************************************************************

CalculiX version 2.8p2, Copyright(C) 1998-2015 Guido Dhondt
CalculiX comes with ABSOLUTELY NO WARRANTY. This is free
software, and you are welcome to redistribute it under
certain conditions, see gpl.htm

************************************************************
     Built for 64 bit Windows by Convergent Mechanical
       For the latest version go to: bConverged.com
************************************************************

You are using an executable made on Fri May  1 09:38:01 PDT 2015
 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 increment 1 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=0.000000e+00
 actual step time=5.000000e-01
 actual total time=5.000000e-01

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 792 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 6.000000e-04 in node 188 and dof 2

 no convergence

 iteration 2

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 751 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 6.251701e-17 in node 179 and dof 2

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 2 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=5.000000e-01
 actual step time=1.000000e+00
 actual total time=1.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 351 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 6.832872e-19 in node 175 and dof 2

 no convergence

 iteration 2

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 809 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 4.079632e-19 in node 175 and dof 2

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 3 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=1.000000e+00
 actual step time=1.500000e+00
 actual total time=1.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 802 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 1.542686e-18 in node 253 and dof 2

 no convergence

 iteration 2

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 777 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 1.048072e-18 in node 176 and dof 2

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 4 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=1.500000e+00
 actual step time=2.000000e+00
 actual total time=2.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 751 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 1.807460e-18 in node 179 and dof 2

 no convergence

 iteration 2

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 747 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 1.160907e-18 in node 179 and dof 2

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 5 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=2.000000e+00
 actual step time=2.500000e+00
 actual total time=2.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000000
 time avg. forc= 0.010000
 largest residual force= 0.000000 in node 753 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 2.530328e-18 in node 218 and dof 2

 no convergence

 iteration 2

 Number of contact spring elements=1771

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73437

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.008579
 time avg. forc= 0.008579
 largest residual force= 19.905964 in node 406 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 1.211070e-04 in node 850 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=1620

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73356

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.998559

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.015246
 time avg. forc= 0.015246
 largest residual force= 2.678772 in node 2 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 9.756746e-05 in node 689 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=1055

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72501

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.011621
 time avg. forc= 0.011621
 largest residual force= 0.730507 in node 128 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 5.916937e-05 in node 821 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=708

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72330

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.536156

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.011824
 time avg. forc= 0.011824
 largest residual force= 0.793610 in node 128 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 6.308716e-05 in node 638 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=613

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72330

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.010196
 time avg. forc= 0.010196
 largest residual force= 0.550269 in node 129 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 5.125406e-05 in node 638 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=459

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72123

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.005411
 time avg. forc= 0.005411
 largest residual force= 0.046617 in node 128 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 1.661604e-05 in node 820 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=342

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71976

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.006057
 time avg. forc= 0.006057
 largest residual force= 0.003832 in node 128 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 4.859641e-06 in node 820 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=289

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71895

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.975331

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.006597
 time avg. forc= 0.006597
 largest residual force= 0.000143 in node 827 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 3.507189e-07 in node 589 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=272

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71832

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000009

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.006793
 time avg. forc= 0.006793
 largest residual force= 0.000000 in node 883 and dof 1
 largest increment of disp= 6.000000e-04
 largest correction to disp= 2.295755e-08 in node 577 and dof 1

 no convergence

 iteration 11

 Number of contact spring elements=270

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71832

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000001

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.006817
 time avg. forc= 0.006817
 largest residual force= 0.000000 in node 801 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 9.036648e-11 in node 577 and dof 1

 no convergence

 iteration 12

 Number of contact spring elements=270

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71832

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.934783

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.006817
 time avg. forc= 0.006817
 largest residual force= 0.000000 in node 792 and dof 2
 largest increment of disp= 6.000000e-04
 largest correction to disp= 9.699386e-17 in node 577 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 6 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=2.500000e+00
 actual step time=3.000000e+00
 actual total time=3.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.023663
 time avg. forc= 0.015240
 largest residual force= 0.500148 in node 2 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 6.540837e-05 in node 589 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=1494

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72993

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.011547
 time avg. forc= 0.009182
 largest residual force= 19.622061 in node 406 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 1.195164e-04 in node 140 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=1361

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72912

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.998955

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.018332
 time avg. forc= 0.012575
 largest residual force= 2.728497 in node 2 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 9.916363e-05 in node 731 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=884

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72453

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.603213

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.017329
 time avg. forc= 0.012073
 largest residual force= 1.087677 in node 2 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 9.101048e-05 in node 818 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=699

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72075

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000237

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.017464
 time avg. forc= 0.012141
 largest residual force= 0.760388 in node 128 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 7.248212e-05 in node 819 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=354

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70920

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.017128
 time avg. forc= 0.011973
 largest residual force= 0.113434 in node 129 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 2.818197e-05 in node 638 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=218

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70758

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.020461
 time avg. forc= 0.013639
 largest residual force= 0.014058 in node 128 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 8.785606e-06 in node 820 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=173

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70677

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.006242

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.022375
 time avg. forc= 0.014596
 largest residual force= 0.000046 in node 126 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 5.859536e-07 in node 589 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=168

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70677

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000033

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.022615
 time avg. forc= 0.014716
 largest residual force= 0.000000 in node 129 and dof 1
 largest increment of disp= 6.000260e-04
 largest correction to disp= 2.363766e-09 in node 577 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=168

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70677

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999993

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.022615
 time avg. forc= 0.014716
 largest residual force= 0.000000 in node 773 and dof 2
 largest increment of disp= 6.000260e-04
 largest correction to disp= 1.127190e-13 in node 577 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 7 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=3.000000e+00
 actual step time=3.500000e+00
 actual total time=3.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.052648
 time avg. forc= 0.027360
 largest residual force= 0.585709 in node 2 and dof 1
 largest increment of disp= 6.001120e-04
 largest correction to disp= 6.376613e-05 in node 586 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=339

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70767

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.025056
 time avg. forc= 0.018163
 largest residual force= 0.493255 in node 406 and dof 1
 largest increment of disp= 6.001120e-04
 largest correction to disp= 2.094740e-05 in node 599 and dof 2

 no convergence

 iteration 3

 Number of contact spring elements=317

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70767

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.005063

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.026267
 time avg. forc= 0.018566
 largest residual force= 0.065544 in node 1 and dof 1
 largest increment of disp= 6.001120e-04
 largest correction to disp= 1.630467e-05 in node 599 and dof 2

 no convergence

 iteration 4

 Number of contact spring elements=231

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70767

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.030246
 time avg. forc= 0.019893
 largest residual force= 0.000738 in node 406 and dof 1
 largest increment of disp= 6.001120e-04
 largest correction to disp= 2.035841e-06 in node 577 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=213

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70767

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000008

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.031307
 time avg. forc= 0.020246
 largest residual force= 0.000000 in node 883 and dof 1
 largest increment of disp= 6.001120e-04
 largest correction to disp= 6.561890e-08 in node 577 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=213

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70767

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.031307
 time avg. forc= 0.020246
 largest residual force= 0.000000 in node 761 and dof 2
 largest increment of disp= 6.001120e-04
 largest correction to disp= 3.378027e-12 in node 577 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 8 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=3.500000e+00
 actual step time=4.000000e+00
 actual total time=4.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.068936
 time avg. forc= 0.032419
 largest residual force= 1.467680 in node 2 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 1.027116e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=728

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71658

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.021878
 time avg. forc= 0.020654
 largest residual force= 3.904733 in node 403 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 3.923496e-05 in node 851 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=649

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71658

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.001150

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.022814
 time avg. forc= 0.020888
 largest residual force= 0.299027 in node 63 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 3.213830e-05 in node 850 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=359

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70524

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.032018
 time avg. forc= 0.023189
 largest residual force= 0.502112 in node 403 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 1.441295e-05 in node 589 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=332

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70524

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000256

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.032786
 time avg. forc= 0.023381
 largest residual force= 0.013362 in node 882 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 1.174724e-05 in node 589 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=225

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70479

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.824908

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.039381
 time avg. forc= 0.025030
 largest residual force= 0.012869 in node 405 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 3.312321e-06 in node 589 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=200

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70479

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000032

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.041350
 time avg. forc= 0.025522
 largest residual force= 0.000053 in node 862 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 8.402513e-07 in node 589 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=196

