Hey everyone, I get the following error message when I try to run a solution in ICEPAK: Error: Problems found in mesh by Solver, Not Starting solver
Sequential local mesh refinementIterative solverNon-linear systemConvergence failure and slow convergence rates are among the biggest challenges with solving the system of non-linear equations numerically. Although mitigated, such issues still linger when using strictly small time steps and unconditionally ...
The problem I am facing is that when volume mesh is generated, the error is found during assembling mesh, which shows "Cannot find ngeom file:- TMP6_S~1\procadmesh.ngeom. Dualising mesh has failed." After further looking in log file, the message in detail as follows is found ...
- Deactivate "[ ] Export mesh to solver" <== Plot Only If you do not know where to find 2D mesh, try to use "Command Finder" . After meshing the polygon faces the solid mesh will be updated by means of now existing surface mesh. And hopefully it works now. Of course you can def...
In fact, the solver might not converge at all if the mesh in these regions is too coarse. For these types of problems, adaptive mesh refinement becomes highly motivated, since the locations of the gradients in the modeling domain are generally not known ahead of time. Ramping of the ...
what do this mean in the direct solver setting? Will it be useful for saving memory if I turn on the option? 2,Parameterized geometry We want to simulate the mobile induction heating process, and by now it's known that sweeping Parameterized geometry and ALE(moving mesh...
It was found that the performance of the black-box multigrid solver is significantly higher (from 7x to 30x in terms of CPU time depending on the mesh resolution) as compared to the closest solver under consideration, which allows us to recommend this solver for implementation into existing 2D...
the computers listed above (computers 1, 4, 5, and 6). The new benchmark tests show no significant difference compared to 5.2. We understand there are some enhancements in 5.3 that will permit better performance after better optimization of the mesh and solver. We have not yet explored that...
I have a submodel boundary condition driving the edges of the model as shown in the picture, but the top surface isn't displaced by the rigid body at all. (i realise the mesh is very coarse but that's just so I can debug faster for now) I've attached image of 2) and 4) to ...
Another interesting research on the use of deep learning in metaheuristics is the concept of surrogacy, which allows a learning mechanism to learn the behavioral pattern of objective functions to improve the solver. Interestingly, deep learning algorithms have been used as surrogate models for solving...