• SJSU Singular Matrix Database
  • Matrix group: JGD_G5
  • Click here for a description of the JGD_G5 group.
  • Click here for a list of all matrices
  • Click here for a list of all matrix groups

  • Matrix: JGD_G5/IG5-10
  • Description: Decomposable subspaces at degree d of the invariant ring of G5, Nicolas Thiery.
  • download as a MATLAB mat-file, file size: 25 KB. Use SJget(619) or SJget('JGD_G5/IG5-10') in MATLAB.
  • download in Matrix Market format, file size: 27 KB.
  • download in Rutherford/Boeing format, file size: 19 KB.


    Routine svd from Matlab (R2008a) used to calculate the singular values.


    dmperm of JGD_G5/IG5-10

    scc of JGD_G5/IG5-10

    Matrix properties (click for a legend)  
    number of rows652
    number of columns976
    structural full rank?no
    structural rank527
    numerical rank 527
    dimension of the numerical null space449
    numerical rank / min(size(A))0.80828
    Euclidean norm of A 161.8
    calculated singular value # 5270.038626
    numerical rank defined using a tolerance
    max(size(A))*eps(norm(A)) =
    calculated singular value # 5281.5544e-014
    gap in the singular values at the numerical rank:
    singular value # 527 / singular value # 528
    calculated condition number2.3169e+017
    # of blocks from dmperm2
    # strongly connected comp.450
    explicit zero entries0
    nonzero pattern symmetry 0%
    numeric value symmetry 0%
    Cholesky candidate?no
    positive definite?no

    authorN. Thiery
    editorJ.-G. Dumas
    kindcombinatorial problem
    2D/3D problem?no


    Decomposable subspaces at degree d of the invariant ring of G5, Nicolas Thiery.
    Univ. Paris Sud.                                                               
    From Jean-Guillaume Dumas' Sparse Integer Matrix Collection,                   
    Linear Algebra for combinatorics                                               
    Abstract:  Computations in algebraic combinatorics often boils down to         
    sparse linear algebra over some exact field. Such computations are             
    usually done in high level computer algebra systems like MuPAD or              
    Maple, which are reasonnably efficient when the ground field requires          
    symbolic computations. However, when the ground field is, say Q  or            
    Z/pZ, the use of external specialized libraries becomes necessary. This        
    document, geared toward developpers of such libraries, present a brief         
    overview of my needs, which seems to be fairly typical in the                  
    IG5-6: 30 x 77 : rang = 30  (Iteratif: 0.01 s, Gauss: 0.01 s)                  
    IG5-7: 62 x 150 : rang = 62  (Iteratif: 0.02 s, Gauss: 0.01 s)                 
    IG5-8: 156 x 292 : rang = 154  (Iteratif: 0.08 s, Gauss: 0.01 s)               
    IG5-9: 342 x 540 : rang = 308  (Iteratif: 0.46 s, Gauss: 0.02 s)               
    IG5-10: 652 x 976 : rang = 527  (Iteratif: 2.1 s, Gauss: 0.07 s)               
    IG5-11: 1227 x 1692 : rang = 902  (Iteratif: 7.5 s, Gauss: 0.22 s)             
    IG5-12: 2296 x 2875 : rang = 1578  (Iteratif: 26 s, Gauss: 0.93 s)             
    IG5-13: 3994 x 4731 : rang = 2532  (Iteratif: 80 s, Gauss: 3.35 s)             
    IG5-14: 6727 x 7621 : rang = 3906  (Iteratif: 244 s, Gauss: 10.06 s)           
    IG5-15: 11358 x 11987 : rang = 6146  (Iteratif: s, Gauss: 29.74 s)             
    IG5-16: 18485 x 18829 : rang = 9519  (Iteratif: s, Gauss: 621.97 s)            
    IG5-17: 27944 x 30131 : rang = 14060  (Iteratif: s, Gauss: 1973.8 s)           
    Filename in JGD collection: G5/IG5-10.txt2                                     

    Ordering statistics:AMD METIS
    nnz(V) for QR, upper bound nnz(L) for LU70,907 34,821
    nnz(R) for QR, upper bound nnz(U) for LU164,511 174,099

    Maintained by Leslie Foster, last updated 24-Apr-2009.

    Entries 5 through 14 in the table of matrix properties and the singular
    value plot were created using SJsingular code. The other plots
    and statistics are produced using utilities from the SuiteSparse package.
    Matrix color plot pictures by cspy, a MATLAB function in the CSparse package.