LPnetlib/lp_scorpion sparse matrix

Matrix: LPnetlib/lp_scorpion

Description: Netlib LP problem scorpion: minimize c'*x, where Ax=b, lo<=x<=hi

(bipartite graph drawing)

LPnetlib/lp_scorpion dmperm of LPnetlib/lp_scorpion

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Matrix group: LPnetlib

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download as a MATLAB mat-file, file size: 6 KB. Use UFget(673) or UFget('LPnetlib/lp_scorpion') in MATLAB.

download in Matrix Market format, file size: 8 KB.

download in Rutherford/Boeing format, file size: 6 KB.

Matrix properties

number of rows 388

number of columns 466

nonzeros 1,534

structural full rank? yes

structural rank 388

# of blocks from dmperm 110

# strongly connected comp. 1

explicit zero entries 0

nonzero pattern symmetry 0%

numeric value symmetry 0%

type real

structure rectangular

Cholesky candidate? no

positive definite? no

author J. Ho, E. Loute
editor R. Fourer
date 1981
kind linear programming problem
2D/3D problem? no

Additional fields size and type

b full 388-by-1

c full 466-by-1

lo full 466-by-1

hi full 466-by-1

z0 full 1-by-1

Notes:

A Netlib LP problem, in lp/data.  For more information                    
send email to netlib@ornl.gov with the message:                           
                                                                          
	 send index from lp                                                      
	 send readme from lp/data                                                
                                                                          
The following are relevant excerpts from lp/data/readme (by David M. Gay):
                                                                          
The column and nonzero counts in the PROBLEM SUMMARY TABLE below exclude  
slack and surplus columns and the right-hand side vector, but include     
the cost row.  We have omitted other free rows and all but the first      
right-hand side vector, as noted below.  The byte count is for the        
MPS compressed file; it includes a newline character at the end of each   
line.  These files start with a blank initial line intended to prevent    
mail programs from discarding any of the data.  The BR column indicates   
whether a problem has bounds or ranges:  B stands for "has bounds", R     
for "has ranges".                                                         
                                                                          
The optimal value is from MINOS version 5.3 (of Sept. 1988)               
running on a VAX with default options.                                    
                                                                          
                       PROBLEM SUMMARY TABLE                              
                                                                          
Name       Rows   Cols   Nonzeros    Bytes  BR      Optimal Value         
SCORPION    389    358     1708      12186        1.8781248227E+03        
                                                                          
Supplied by Bob Fourer.                                                   
When included in Netlib: Extra free rows omitted.                         
                                                                          
Source: J.K. Ho and E. Loute, "A Set of Staircase Linear Programming      
Test Problems", Math. Prog. 20 (1981), pp. 245-250.

Ordering statistics: result

nnz(V) for QR, upper bound nnz(L) for LU, with COLAMD 6,563

nnz(R) for QR, upper bound nnz(U) for LU, with COLAMD 3,332

SVD-based statistics:

norm(A) 3.79145

min(svd(A)) 2.58455e-16

cond(A) 1.46697e+16

rank(A) 358

sprank(A)-rank(A) 30

null space dimension 30

full numerical rank? no

singular value gap 2.89545e+13

singular values (MAT file): click here

SVD method used: s = svd (full (A)) ;

status: ok

LPnetlib/lp_scorpion 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.

Matrix properties
number of rows	388
number of columns	466
nonzeros	1,534
structural full rank?	yes
structural rank	388
# of blocks from dmperm	110
# strongly connected comp.	1
explicit zero entries	0
nonzero pattern symmetry	0%
numeric value symmetry	0%
type	real
structure	rectangular
Cholesky candidate?	no
positive definite?	no

author	J. Ho, E. Loute
editor	R. Fourer
date	1981
kind	linear programming problem
2D/3D problem?	no

Additional fields	size and type
b	full 388-by-1
c	full 466-by-1
lo	full 466-by-1
hi	full 466-by-1
z0	full 1-by-1

Ordering statistics:	result
nnz(V) for QR, upper bound nnz(L) for LU, with COLAMD	6,563
nnz(R) for QR, upper bound nnz(U) for LU, with COLAMD	3,332

SVD-based statistics:
norm(A)	3.79145
min(svd(A))	2.58455e-16
cond(A)	1.46697e+16
rank(A)	358
sprank(A)-rank(A)	30
null space dimension	30
full numerical rank?	no
singular value gap	2.89545e+13

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