$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
$                                                                              $
$  LS-DYNA Aerospace Working Group QA Test Case 5                              $
$                                                                              $
$  Bird Strike on Rigid Plate                                                  $
$                                                                              $
$  Reference:        http://awg.lstc.com                                       $
$                                                                              $
$  Revision History:                                                           $
$                                                                              $
$                                                                              $
$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$


Description:     A Bird strike on rigid plate (as replacement for a composite 
                 inlet of jet engine) is modeled with a Lagrangian, ALE and SPH 
                 approach for the bird. This input deck serves as example to
                 provide consistent results among platforms and version of 
                 the code as well as between the different modeling approaches.  

Status:          Accepted and currently part of the AEROQA Test Suite

Classification:  Example 

Keywords:        *MAT_NULL 
                 ...

Units:	         in (length), s (time), lbf-s^2/in (mass), psi (stress),
                 lbf-in (energy) 

Model Data:	 Lagrangian approach: 14400 shells / 1 shell material, 
                                      432 solids / 1 solid material, 2 parts
                 ALE approach:        16230 shells / 2 shell material, 
                                      84800 solids / 1 solid material, 3 parts
                 SPH approach:        14400 shells / 1 shell material,
                                      15912 SPH nodes / 1 SPH material, 2 parts   

Run time:        Lagrangian approach: approx. total CPU time = 1 minutes 33 seconds
                 ALE approach:        approx. total CPU time = 7 minutes 12 seconds
                 SPH approach:        approx. total CPU time = 13 minutes 36 seconds  
                 (Intel Xeon CPU E7- 8837 @ 2.67GHz / MPP / 4 cpu's)