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70479

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000210

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.041684
 time avg. forc= 0.025606
 largest residual force= 0.000000 in node 112 and dof 1
 largest increment of disp= 6.001864e-04
 largest correction to disp= 4.954923e-09 in node 589 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=196

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70479

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.041684
 time avg. forc= 0.025606
 largest residual force= 0.000000 in node 792 and dof 2
 largest increment of disp= 6.001864e-04
 largest correction to disp= 1.008544e-12 in node 589 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 9 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=4.000000e+00
 actual step time=4.500000e+00
 actual total time=4.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.091432
 time avg. forc= 0.038771
 largest residual force= 2.980087 in node 2 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 1.524095e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=1003

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72012

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.023437
 time avg. forc= 0.025172
 largest residual force= 11.131850 in node 403 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 7.186753e-05 in node 599 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=951

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71850

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.001551

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.021713
 time avg. forc= 0.024827
 largest residual force= 0.845092 in node 2 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 5.771835e-05 in node 846 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=589

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71406

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.027788
 time avg. forc= 0.026042
 largest residual force= 0.056941 in node 883 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 3.042834e-05 in node 589 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=316

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70641

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.985906

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.039738
 time avg. forc= 0.028432
 largest residual force= 0.005608 in node 122 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 8.700177e-06 in node 638 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=242

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70641

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.001599

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.045143
 time avg. forc= 0.029513
 largest residual force= 0.000224 in node 22 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 1.850969e-06 in node 589 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=229

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70641

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999669

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.046254
 time avg. forc= 0.029735
 largest residual force= 0.000001 in node 405 and dof 1
 largest increment of disp= 6.002091e-04
 largest correction to disp= 7.601884e-08 in node 589 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=229

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70641

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.046254
 time avg. forc= 0.029735
 largest residual force= 0.000000 in node 750 and dof 2
 largest increment of disp= 6.002091e-04
 largest correction to disp= 2.727052e-11 in node 589 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 10 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=4.500000e+00
 actual step time=5.000000e+00
 actual total time=5.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.131084
 time avg. forc= 0.046627
 largest residual force= 6.001008 in node 882 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 2.224762e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=1167

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72312

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.029971
 time avg. forc= 0.029775
 largest residual force= 19.738840 in node 404 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 1.131460e-04 in node 644 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=1087

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72312

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.002218

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.024928
 time avg. forc= 0.028934
 largest residual force= 1.692201 in node 2 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 9.381476e-05 in node 599 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=746

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71934

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.027286
 time avg. forc= 0.029327
 largest residual force= 0.147150 in node 883 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 4.793206e-05 in node 819 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=499

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71565

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.946273

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.034456
 time avg. forc= 0.030522
 largest residual force= 0.036820 in node 404 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 1.594367e-05 in node 589 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=375

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71517

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.002214

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.040702
 time avg. forc= 0.031563
 largest residual force= 0.000978 in node 22 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 3.951965e-06 in node 638 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=328

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71517

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.996901

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.043750
 time avg. forc= 0.032071
 largest residual force= 0.000039 in node 405 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 3.857384e-07 in node 589 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=324

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71517

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000006

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.044031
 time avg. forc= 0.032118
 largest residual force= 0.000000 in node 22 and dof 1
 largest increment of disp= 6.002113e-04
 largest correction to disp= 5.251377e-09 in node 589 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=324

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71517

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000007

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.044031
 time avg. forc= 0.032118
 largest residual force= 0.000000 in node 801 and dof 2
 largest increment of disp= 6.002113e-04
 largest correction to disp= 2.065337e-14 in node 586 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 11 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=5.000000e+00
 actual step time=5.500000e+00
 actual total time=5.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.222713
 time avg. forc= 0.059346
 largest residual force= 12.243935 in node 882 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 3.310248e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=1286

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72069

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.045340
 time avg. forc= 0.034007
 largest residual force= 40.712429 in node 404 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 1.732871e-04 in node 599 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=1188

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72069

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.003530

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.032311
 time avg. forc= 0.032145
 largest residual force= 3.262797 in node 2 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 1.430050e-04 in node 644 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=684

