Integrator Command: Difference between revisions
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(New page: This command is used to construct the Integrator object. The Integrator object determines the meaning of the terms in the system of equation object Ax=B. The Integrator object is used for...) |
(Add new Integrator: Explicit difference) |
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{{CommandManualMenu}} | |||
This command is used to construct the Integrator object. The Integrator object determines the meaning of the terms in the system of equation object Ax=B. | This command is used to construct the Integrator object. The Integrator object determines the meaning of the terms in the system of equation object Ax=B. | ||
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* specify the tangent matrix and residual vector at any iteration | * specify the tangent matrix and residual vector at any iteration | ||
* determine the corrective step based on the displacement increment dU | * determine the corrective step based on the displacement increment dU | ||
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Transient Integrators: | Transient Integrators: | ||
*[[Central Difference]] | |||
*[[Newmark Method]] | |||
*[[Hilber-Hughes-Taylor Method]] | |||
*[[Generalized Alpha Method]] | |||
*[[TRBDF2]] | |||
*[[Explicit Difference]] |
Latest revision as of 19:15, 13 June 2017
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This command is used to construct the Integrator object. The Integrator object determines the meaning of the terms in the system of equation object Ax=B.
The Integrator object is used for the following:
* determine the predictive step for time t+dt * specify the tangent matrix and residual vector at any iteration * determine the corrective step based on the displacement increment dU
The type of integrator used in the analysis is dependent on whether it is a static analysis or transient analysis.
Static Integrators:
Transient Integrators: