Example description

 F08YEF Example Program Results

 Number of infinite generalized singular values (K)
     1
 Number of finite generalized singular values (L)
     2
  Effective Numerical rank of (A**T B**T)**T (K+L)
     3

 Finite generalized singular values
     1.3151E+00  8.0185E-02

 Orthogonal matrix U
              1           2           3           4
 1  -1.3484E-01  5.2524E-01 -2.0924E-01  8.1373E-01
 2   6.7420E-01 -5.2213E-01 -3.8886E-01  3.4874E-01
 3   2.6968E-01  5.2757E-01 -6.5782E-01 -4.6499E-01
 4   6.7420E-01  4.1615E-01  6.1014E-01  1.5127E-15

 Orthogonal matrix V
              1           2
 1   3.5539E-01 -9.3472E-01
 2   9.3472E-01  3.5539E-01

 Orthogonal matrix Q
              1           2           3
 1  -8.3205E-01 -9.4633E-02 -5.4657E-01
 2   5.5470E-01 -1.4195E-01 -8.1985E-01
 3   0.0000E+00 -9.8534E-01  1.7060E-01

 Nonsingular upper triangular matrix R
              1           2           3
 1  -2.0569E+00 -9.0121E+00 -9.3705E+00
 2              -1.0882E+01 -7.2688E+00
 3                          -6.0405E+00

 Number of cycles of the Kogbetliantz method
     2