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71817

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.970980

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.034413
 time avg. forc= 0.032446
 largest residual force= 0.514230 in node 882 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 7.725101e-05 in node 577 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=494

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71817

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.037945
 time avg. forc= 0.032950
 largest residual force= 0.074224 in node 107 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 3.208931e-05 in node 589 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=400

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71466

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.042464
 time avg. forc= 0.033596
 largest residual force= 0.006258 in node 724 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 8.322327e-06 in node 639 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=362

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71304

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.995828

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.044888
 time avg. forc= 0.033942
 largest residual force= 0.000098 in node 122 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 7.180555e-07 in node 577 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=359

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71259

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000012

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.045093
 time avg. forc= 0.033971
 largest residual force= 0.000000 in node 106 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 8.051866e-09 in node 577 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=359

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71259

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000004

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.045093
 time avg. forc= 0.033971
 largest residual force= 0.000000 in node 808 and dof 1
 largest increment of disp= 6.002006e-04
 largest correction to disp= 5.610052e-14 in node 600 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 12 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=5.500000e+00
 actual step time=6.000000e+00
 actual total time=6.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.490331
 time avg. forc= 0.091016
 largest residual force= 28.110729 in node 883 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 5.227443e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=1694

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73647

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.073788
 time avg. forc= 0.038949
 largest residual force= 64.537173 in node 382 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 2.773618e-04 in node 644 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=1478

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72402

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.006533

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.045241
 time avg. forc= 0.035380
 largest residual force= 6.952921 in node 882 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 2.281938e-04 in node 599 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=923

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72150

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.532600

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.044494
 time avg. forc= 0.035287
 largest residual force= 3.648916 in node 882 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 1.346464e-04 in node 639 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=790

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72069

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.003150

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.034635
 time avg. forc= 0.034054
 largest residual force= 0.680763 in node 113 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 8.908395e-05 in node 638 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=495

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71295

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.039750
 time avg. forc= 0.034694
 largest residual force= 0.080086 in node 129 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 3.184984e-05 in node 820 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=239

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70488

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.057875
 time avg. forc= 0.036959
 largest residual force= 0.019047 in node 724 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 1.130909e-05 in node 819 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=175

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70281

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065597
 time avg. forc= 0.037925
 largest residual force= 0.000237 in node 404 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 9.179462e-07 in node 577 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=174

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70281

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065735
 time avg. forc= 0.037942
 largest residual force= 0.000000 in node 883 and dof 1
 largest increment of disp= 6.001776e-04
 largest correction to disp= 4.755271e-09 in node 577 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=174

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70281

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999977

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065735
 time avg. forc= 0.037942
 largest residual force= 0.000000 in node 750 and dof 2
 largest increment of disp= 6.001776e-04
 largest correction to disp= 3.836442e-14 in node 577 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 13 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=6.000000e+00
 actual step time=6.500000e+00
 actual total time=6.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 1.483058
 time avg. forc= 0.198510
 largest residual force= 80.071088 in node 883 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 9.145887e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=2394

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73650

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.152331
 time avg. forc= 0.050652
 largest residual force= 130.275288 in node 382 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 4.723606e-04 in node 599 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=2131

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73650

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.076066
 time avg. forc= 0.042178
 largest residual force= 14.728851 in node 882 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 3.891900e-04 in node 644 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=1186

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72171

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.334577

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.089059
 time avg. forc= 0.043622
 largest residual force= 13.276334 in node 404 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 2.533098e-04 in node 638 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=1050

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72009

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.992224

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.053332
 time avg. forc= 0.039652
 largest residual force= 4.479358 in node 883 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 1.969320e-04 in node 638 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=652

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71505

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.038603
 time avg. forc= 0.038015
 largest residual force= 0.350602 in node 107 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 6.839228e-05 in node 637 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=288

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70371

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.852987

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.063685
 time avg. forc= 0.040802
 largest residual force= 0.688692 in node 724 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 6.028754e-05 in node 819 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=221

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70371

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.061248
 time avg. forc= 0.040532
 largest residual force= 0.057048 in node 128 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 1.658728e-05 in node 819 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=192

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70371

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.064483
 time avg. forc= 0.040891
 largest residual force= 0.005031 in node 724 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 4.203896e-06 in node 819 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=186

