JGD_Kocay/Trec13 | SuiteSparse Matrix Collection

Brute force disjoint product matrices in tree algebra on n nodes, Nicolas Thiery

Name	Trec13
Group	JGD_Kocay
Matrix ID	2147
Num Rows	1,301
Num Cols	6,561
Nonzeros	654,517
Pattern Entries	654,517
Kind	Combinatorial Problem
Symmetric	No
Date	2008
Author	N. Thiery
Editor	J.-G. Dumas

Connected Components of the Bipartite Graph of JGD_Kocay/Trec13

Force-Directed Graph Visualization of JGD_Kocay/Trec13

Structural Rank	1,301
Structural Rank Full	true
Num Dmperm Blocks	1
Strongly Connect Components	2
Num Explicit Zeros	0
Pattern Symmetry	0%
Numeric Symmetry	0%
Cholesky Candidate	no
Positive Definite	no
Type	integer

SVD Statistics
Matrix Norm	2.497583e+03
Minimum Singular Value	3.897317e-14
Condition Number	6.408467e+16
Rank	1,295
sprank(A)-rank(A)	6
Null Space Dimension	6
Full Numerical Rank?	no
Download Singular Values	MATLAB

Download	MATLAB Rutherford Boeing Matrix Market
Notes	Brute force disjoint product matrices in tree algebra on n nodes, Nicolas Thiery From Jean-Guillaume Dumas' Sparse Integer Matrix Collection, http://ljk.imag.fr/membres/Jean-Guillaume.Dumas/simc.html http://www.lapcs.univ-lyon1.fr/~nthiery/LinearAlgebra 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 community. Filename in JGD collection: Kocay/Trec13.txt2

Download

MATLAB Rutherford Boeing Matrix Market

Notes

Brute force disjoint product matrices in tree algebra on n nodes, Nicolas Thiery
From Jean-Guillaume Dumas' Sparse Integer Matrix Collection,                    
http://ljk.imag.fr/membres/Jean-Guillaume.Dumas/simc.html                       
                                                                                
http://www.lapcs.univ-lyon1.fr/~nthiery/LinearAlgebra                           
                                                                                
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                   
community.                                                                      
                                                                                
Filename in JGD collection: Kocay/Trec13.txt2