Matrix: AG-Monien/brack2
Description: 3D finite element problem
(undirected graph drawing) |
Matrix properties | |
number of rows | 62,631 |
number of columns | 62,631 |
nonzeros | 733,118 |
structural full rank? | yes |
structural rank | 62,631 |
# of blocks from dmperm | 1 |
# strongly connected comp. | 1 |
explicit zero entries | 0 |
nonzero pattern symmetry | symmetric |
numeric value symmetry | symmetric |
type | binary |
structure | symmetric |
Cholesky candidate? | no |
positive definite? | no |
author | R. Diekmann, R. Preis |
editor | R. Diekmann, R. Preis |
date | 1998 |
kind | 2D/3D problem |
2D/3D problem? | yes |
Additional fields | size and type |
coord | full 62631-by-3 |
Notes:
AG-Monien Graph Collection, Ralf Diekmann and Robert Preis http://www2.cs.uni-paderborn.de/fachbereich/AG/monien/RESEARCH/PART/graphs.html A collection of test graphs from various sources. Many of the graphs include XY or XYZ coordinates. This set also includes some graphs from the Harwell-Boeing collection, the NASA matrices, and some random matrices which are not included here in the AG-Monien/ group of the UF Collection. In addition, two graphs already appear in other groups: AG-Monien/big : same as Nasa/barth5, Pothen/barth5 (not included here) AG-Monien/cage_3_11 : same as Pajek/GD98_c (included here) The AG-Monien/GRID subset is not included. It contains square grids that are already well-represented in the UF Collection. Six of the problem sets are included as sequences, each sequence being a single problem instance in the UF Collection: bfly: 10 butterfly graphs 3..12 cage: 45 cage graphs 3..12 cca: 10 cube-connected cycle graphs, no wrap ccc: 10 cube-connected cycle graphs, with wrap debr: 18 De Bruijn graphs se: 13 shuffle-exchange graphs Problem.aux.G{:} are the graphs in these 6 sequences. Problem.aux.Gname{:} are the original names of each graph, and Problemm.aux.Gcoord{:} are the xy or xyz coordinates of each node, if present.
Ordering statistics: | result |
nnz(chol(P*(A+A'+s*I)*P')) with AMD | 7,449,068 |
Cholesky flop count | 3.3e+09 |
nnz(L+U), no partial pivoting, with AMD | 14,835,505 |
nnz(V) for QR, upper bound nnz(L) for LU, with COLAMD | 16,746,826 |
nnz(R) for QR, upper bound nnz(U) for LU, with COLAMD | 35,214,703 |
For a description of the statistics displayed above, click here.
Maintained by Tim Davis, last updated 12-Mar-2014.
Matrix pictures by cspy, a MATLAB function in the CSparse package.
Matrix graphs by Yifan Hu, AT&T Labs Visualization Group.