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70371

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000708

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065273
 time avg. forc= 0.040979
 largest residual force= 0.000002 in node 724 and dof 1
 largest increment of disp= 9.145887e-04
 largest correction to disp= 6.929912e-08 in node 820 and dof 1

 no convergence

 iteration 11

 Number of contact spring elements=186

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70371

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999999

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065273
 time avg. forc= 0.040979
 largest residual force= 0.000000 in node 324 and dof 2
 largest increment of disp= 9.145887e-04
 largest correction to disp= 8.686927e-11 in node 638 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 14 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=6.500000e+00
 actual step time=7.000000e+00
 actual total time=7.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 4.910755
 time avg. forc= 0.527956
 largest residual force= 240.028982 in node 883 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 1.631208e-03 in node 638 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=3022

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 74826

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.389543
 time avg. forc= 0.075835
 largest residual force= 221.662348 in node 396 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 8.159176e-04 in node 599 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=2868

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 74697

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.148677
 time avg. forc= 0.051749
 largest residual force= 38.178674 in node 883 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 6.842945e-04 in node 599 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=1496

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73461

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.621427

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.157773
 time avg. forc= 0.052658
 largest residual force= 22.751287 in node 883 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 4.899305e-04 in node 589 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=1116

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72495

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.056616
 time avg. forc= 0.042542
 largest residual force= 11.103486 in node 883 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 2.038455e-04 in node 589 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=591

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71640

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.821267

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065344
 time avg. forc= 0.043415
 largest residual force= 2.908830 in node 128 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 1.411547e-04 in node 638 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=380

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70713

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.054878
 time avg. forc= 0.042369
 largest residual force= 0.616916 in node 128 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 6.073108e-05 in node 638 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=254

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70551

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.063361
 time avg. forc= 0.043217
 largest residual force= 0.530086 in node 724 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 4.322987e-05 in node 638 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=190

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.064051
 time avg. forc= 0.043286
 largest residual force= 0.022484 in node 128 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 9.795935e-06 in node 638 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=179

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065441
 time avg. forc= 0.043425
 largest residual force= 0.000986 in node 724 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 1.890305e-06 in node 820 and dof 1

 no convergence

 iteration 11

 Number of contact spring elements=179

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000003

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.065440
 time avg. forc= 0.043425
 largest residual force= 0.000000 in node 128 and dof 1
 largest increment of disp= 1.631208e-03
 largest correction to disp= 2.427533e-09 in node 821 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 15 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=7.000000e+00
 actual step time=7.500000e+00
 actual total time=7.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 5.749256
 time avg. forc= 0.562137
 largest residual force= 276.106037 in node 883 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 1.758996e-03 in node 819 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=2906

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 75030

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.467732
 time avg. forc= 0.081998
 largest residual force= 236.269249 in node 395 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 8.432080e-04 in node 688 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=2807

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 74760

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.173134
 time avg. forc= 0.055217
 largest residual force= 51.806120 in node 24 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 7.231638e-04 in node 688 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=1585

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73395

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.555354

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.185427
 time avg. forc= 0.056334
 largest residual force= 27.546048 in node 883 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 5.753107e-04 in node 589 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=1259

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73152

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.063636
 time avg. forc= 0.045262
 largest residual force= 13.995842 in node 883 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 2.508104e-04 in node 589 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=594

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70875

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.884528

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.071023
 time avg. forc= 0.045934
 largest residual force= 3.940768 in node 129 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 1.620730e-04 in node 821 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=349

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70416

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.055302
 time avg. forc= 0.044505
 largest residual force= 0.565549 in node 129 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 6.193603e-05 in node 589 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=242

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.995406

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.066423
 time avg. forc= 0.045516
 largest residual force= 0.826684 in node 724 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 5.183578e-05 in node 820 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=205

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.059231
 time avg. forc= 0.044862
 largest residual force= 0.022135 in node 129 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 9.800136e-06 in node 638 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=193

