GiD is a universal, adaptive and user-friendly pre and post processor for numerical simulations in science and engineering. It has been designed to cover all the common needs in the numerical simulations field from pre to post-processing.
Hello Alfonso, I am impressed with the quality of this presentation...I have a question, is the software capable of modeling sequential loading of embankment dams during construction and impact of the layered (stepping) reservoir impounding and the long term consolidation performances...etc...where I can a demonstration tutorial for the dam shown in the presentation...thanks
Hello mam, i really want to learn material point method, i tried to compile the anura 3d code but i failed, how can i get the software n tutorial for study? thanks..
Hi, I've a problem. The moment I open the GID application interface, asks to install "KratosMultiphysics-all". But when I try to install it, the following error appears. $ pip3 install KratosMultiphysics ERROR: Could not find a version that satisfies the requirement KratosShallowWaterApplication==9.1.3 (from KratosMultiphysics-all) (from versions: none) ERROR: No matching distribution found for KratosShallowWaterApplication==9.1.3 (from KratosMultiphysics-all) OS: Linux
Thank you for your comment Karel. We can't tell you how often this happens but this kind of simulation help to minimize the possible affectations when the event occurs.
The Anura3D developer group is working on the final details to make the code open-source. In the coming months it will be possible to download the source files from www.anura3d.com
I have been trying to learn GiD Opensees for the last four months. I have watched some of your tutorial videos & tried to analyze those problems on GiD. But each & every time, a pop-out shows "Analysis has crashed" while analyzing the problem. How do I solve it? Thanks
professor, due respect, where I can find @vpapanik from @cyper89 ? also I want to mention when I work a new project during the analysis the same problem
@@hakimhotak4429 Search in this page "cyper89" and look for the vpapanik user response. He said: "Its probably because the target displacement is too large and the analysis cannot converge up to that point. Have you checked your pushover curve first ?" In any case I will contact professor Papanikolaou again. Thank you,
Its probably because the target displacement is too large and the analysis cannot converge up to that point. Have you checked your pushover curve first ?
Hola Diego, muchas gracias por su comentario. Por favor escriba su consulta a los emails que aparecen al final de la presentación para obtener más información sobre CALA. ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-0cKbwJFJ5IA.html
Hello Taher! This simulation has been done with DEMPack software bit.ly/GiDdempack. A Discrete Element Method solver connected to GiD. For further information you can contact DEMPack team www.cimne.com/3262/pgs1117/contact
There is a free limited version of GiD (full functional but limited to 10,000 mesh nodes) and you can also get a one free month password from our website: www.gidhome.com
hi. i am supposed to simulate similar thing but just a 2d motion of robot floating on water surface . can u suggest any simulation tool in matlab for that. just to give a a general idea,I have to simulate the water flow, viscousity and the robot moving towards a point located on water surface in given condition. the robot can just be represented by a general 2d shape like triangle or circle. if not matlab then suggest others but matlab is 1st priority
For Kratos you can check: github.com/KratosMultiphysics/Kratos/wiki And for GiD: www.gidhome.com/support/ and www.gidhome.com/gid-convention/gid-convention-2018/convention-courses/
Once you are in the full screen mode just press F11 again or click the right button of the mouse to show the contextual menu and select the "Switch full screen" option.
The mesh could be refined by the own solver, writing its new meshes for GiD postprocess along the time steps It is also possible to set new mesh sizes using 'background mesh' and let GiD to generate a new mesh based on these required sizes (based on the result calculated on a previous mesh, to refine where there is a big gradient of the result). See GiD help on 'Preprocessing->Mesh menu->Unstructured - Sizes by background mesh.
It's a discrete element method (DEM) simulation. Has been done with DEMPack, a CIMNE's code bit.ly/GiDdempack. Please check the video description for further information.
Hello! Tdyn is developed by Compassis. You can find information and tutorials in their official website: www.compassis.com/compass/en/Soporte Thanks for watching!