rld of Parametric Design by learning Parametric Design Techniques with Grasshopper.
For details and registration check out: http://www.d-nat.net/topologies-entry or email: contact@d-nat.net
The workshop will also prepare you for the entry level of the intermediate / advanced workshop Fabricated Topologies, which is taking place on Jan 17-21, 2017. Check out http://www.d-nat.net/fabricated-topologies for details.
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Added by Zayad Motlib at 12:03am on December 15, 2016
.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.…
ntación en distintos procesos del Diseño.
Se abordaran los conceptos basicos y la metodologia para abordar problemas de diseño a traves del desarrollo de Herramientas Algorítmicas mediante un proceso de programacion visual.
Como plataforma de trabajo se utilizara Rhinoceros+Grasshopper.
Instructor:
Leonardo Nuevo Arenas
Fechas:
17 y 18 de Septiembre de 2011
Lugar:
Calzada del Federalismo Sur No. 135 Altos 3, Frente al Parque Rojo (http://bit.ly/nNOuZ5)
Cupo:
Limitado a 15 plazas
Fecha limite de pago:
Viernes 9 de Septiembre
Importante:
Los participantes deberán traer su propia Laptop con todo el software y actualizaciones (originales o versiones de demostración oficiales) previamente instaladas. (Se fijara una fecha unos días antes para revisas que todos los equipos estén en orden y listos para trabajar). Si planeas venir de fuera de la ciudad contactanos y te pondremos en contacto con otras personas que también vayan a hacerlo para en caso de desearlo puedan compartir su lugar de estancia.
Contacto:
Leo. 33 3956 9209
nuarle@msn.com
Aye. 33 1050 3482
ayeritza.fara@gmail.com…
,with OpenfoamV1612+ in Windows 10 64bit.The blockmesh worked good.And the snappyhexmesh crashed in the process.My computer memory is not enough? Or some settings wrong?Could you help me solve this question?/---------------------------------------------------------------------------| ========= | || \ / F ield | OpenFOAM: The Open Source CFD Toolbox || \ / O peration | Version: v1612+ || \ / A nd | Web: www.OpenFOAM.com || \/ M anipulation | |*---------------------------------------------------------------------------*/Build : v1612+Exec : snappyHexMeshDate : Aug 27 2017Time : 09:39:54Host : "default"PID : 13443Case : /home/ofuser/workingDir/butterfly/outdoor_airflownProcs : 1sigFpe : Enabling floating point exception trapping (FOAM_SIGFPE).fileModificationChecking : Monitoring run-time modified files using timeStampMaster (fileModificationSkew 10)allowSystemOperations : Allowing user-supplied system call operations
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //Create time
Create mesh for time = 0
Read mesh in = 2.14 s
Overall mesh bounding box : (-241.5472 -241.4418 0) (496.4376 536.2438 144.8633)Relative tolerance : 1e-06Absolute matching distance : 0.001081851
Reading refinement surfaces.Read refinement surfaces in = 0.01 s
Reading refinement shells.Refinement level 3 for all cells inside around_buildings_area.stlRead refinement shells in = 0 s
Setting refinement level of surface to be consistent with shells.For geometry outdoor_airflow.stl detected 0 uncached triangles out of 120Checked shell refinement in = 0 s
Reading features.Read features in = 0 s
Determining initial surface intersections
Edge intersection testing:Number of edges : 1684728Number of edges to retest : 1684728Number of intersected edges : 5583Calculated surface intersections in = 1.68 s
Initial mesh : cells:554112 faces:1684728 points:576779Cells per refinement level:0 554112
Adding patches for surface regions
Patch Type Region
outdoor_airflow:
6 wall buildings
Added patches in = 0.03 s
Edge intersection testing:Number of edges : 1684728Number of edges to retest : 0Number of intersected edges : 5583Selecting decompositionMethod none
Refinement phase
Found point (127.4452 147.401 72.43167) in cell 402042 on processor 0
Surface refinement iteration 0
Marked for refinement due to surface intersection : 8820 cells.Determined cells to refine in = 3.87 sSelected for refinement : 8820 cells (out of 554112)Edge intersection testing:Number of edges : 1883850Number of edges to retest : 250376Number of intersected edges : 21198Refined mesh in = 1.77 sAfter refinement surface refinement iteration 0 : cells:615852 faces:1883850 points:652499Cells per refinement level:0 5452921 70560
Surface refinement iteration 1
Marked for refinement due to surface intersection : 38502 cells.Determined cells to refine in = 0.04 sSelected for refinement : 40392 cells (out of 615852)Edge intersection testing:Number of edges : 2787132Number of edges to retest : 1118049Number of intersected edges : 85655Refined mesh in = 3.17 sAfter refinement surface refinement iteration 1 : cells:898596 faces:2787132 points:990317Cells per refinement level:0 5432351 486812 306680
Surface refinement iteration 2
Marked for refinement due to surface intersection : 159213 cells.Determined cells to refine in = 0.1 sSelected for refinement : 168471 cells (out of 898596)Edge intersection testing:Number of edges : 6576117Number of edges to retest : 4737635Rhino Model and GH files is in t'he zip file.Please help me solve this question!~~…
e a "game changer" regarding lighting simulations and analysis. To harness the power of Grasshopper, the flexibility of Rhino in a lighting specific application is, I believe, already the future.
