquisizione, registrazione e manipolazione di tali dati/emozioni tramite Grasshopper e il loro utilizzo per controllare i parametri del design di specifici oggetti che diventeranno quindi, essendo customizzanti con le specifiche emozioni dell’utente, istanze e memoria tattile di precise esperienze. tutor: Andrea Graziano nb: è richiesta una conoscenza base di Grasshopper
. Fabricated fashion (livello alto) 26, 27, 28, 29, 30 marzo Il tema del workshop verte sulle tecniche di progettazione digitale applicate al fashion. tutor: Luis e Elizabeth Fraguada nb: è richiesta una conoscenza base di Grasshopper
. Blender (livello alto) - 16, 17, 18 maggio tutor: Andrea Graziano
. Interaction design: Arduino + Grasshopper (livello medio) - 2, 3, 4 maggio Il corso ha l’obiettivo di indagare processi di interazione tra le persone e gli ambienti in cui vivono attraverso il responsive design. nb: è richiesta una conoscenza base di Grasshopper e Arduino. tutor: Amleto Picerno Ceraso del Mediterranean FabLab e Antonio Grillo del FabLab Napoli.
info su costi: http://www.medaarch.com/2765-il-nuovo-calendario-attivita-firmato-medaarch/
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Singapore
DESCRIPTION : Two seemingly contrasting ideas combined will turn into something remarkably new. This resulted in the idea of Digital Craftsmanship – connecting the digital technology with artisans’ craftsmanship. Singapore is uniquely positioned to benefit from both – the latest technology in digital fabrication, as well as the beautiful and rich culture of ASEAN craftsmanship in countries like Indonesia, Thailand and Vietnam. The NUS digital fabrication in architecture studio introduces advanced design to fabrication flow, such as 3D modeling, simulation, digital fabrication and physical assembly and testing. We discover existence of data flow distinguishes digital and conventional craftsmanship, prolonging the interface between human and object. The result is very encouraging –the Digital Craftsmanship approach could lead innovative yet regionally relevant contemporary architectural design, complex yet controlled functional geometry and aesthetics. We hope this exhibition could raise our awareness about preserving the precious wisdom of traditional craftsmanship alongside with advanced fabrication technologies in architecture.
OPENING : 24 August 2012, 7pm – 9pm, RSVP to Yi Hui (dfabstudio@gmail.com) EXHIBITION : 25 – 28 August 2012 (10 am – 9 pm, daily, free admission) VENUE : Promenade, Level 8, National Library Building, 100 Victoria Street, Singapore
PROJECT TEAM : Shinya Okuda (Studio Tutor), Liane Ee Rulian, Hiral Ashvin Desai, Lee Teng Teng Cheryl, Ian Wong Hengjie, Teo Lin Lin, Xu Xiaoqi, Liu Zhichao, Diptarshi Dev, Tan Zi Hua, Teh Yi Hui, Joshua Loh.
Organized by Digital Fabrication in Architecture Studio, NUS.…
not rhinocommonPath
(this is not the bug but if the correction is not made, then the form doesn't clearly ask for the dll
Second part of the solution (and here it corrects the bug)
Do something so we do not execute line 53 -if (File.Exists(Path.Combine(path, "rhinocommon.dll")))- if path == null.
The way I did it is certainly not the most elegant one but it's efficient. I have added the two following line of code
if (path == null)
path = "C:\\";
--------------
Now I have also corrected the code so it finds the dll on my computer. But I'm not sure the installation is the same for everyone. On my computer the information GrashopperFinder.cs is looking for is not under the LocalMachine hive but under the CurrentUser hive! So FindGrasshopper (line 19) is never checking for the right hive.
As I'm on a Windows 7 - 64, I have just added at line 28 the following code
SearchRegistryKey(rh5_64_Reg, rh5_RegName, RegistryHive.CurrentUser, RegistryView.Registry64, strings);
Now everything seems to work with the latest version of Grasshopper. So next step is to put the right .NET version and also extend the wizard to Visual Studio Express 2012 or beyond (Already done for the wizard for Rhino, so it shouldn't be an bid problem).
Anyways, thank you if someone who know how to code can double check what I did and correct everything (i.e. put the right code on GitHub + the corrected template on the VisualStudioGallery
Regards
Serge…
ll-Facade using Rhino and Grasshopper Participants will learn; Rhinoceros Grasshopper Advanced Parametric Design Brick Formations and Explorations Shadow-Design Relationship
Session 2: Advanced Digital Modeling for Additive Manufacturing (3D Printing) Participants will learn; How to prepare a 3D design to 3D Printing process in Rhinoceros Advanced Methods for 3D Print optimisation for time and cost effective production 3D Printing software education Cura
INFO
Date Saturday, 28 September 2019 Schedule 9:30am – 2:30pm (Session 1) | 2:45pm – 7:00pm (Session2) Venue (TBC) Pada Labs, Istanbul Language English/Turkish Softwares Rhinoceros Grasshopper 3D Cura Participants will need to bring their own laptops with software installed; other plugins will be distributed at the workshop. Prerequisites All tutorials are open to beginner level. No previous knowledge of Cura and Grasshopper needed. Basic knowledge of Rhinoceros recommended. Participation The workshop is limited to the first 20 applicants. Each student will receive a certificate of participation. Prices for each session: (You can pick one and attend one) Special Early registration (Deadline 1 August ) Students 310 TL Professionals 400 TL Regular registration Students 390 TL Professionals 480 TL Prices for Session 1&2 Combined: (Full Day) Special Early registration (Deadline 1 August ) Students 540 TL Professionals 690 TL Regular registration Students 620 TL Professionals 790 TL DISCOUNTS Group registration of 3 or more people will get a 15% discount. * Previous Pada workshop students will get a 10% discount. DIRECTOR Begum Aydinoglu, M.Arch AA DRL will be instructing and directing the following workshops. REGISTRATION: Email to pada.workshops@gmail.com for registration instructions. Please note that we have limited seats and there won't be any exceptions. …
schi (Authorized Rhino Trainer) tutor: Maurizio Arturo Degni
La simulazione fisica interattiva, integrata nell’ambito della modellazione parametrica consente di indagare nuove soluzioni formali ottimizzate per l'architettura ed il design. Il workshop approfondirà le strategie e le principali tecniche di FORM FINDING utilizzando il motore fisico KANGAROO integrato a plugin di analisi strutturale (MILLIPEDE). Le tecniche saranno applicate a diversa scala: dall'architettura (modellazione di superfici e coperture a semplice compressione) al design del prodotto, dove la simulazione digitale sarà integrata a tecniche di refinement (WEAVERBIRD). Il workshop e rivolto a studenti e professionisti con conoscenze base di modellazione tridimensionale. Sarà rilasciato un attestato di partecipazione firmato da Arturo Tedeschi in qualità di Authorized Rhino Trainer.
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