Defining frequency extraction procedures

When you have configured a step for a frequency procedure, Abaqus/Standard performs an eigenvalue extraction procedure during that step to calculate the natural frequencies and the corresponding mode shapes of a system.

When you configure a frequency step, you must choose one of the following eigenvalue extraction methods:

Lanczos

The Lanczos method is the default method because it has general capabilities. However, this method is usually slower than the AMS method. For more information, see Lanczos Eigensolver and Eigenvalue extraction.

For detailed instructions on configuring settings for the Lanczos eigenvalue extraction method, see Using the Lanczos eigensolver for a frequency extraction procedure.

Automatic multi-level substructuring (AMS)

The AMS method is an add-on analysis capability for Abaqus/Standard. The AMS method is faster than the Lanczos method, particularly when you require a large number of eigenmodes for a system with many degrees of freedom. However, the AMS method has several limitations. For more information, see Automatic Multilevel Substructuring (AMS) Eigensolver.

For detailed instructions on configuring settings for the AMS extraction method, see Using the AMS eigensolver for a frequency extraction procedure.

Subspace iteration

For the subspace iteration procedure you need only specify the number of eigenvalues required; Abaqus/Standard chooses a suitable number of vectors for the iteration. You can also specify the maximum frequency of interest; Abaqus/Standard extracts eigenvalues until either the requested number of eigenvalues has been extracted or the last frequency extracted exceeds the maximum frequency of interest. For more information, see Eigenvalue extraction.

For detailed instructions on configuring settings for the subspace iteration extraction method, see Using the subspace iteration eigensolver for a frequency extraction procedure.

For background information on frequency extraction procedures, see Natural Frequency Extraction.