Matrix: Pajek/GD00_c

Description: Pajek network: Graph Drawing contest 2000

Pajek/GD00_c graph Pajek/GD00_c graph
(bipartite graph drawing) (graph drawing of A+A')


Pajek/GD00_c
scc of Pajek/GD00_c Pajek/GD00_c graph

  • Home page of the UF Sparse Matrix Collection
  • Matrix group: Pajek
  • Click here for a description of the Pajek group.
  • Click here for a list of all matrices
  • Click here for a list of all matrix groups
  • download as a MATLAB mat-file, file size: 17 KB. Use UFget(1476) or UFget('Pajek/GD00_c') in MATLAB.
  • download in Matrix Market format, file size: 10 KB.
  • download in Rutherford/Boeing format, file size: 11 KB.

    Matrix properties
    number of rows638
    number of columns638
    nonzeros1,041
    # strongly connected comp.566
    explicit zero entries0
    nonzero pattern symmetry 2%
    numeric value symmetry 2%
    typeinteger
    structureunsymmetric
    Cholesky candidate?no
    positive definite?no

    authorGraph Drawing Contest
    editorV. Batagelj
    date2000
    kinddirected multigraph
    2D/3D problem?no

    Additional fieldssize and type
    nodenamefull 638-by-76
    coordfull 638-by-2

    Notes:

    ------------------------------------------------------------------------------
    Pajek network converted to sparse adjacency matrix for inclusion in UF sparse 
    matrix collection, Tim Davis.  For Pajek datasets, See V. Batagelj & A. Mrvar,
    http://vlado.fmf.uni-lj.si/pub/networks/data/.                                
    ------------------------------------------------------------------------------
    The original problem had 3D xyz coordinates, but all values of z were equal   
    to 0.5, and have been removed.  This graph has 2D coordinates.                
    

    SVD-based statistics:
    norm(A)9.38912
    min(svd(A))0
    cond(A)Inf
    rank(A)300
    null space dimension338
    full numerical rank?no
    singular value gap7.58099e+13

    singular values (MAT file):click here
    SVD method used:s = svd (full (A)) ;
    status:ok

    Pajek/GD00_c svd

    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.