run a single component per time? After running of which component, does Grasshopper get stuck?You might have to wait more than 30 minutes. Maybe you can leave your PC turned on during the night, and see what will happen in the morning?3) What are your latitude_ and longitude_ inputs coordinates?…
Added by djordje to Gismo at 10:42am on February 6, 2017
f.
Then the weird thing happened: when i linked a number slider (with a number between 1-12) to _month of the sunpath component, it took like 4 mins to process it, which used to be less than 1 sec. And if i linked a series component to it, everything would be fine... (I didnt even link sunpath to any other thing) So i tried work with series but set count to 1, and this made me another 4 mins to wait... I'm OK with this cuz i dont change month so often, but if i changed the hour, it seems recompute all the things around, so for everytime i want to change it, another 4 mins to go...
I was starting thinking about maybe some files were damaged when my pc crashed, so i deleted all the files and re-installed them for the rar downloaded, still the same. I checked my RAMs to see if there was any problem, nope.
My grasshopper version is 0.9.0076, my processor is i7-3770K@3.5ghz, 16gb DDR3 for RAM. The epw file i'm using is FRA_Paris.Orly.071490_IWEC.epw
Could anyone pls tell me what might be wrong here?
Thanks!!!
Best…
add another "trivial" constrain to the puzzle (for instance the PC sheets are 1.2*2.2m > meaning the obvious). This is addressable ONLY via the black bill (don't even think to use GH components for solving similar stuff).
3. One-off nodes are probably OK BUT for larger scales you'll need MERO type of approach > meaning assembly/component concepts > meaning dealing with instance Rhino definitions: blocks in plain English (don't even think to use GH components for solving similar stuff).
4. "Engulfing" type of strut extrusions are rather the best option (use aluminum in this case) > meaning profiles that can "wrap" the triangle content edge (be that "paper" or Lexan/PC).
5. The whole thing appears "easy" but on a pro level is rather quite challenging and obviously totally undo able without the black pill.
6. So: mesh relaxation <> adapter topology matters <> pack issues <> component design <> triangle content design <> cost <> you named it (for <> read "interact").
Such a "simple" case ... eh? …
4 telling me this :
"Retrieving the COM class factory for component with CLSID {00024500-0000-0000-C000-000000000046} failed due to the following error: 80040154."
When looking on google for help i found out that the error 80040154 wasn't only realted to grasshopper but to many other softwares and to the NET framework (i'm using the latest version of it 4.6.2 - installed yesterday, thinking that it might solve the problem but it doesn't) i'm using windows 7 and rhino 5
the gh file works on my friends pc so it clearly doesn't come from the file, either the gh or the excel one.
Any help will be much welcome!
And talk to me as if i didn't know anything about computers, because i don't know much.
THANKS A LOT! …
nt3d) Dim TestCrvs As New List(Of NurbsCurve)
At = At * (Math.PI / 180) 'angle tolerance
For SC As Int32 = 0 To C.SpanCount - 1 TestCrvs.Add(C.ToNurbsCurve(C.SpanDomain(SC))) Next
For Each TestC As NurbsCurve In TestCrvs If TestC IsNot Nothing Then Dim tt As Double TestC.ClosestPoint(P, tt) Dim TestP As Point3d = C.PointAt(tt) If TestC.TangentAt(tt).IsPerpendicularTo(New Vector3d(TestP - P), At) Then PerpPts.Add(TestP) End If Next
PP = PerpPts PC = TestCrvs
End Sub…
Added by David Stasiuk at 4:09am on February 28, 2014
e any simple way of getting my hands on the values of the parameters for the Pareto-front configurations ? For the moment I'm dealing with them by Copy-Pasting the list of data on a panel...
2. The data is given like a % of the parameters' sliders. Can't we get the slider values directly ?
3. Is there an easy way to view the shapes on Rhino while "travelling" on the Pareto-front ? I was thinking of clicking on the Octopus Pareto-front shape (line or surface) while having the corresponding parameters configurations (thus shape) on Grasshopper (and Rhino).
4. Finally, is it just my PC or why can't we see the shapes evolving while the algorithms is processing ?
Those features might be coming in the next versions of Octopus but still, if you have any idea of how you would deal with my questions for now...
Thanks in advance
Thomas…
picture:
... and on a PC without anything attached to the serial port. When you open the port, start the read component and its timer, do you then get a stream of <empty> values in the log output? (hmmm... I suppose that's only reasonable - but still, you are also seeing this?)
I suppose that, because of the mutually exclusive behavior of both the spider and grasshopper (i.e. only one at a time can access the COM port), we can deduce that we are listening on the correct port.
Am I listening on the correct pin (if such a notion makes sense at all)? If I look back to the spider software, I see that 9 channels are listed and that it's only the measured value on channel 0 that changes when I press the load cell. Channels 1, 2, and 3 report OVERFLOW; 4, 5, 6, and 7 are pretty much constant at 0.000 to 0.005 V; and channel 8 says FFFF. I do not know how things like that work so I do not know if they reflect reading from the 9 pins on the D-sub 9 connector.
As for your BTW question: no, I don't need to record all of the sensor values. I suppose that the Out value on the Read component will always reflect the most current value and that's all that I need to get on with life. In the end, the idea is that we have 4 load cells in the 4 corners of a plate onto which a vertical pipe is fixed. Loads are then put on the top end of the pipe and we'll have to visualize both direction and magnitude of the bending moment that is calculated from the compression - tension readings from the load cells... We've done this on a scaled model and streamed load cell information into MatLab. Now we'll have to use a different datalogger and I was hoping to be able to do the post processing in Rhino.
wim…
ati uguali del triangolo isoscele di costruzione. Il resto è offset fatto a mano, trim e estrusione, mi pare di ricordare.
Se hai bisogno di aiuto chiedi pure.
Ciao…
ome reason your PC can not access the opentopography.org SRTM service.Can you access the very website (http://opentopography.org) through your Chrome browser?…
need to download those dll, right, it should be the same for the trees?Is there anyway to make it more precise? Analising the geometry with the google maps it seems that unfortunatelly some parts are missing.…