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.060602
 time avg. forc= 0.044986
 largest residual force= 0.002740 in node 724 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 2.914869e-06 in node 638 and dof 1

 no convergence

 iteration 11

 Number of contact spring elements=187

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000003

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.061346
 time avg. forc= 0.045054
 largest residual force= 0.000000 in node 22 and dof 1
 largest increment of disp= 1.758996e-03
 largest correction to disp= 7.618264e-09 in node 590 and dof 1

 no convergence

 iteration 12

 Number of contact spring elements=187

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70335

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.061346
 time avg. forc= 0.045054
 largest residual force= 0.000000 in node 342 and dof 2
 largest increment of disp= 1.758996e-03
 largest correction to disp= 2.219624e-12 in node 589 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 16 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=7.500000e+00
 actual step time=8.000000e+00
 actual total time=8.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 1.155437
 time avg. forc= 0.137586
 largest residual force= 62.333995 in node 883 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 8.071530e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=2007

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73716

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.137721
 time avg. forc= 0.052776
 largest residual force= 97.261828 in node 383 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 3.754158e-04 in node 847 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=1844

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73113

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.068092
 time avg. forc= 0.046974
 largest residual force= 14.953799 in node 22 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 3.244277e-04 in node 577 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=916

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71640

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.424535

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.081940
 time avg. forc= 0.048128
 largest residual force= 9.062344 in node 88 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 2.668489e-04 in node 821 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=735

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71640

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.045834
 time avg. forc= 0.045119
 largest residual force= 2.878034 in node 2 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 1.590144e-04 in node 820 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=388

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70533

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.040604
 time avg. forc= 0.044683
 largest residual force= 0.272245 in node 865 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 4.164995e-05 in node 638 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=248

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.049884
 time avg. forc= 0.045457
 largest residual force= 0.035085 in node 724 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 1.834016e-05 in node 821 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=182

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.969906

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.056465
 time avg. forc= 0.046005
 largest residual force= 0.002159 in node 395 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 1.966911e-06 in node 589 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=169

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000091

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.058033
 time avg. forc= 0.046136
 largest residual force= 0.000000 in node 22 and dof 1
 largest increment of disp= 8.071530e-04
 largest correction to disp= 1.209376e-07 in node 589 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=169

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.058033
 time avg. forc= 0.046136
 largest residual force= 0.000000 in node 769 and dof 2
 largest increment of disp= 8.071530e-04
 largest correction to disp= 1.699569e-11 in node 599 and dof 2

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 17 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=8.000000e+00
 actual step time=8.500000e+00
 actual total time=8.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.216017
 time avg. forc= 0.059203
 largest residual force= 12.114203 in node 883 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 3.350921e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=1043

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71814

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.047094
 time avg. forc= 0.046209
 largest residual force= 26.051576 in node 409 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 1.570799e-04 in node 577 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=945

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71814

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.006473

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.029800
 time avg. forc= 0.044879
 largest residual force= 1.974252 in node 22 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 1.414882e-04 in node 577 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=595

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71688

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.464951

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.032670
 time avg. forc= 0.045100
 largest residual force= 2.110316 in node 383 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 6.064019e-05 in node 589 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=495

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71316

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.002214

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.029814
 time avg. forc= 0.044880
 largest residual force= 0.500246 in node 2 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 3.997677e-05 in node 141 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=229

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70407

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.043878
 time avg. forc= 0.045962
 largest residual force= 0.018559 in node 882 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 9.384212e-06 in node 850 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=160

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70407

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999948

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.050440
 time avg. forc= 0.046467
 largest residual force= 0.000471 in node 114 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 2.628904e-06 in node 589 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=147

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70407

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.001986

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.051909
 time avg. forc= 0.046580
 largest residual force= 0.000009 in node 383 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 9.981800e-08 in node 578 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=146

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70407

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.052026
 time avg. forc= 0.046589
 largest residual force= 0.000000 in node 22 and dof 1
 largest increment of disp= 6.001516e-04
 largest correction to disp= 1.318900e-09 in node 589 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=146

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70407

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999535

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.052026
 time avg. forc= 0.046589
 largest residual force= 0.000000 in node 751 and dof 2
 largest increment of disp= 6.001516e-04
 largest correction to disp= 4.698085e-16 in node 586 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 18 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=8.500000e+00
 actual step time=9.000000e+00
 actual total time=9.000000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.070963
 time avg. forc= 0.048330
 largest residual force= 2.382281 in node 883 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 1.400023e-04 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=568