Because of the above I am a big proponent of Honeybee for the professional environment, but I feel that there are still a few shortcomings... from what I have tried.
1. It should be "photometrically" more comprehensive, not just for illuminance, luminance and energy (W.h). Other quantities are of great importance, namely intensity and flux.
2. Producing documentation is a big advantage (if not the main advantage) of dedicated packages such as Dialux or AGI32, it would be nice to see it as a strong feature in Honeybee as well.
3. Support for Eulumdat would be a nice feature.
4. There is a performance issue with multiple sources as you mentioned. I have tried a "simple" analysis with 120 sources and it takes, indeed, a substantial amount of time to produce the result. Don't know where the bottleneck is, perhaps not Honeybee's to blame, but it is a hindrance in using the software for complex simulations.
5. Material/surface design would benefit from more options.
Finally, do you have a roadmap of sorts and what can the users expect from Honeybee electic lighting in 2017?
Have a great year!! All the best.
…
ne) graphs, makes a classic VV (vertex to vertex connectivity) Adjacency Matrix based on what Sandbox has to say (the Matrix is not actually required if someone wants to stay 100% in the GH world) and then ...er ... hmm ... attempts to find closed circuits as Microsoft suggests (forgot/lost the link but who cares? not me anyway [see VS stuff attached]).
It's quite faulty (like Windows) ... but is an indication on some things. Try to understand the recursion (critical in most AEC stuff). Recursion means that Matteo calls Matteo who calls Matteo ... until Matteo calls Maria and the loop is over. Notify if you need other recursion C# examples on other things (dozens available).
The working(?) chopped (minus sensitive stuff) real thing next week: just realized that this w/e there's the Malaysian MotoGP (Valentino lost the championship) AND a critical Formula 1 race in Mexico (forza Lewis).
Attached as well the original VS stuff from Microsoft (requires VS 2017)…
onents (radiation, sunlight-hours and view analysis) which let you study the effect of the orientation of your building and the analysis result. When you come to a question similar to "what is the orientation that the building receives the most/least amount of radiation?" is probably the right time to use this component.
HOW?
I'll try to explain the steps using a simple example. Here is my design geometries. The building in the center is the building to be designed and the rest of the buildings are context. I want to see the effect of orientation on the amount of the radiation on the test building surfaces from the start of Oct. to the end of Feb. for Chicago.
First I need to set up the normal radiation analysis and run it for the building as it is right now. [I'm not going to explain how you can set up this since you can find it in the sample file (Download the sample file from here)]
Now I need to set up the parameters for orientation study using orientationStudyPar component. You can find it under the Extra tab:
At minimum I need to input the divisionAngle, and the totalAngle and set runTheStudy to True. In this case I put 45 for divisionAngle and 180 for the totalAngle which means I want the study to be run for angles 0, 45, 90, 135 and 180.
[Note1: The divisionAngle should be divisible by totalAngle.]
[Note 2: If you don't provide any point for the basePoint, the component will use the center of the geometry as the center of the rotation.]
[Note 3: You can also rotate the context with the geometry! Normally you don't have the chance to change the context to make your design work but if you got lucky the rotateContext input is for you! Set it to True. The default is set to False.]
You're all set for the orientation study, just connect the orientationStudyPar output to OrientationStudyP input in the component and wait for the result!
The component will run the study for all the orientations and preview the latest geometry. To see the result just grab a quick graph and connect it to totalRadiation. As you can see in the graph 135 is the orientation that I receive the maximum radiation. Dang!
If you want to see all the result geometries set bakeIt to True, and the result will be baked under LadyBug> RadaitionStudy>[projectname]> . The layer name starts with a number which is the totalRadiation.
Mostapha…
will cover one of the latest and greatest topics from recent development. Although the webinars will be happening each Thursday around 12:30 Eastern Standard Time, registration will give you indefinite access to recordings of the webinars so that you can reference them when the time comes to apply them on your work!
The grand list of workshops is as follows:
1 - High-Quality Graphics, Visualizations and Animations with LadybugMarch 9th, 12:30 PM EST
2 - Brute Force Parametric Energy Modeling and Sensitivity Analyses in Early DesignMarch 23rd, 12:30 PM EST
3 - Wintertime Indoor Thermal Comfort Visualization - Eliminating Perimeter Heat with High-Performing FacadesMarch 30th, 12:30 PM EST
4 - Summertime Indoor Thermal Comfort Visualization - Setpoints and Blinds Up with Right Shade + ControlsApril 6th, 12:30 PM EST
5 - Condensation Modeling with HoneybeeApril 20th, 12:30 PM EST
6 - Urban Heat Island Modeling with DragonflyApril 27th, 12:30 PM EST
7 - Expanding Your Climate Data Sources with DragonflyMay 4th, 12:30 PM EST
8 - CFD Simulation with OpenFOAM, Rhino/Grasshopper and Butterfly (Advanced)May 11th, 12:30 PM EST
This series will have a similar arc as the one in the Fall, starting with basic topics and moving to advanced ones as we progress down the list. The first one will be accessible to all users regardless of prior experience and all of the workshops listed here will cover topics for which there is currently no tutorial video content. Hope that you can attend!…