Simulation Settings
The Simulation Settings dialog is used to edit the solver parameters.
This dialog contains the following tabs:
Static Tab
Option  Description  

Method  Select the type of Static
solver from the drop down:


The following options are available if Force Imbalance  Type D/Type S is chosen:  
Maximum residual  This specifies the upper limit for the change in residual of the system equations at the static equilibrium point.  
Maximum imbalance  Specifies the maximum force imbalance in the equations of motion that is allowed at the solution point.  
Maximum number of iterations  Specifies the maximum number of iterations that are allowed before simulation stops.  
Stability  Specifies the fraction of the mass matrix that is to be added to the Jacobian to ensure that it is not singular.  
The following options are available if MKEAM is chosen:  
Maximum number of iterations  Specifies the maximum number of iterations that are allowed before simulation stops.  
Maximum residual kinetic energy tolerance  Specifies the maximum allowable residual kinetic energy of the system at the static equilibrium point.  
Maximum coordinate difference tolerance  This specifies the upper limit for the change in system states at the static equilibrium point. 
Transient Tab
Option  Description  

Integrator type  Select the type integrator from
the drop down:


The following common options are available for all integrators:  
Integrator tolerance  Represents the maximum absolute error per step that the integrator is allowed in computing the displacement, velocity, and differential equations states.  
Maximum step size  Defines the maximum step size the integrator is allowed to take.  
Maximum initial step size  The maximum initial step size.  
Minimum step size  Defines the minimum step size the integrator is allowed to take.  
Maximum order  Specifies the maximum order that the integrator is to take.  
Velocity tolerance fact  The factor that multiplies integr_tol to yield the error tolerance for velocity states.  
Implicit diff tolerance  Defines the accuracy to which implicit differential equations, such as Control_Diff equations with the is_implicit = "TRUE", are to be satisfied.  
The following options are specific to DSTIFF:  
DAE index  The index of the DAE formulation. Options available are: 3 or 1.  
DAE corrector max iteration  The maximum number of iterations that the corrector is allowed to take to achieve convergence.  
DAE corrector min iteration  The minimum number of iterations that the corrector is allowed to take before it checks for corrector divergence.  
DAE constraint tolerance  The tolerance on all algebraic constraint equations that the corrector must satisfy at convergence.  
Jacobian matrix evaluation  This attribute controls the Jacobian matrix evaluation during corrector iterations.  
Velocity control  The logical flag that controls whether the velocity states are checked for local integration error at each step. This option is only available in the case where the DAE index = 1.  
The following options are specific to VSTIFF/MSTIFF/ABAM:  
Constraint tolerance  Defines the accuracy to which the system configuration and motion constraints are to be satisfied at each step. 
Linear Tab
Option  Description 

Animation scale  Used for linear analysis to set the scale factor for the modal animation. 
Eigen values and vectors (.eig, .h3d)  Specifies whether the eigenvalue and eigenvector data is written to a .eig file. 
Disable damping  Specifies whether the linearization solver should disable damping from all force elements for the eigenvalue solution. 
Kinetic energy distribution  Specifies whether the modal kinetic energy distribution is written out to the solver log file and the *_linz.mrf output file. 
StateSpace matrices (Simulink MDL)  Specifies whether the A, B, C and D matrices that are calculated are to be written out in Simulink MDL format or not. 
StateSpace matrices (MATLAB)  Specifies whether the A, B, C and D matrices that are calculated are to be written out into a file that can be read in by MATLAB. 
General Tab
Option  Description 

Number of CPU cores in multiprocessor (SMP) run  Specifies the number of CPU cores to be used when multiple cores are available. This is particularly helpful in parallelizing computations in the case of Contact simulation. 