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71688

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.024268
 time avg. forc= 0.044994
 largest residual force= 3.324774 in node 409 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 3.517091e-05 in node 137 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=510

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71598

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.002775

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.022312
 time avg. forc= 0.044855
 largest residual force= 0.189489 in node 882 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 3.188703e-05 in node 846 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=279

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71064

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.318174

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.030693
 time avg. forc= 0.045453
 largest residual force= 0.482259 in node 409 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 1.146046e-05 in node 513 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=225

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70497

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000636

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.033696
 time avg. forc= 0.045668
 largest residual force= 0.021697 in node 2 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 8.779724e-06 in node 593 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=160

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.591830

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.038434
 time avg. forc= 0.046006
 largest residual force= 0.021127 in node 409 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 1.232278e-06 in node 589 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=154

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000025

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.038944
 time avg. forc= 0.046043
 largest residual force= 0.000025 in node 883 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 5.399831e-07 in node 589 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=150

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999551

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.039291
 time avg. forc= 0.046067
 largest residual force= 0.000000 in node 393 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 8.782374e-09 in node 589 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=150

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70245

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.039291
 time avg. forc= 0.046067
 largest residual force= 0.000000 in node 787 and dof 1
 largest increment of disp= 6.001798e-04
 largest correction to disp= 3.951644e-12 in node 589 and dof 1

 convergence

 Using up to 1 cpu(s) for the stress calculation.

 increment 19 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=9.000000e+00
 actual step time=9.500000e+00
 actual total time=9.500000e+00

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.037345
 time avg. forc= 0.045486
 largest residual force= 0.377296 in node 883 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 5.290956e-05 in node 577 and dof 1

 no convergence

 iteration 2

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.663662
 time avg. forc= 0.087240
 largest residual force= 29.751493 in node 883 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 5.983672e-04 in node 818 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=2502

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 74790

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.069939
 time avg. forc= 0.047659
 largest residual force= 57.877314 in node 410 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 2.387954e-04 in node 846 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=2390

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 74628

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.035461
 time avg. forc= 0.045360
 largest residual force= 17.518650 in node 22 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 1.962542e-04 in node 573 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=1270

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72690

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.047068
 time avg. forc= 0.046134
 largest residual force= 13.167611 in node 22 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 2.684199e-04 in node 820 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=1004

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 72294

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.862644

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.040554
 time avg. forc= 0.045700
 largest residual force= 4.112155 in node 106 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 1.966689e-04 in node 589 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=593

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71562

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.014415
 time avg. forc= 0.043957
 largest residual force= 1.010298 in node 63 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 5.366799e-05 in node 576 and dof 2

 no convergence

 iteration 8

 Number of contact spring elements=390

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71400

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.015315
 time avg. forc= 0.044017
 largest residual force= 0.186839 in node 2 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 2.272516e-05 in node 852 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=286

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 71004

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.017806
 time avg. forc= 0.044183
 largest residual force= 0.006758 in node 2 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 5.467428e-06 in node 593 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=227

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70902

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999738

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.019794
 time avg. forc= 0.044316
 largest residual force= 0.000031 in node 863 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 5.160311e-07 in node 589 and dof 1

 no convergence

 iteration 11

 Number of contact spring elements=223

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70902

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000011

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.019945
 time avg. forc= 0.044326
 largest residual force= 0.000000 in node 393 and dof 1
 largest increment of disp= 6.002853e-04
 largest correction to disp= 3.492656e-09 in node 589 and dof 1

 no convergence

 iteration 12

 Number of contact spring elements=223

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 70902

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999990

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.019945
 time avg. forc= 0.044326
 largest residual force= 0.000000 in node 777 and dof 2
 largest increment of disp= 6.002853e-04
 largest correction to disp= 3.498589e-14 in node 589 and dof 1

 convergence

 the increment size exceeds the remainder of the step and is decreased to 5.000000e-01

 pressure ratio (smallest/largest pressure over all contact areas) =0.000000e+00

 Using up to 1 cpu(s) for the stress calculation.

