Difference between revisions of "Resequence Command"
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== XML Input Files == | == XML Input Files == | ||
In <tt>XML</tt> files, the two options | In <tt>XML</tt> files, the two options are: | ||
<Resequence x='(x)' y='(y)'/> | <Resequence x='(x)' y='(y)'/> | ||
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<Resequence keypt='(id)'/> | <Resequence keypt='(id)'/> | ||
where <tt>(x)</tt>, <tt>(y)</tt>, and <tt>(id)</tt> are the same as defined [[#Scripted Input Files|above]]. | where <tt>(x)</tt>, <tt>(y)</tt>, and <tt>(id)</tt> are the same as defined [[#Scripted Input Files|above]]. Whichever method is used, it must be the ''last'' command in the single [[FEA Boundary Conditions#XML Input Files|<tt><GridBCs></tt> block]] in the file. | ||
== Notes == | == Notes == | ||
Revision as of 22:00, 11 September 2013
The Resequence command is used to renumber the numbers in an attempt to minimize the bandwidth of the problem. The smaller the bandwidth, the faster will be the FEA calculations.
Scripted Input Files
The two options in scripted input files are
Resequence (x),(y)
or
Resequence (id)
where
- (x, y) define the coordinates (in mm) for a point (or (R,Z) coordinates if axisymmetric). The resequencing will start at the one node nearest to that point.
- (id) is a previously defined keypoint. The resequencing will start at the node at that keypoint.
XML Input Files
In XML files, the two options are:
<Resequence x='(x)' y='(y)'/>
or
<Resequence keypt='(id)'/>
where (x), (y), and (id) are the same as defined above. Whichever method is used, it must be the last command in the single <GridBCs> block in the file.
Notes
- It is best to start the resequencing at a node on the boundary of the object and probably on a corner. The final bandwidth may depend on the node selected for resequencing. The bandwidth is reported in FEA output results. You can vary the resequencing node to find the minimum value.
- Another use of this command is to verify mesh connectivity. Since disconnected sections of a static FEA mesh will cause a singular stiffness matrix, the calculations will fail. If you use a Resequence command on a disconnected mesh, it will detect the problem and abort the calculations.
- The algorithm used to resequence the nodes in described in a paper by Gibbs, Poole, and Stockmeyer.[1]
References
- ↑ N. E. Gibbs, W. G. Poole, and P. K. Stockmeyer, "An Algorithm for Reducing the Bandwidth and Profile of a Sparse Matrix," SIAM Journal of Numerical Analysis, 13, 236-250 (1976).