Solver Settings in Creo Ansys Simulation
Default solver settings are available when you open the application. Most of the time you can use the default settings but for some advanced simulations you might need to adjust the default solver setting to improve performance and improve the chances of convergence. You can change settings for a particular simulation study. Click > to open the Solver Settings dialog box. The following settings are available:
• General Solver Settings: The default values of these settings are defined on the Simulation page of the Creo Parametric Options dialog box.
◦ Solver Type—Select the default type of Ansys solver to be used:
Automatic—This is the default value. Selects the most appropriate solver for the model.
| This option is recommended, unless directed to change to address specific convergence or performance issues. |
◦ Contact Gap/Overlap—Selects the default behavior of the solver when it detects gaps or overlaps at contact interfaces. Warn—This is the default value. The solver warns about gaps or overlaps at contact interfaces before solving.
◦ Newton Raphson method—Specifies options for the Newton-Raphson method of convergence.
Automatic—Default Value. Allows the solver to select the best solution.
| This option is recommended, unless directed to change to address specific convergence or performance issues. |
◦ Large Deflection—Specifies whether solver calculations must consider large deflections and rotations, or assume there are only small deflections in the model. This option is only available for structural simulation studies. It has the following options:
▪ Off—By default this is the selected option. The solver calculations assume there are no large deflections in the model.
▪ On—Select this option so that solver calculations always assume that there are large deflections and rotations in the model.
◦ Normal Modes—Specifies the number of natural frequencies to solve for in a modal simulation study. The default is to extract the first six natural frequencies.
This option is only available for modal studies.
◦ Simulation Steps—Specifies the number of simulation steps for a solution. These settings are optional and are applicable to structural simulation studies only.
• Step Options—Defines the solution options for each step.
◦ Simulation Step—Selects Step number as Step 1, Step 2 etc. It depends on the number of steps defined in Simulation Steps.
◦ Substepping—Defines the method to be used for the selected solution step.
▪ Method—Select one of the following methods:
▪ Automatic—Allows the solver to control the selection of substeps.
▪ Manual—Specifies the number of substeps manually.
▪ Adaptive—Specifies initial, minimum, and maximum substeps, and varies the solution stepping within this range.
▪ Initial Substeps—Defines the initial number of substeps. Specify positive integers as the value. The default value is 1. Available for Manual and Adaptive methods of substepping.
▪ Minimum Substeps—Defines the minimum number of substeps. Specify positive integers as the value. The default value is 1. Available only for Adaptive method of substepping.
▪ Maximum Substeps—Defines the maximum number of substeps. Specify positive integers as the value. The default value is 10. Available only for Adaptive method of substepping.
◦ Force Convergence—This option is for structural simulations only. For thermal studies the tab is named Heat Convergence.
▪ Method—Select one of the methods for force convergence in your solution:
▪ Automatic—Allows convergence values to be calculated automatically.
▪ Manual—Enables you to specify convergence values manually.
▪ Off—Doesn’t check for convergence of the solution.
▪ Tolerance—Specify tolerance as a percentage value.
▪ Ref Value—Specify real numbers with a default value of 1.
Tolerance times Ref Value determines the convergence criterion.
• Reset—Click the Reset button to restore the default settings for all the options in the Solver Settings dialog box.