 increment 20 attempt 1 
 increment size= 5.000000e-01
 sum of previous increments=9.500000e+00
 actual step time=1.000000e+01
 actual total time=1.000000e+01

 iteration 1

 Number of contact spring elements=0

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 68661

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.010564
 time avg. forc= 0.042216
 largest residual force= 0.083323 in node 22 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 1.586192e-05 in node 818 and dof 2

 no convergence

 iteration 2

 Number of contact spring elements=2584

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73505

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.250000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.001224
 time avg. forc= 0.041632
 largest residual force= 0.185020 in node 83 and dof 2
 largest increment of disp= 6.003579e-04
 largest correction to disp= 1.452569e-04 in node 637 and dof 1

 no convergence

 iteration 3

 Number of contact spring elements=2668

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 73721

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.728277

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.001807
 time avg. forc= 0.041669
 largest residual force= 0.538122 in node 883 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 1.017061e-04 in node 818 and dof 1

 no convergence

 iteration 4

 Number of contact spring elements=6162

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 80366

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.007464

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000363
 time avg. forc= 0.041578
 largest residual force= 0.005417 in node 382 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 2.572704e-06 in node 690 and dof 1

 no convergence

 iteration 5

 Number of contact spring elements=4016

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 79645

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000519
 time avg. forc= 0.041588
 largest residual force= 0.000064 in node 63 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 3.588494e-07 in node 513 and dof 1

 no convergence

 iteration 6

 Number of contact spring elements=2931

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 79078

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.010000

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000682
 time avg. forc= 0.041598
 largest residual force= 0.000198 in node 395 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 3.224608e-07 in node 481 and dof 1

 no convergence

 iteration 7

 Number of contact spring elements=2582

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 78472

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999987

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000760
 time avg. forc= 0.041603
 largest residual force= 0.000025 in node 863 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 2.579366e-07 in node 605 and dof 1

 no convergence

 iteration 8

 Number of contact spring elements=2467

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 78064

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.003012

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000790
 time avg. forc= 0.041605
 largest residual force= 0.000005 in node 382 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 1.706073e-07 in node 589 and dof 1

 no convergence

 iteration 9

 Number of contact spring elements=2439

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 77920

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=0.999997

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000798
 time avg. forc= 0.041605
 largest residual force= 0.000000 in node 22 and dof 1
 largest increment of disp= 6.003579e-04
 largest correction to disp= 3.028618e-08 in node 577 and dof 1

 no convergence

 iteration 10

 Number of contact spring elements=2438

 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 2391
 number of nonzero lower triangular matrix elements
 77920

 Using up to 1 cpu(s) for the stress calculation.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 1 cpu(s) for spooles.

 Using up to 1 cpu(s) for the stress calculation.

line search factor=1.000005

 Using up to 1 cpu(s) for the stress calculation.

 average force= 0.000798
 time avg. forc= 0.041605
 largest residual force= 0.000000 in node 761 and dof 2
 largest increment of disp= 6.003579e-04
 largest correction to disp= 4.903885e-11 in node 577 and dof 1

 convergence

 the increment size exceeds the remainder of the step and is decreased to 0.000000e+00

 pressure ratio (smallest/largest pressure over all contact areas) =0.000000e+00

 Using up to 1 cpu(s) for the stress calculation.


  The numbers below are estimated upper bounds

  number of:

   nodes:          883
   elements:          359
   one-dimensional elements:            0
   two-dimensional elements:            0
   integration points per element:            4
   degrees of freedom per node:            3
   layers per element:            1

   distributed facial loads:            0
   distributed volumetric loads:            0
   concentrated loads:            0
   single point constraints:          258
   multiple point constraints:            1
   terms in all multiple point constraints:            1
   tie constraints:            1
   dependent nodes tied by cyclic constraints:            0
   dependent nodes in pre-tension constraints:            0

   sets:            6
   terms in all sets:          764

   materials:            2
   constants per material and temperature:            4
   temperature points per material:            1
   plastic data points per material:            0

   orientations:            0
   amplitudes:            3
   data points in all amplitudes:           10
   print requests:            0
   transformations:            0
   property cards:            0

 *INFO reading *STEP: nonlinear geometric
       effects are turned on


 STEP            1

 Static analysis was selected

 Newton-Raphson iterative procedure is active

 Nonlinear geometric effects are taken into account


 Job finished