dt of cycle 6900 is controlled by solid element 11972
time........................... 9.64841E+02
time step...................... 7.24739E-02
kinetic energy................. 5.27053E+00
internal energy................ 1.21550E+00
spring and damper energy....... 1.00000E-20
hourglass energy .............. 8.01698E-01
system damping energy.......... 0.00000E+00
sliding interface energy....... 9.63924E-01
external work.................. 0.00000E+00
eroded kinetic energy.......... 0.00000E+00
eroded internal energy......... 0.00000E+00
eroded hourglass energy........ 0.00000E+00
total energy................... 8.25165E+00
total energy / initial energy.. 3.04023E-02
energy ratio w/o eroded energy. 3.04023E-02
global x velocity.............. 1.12814E-08
global y velocity.............. 1.44319E-08
global z velocity.............. -9.84987E-12
cpu time per zone cycle............ 0 nanoseconds
average cpu time per zone cycle.... 12044 nanoseconds
average clock time per zone cycle.. 12042 nanoseconds
6975 t 9.6999E+02 dt 6.55E-02 write d3plot file
dt of cycle 7000 is controlled by solid element 8507
time........................... 9.71163E+02
time step...................... 2.91174E-02
kinetic energy................. 5.23889E+00
internal energy................ 1.19847E+00
spring and damper energy....... 1.00000E-20
hourglass energy .............. 8.03986E-01
system damping energy.......... 0.00000E+00
sliding interface energy....... 9.54896E-01
external work.................. 0.00000E+00
eroded kinetic energy.......... 0.00000E+00
eroded internal energy......... 0.00000E+00
eroded hourglass energy........ 0.00000E+00
total energy................... 8.19624E+00
total energy / initial energy.. 3.01982E-02
energy ratio w/o eroded energy. 3.01982E-02
global x velocity.............. 1.12830E-08
global y velocity.............. 1.45545E-08
global z velocity.............. -5.92363E-13
cpu time per zone cycle............ 0 nanoseconds
average cpu time per zone cycle.... 11954 nanoseconds
average clock time per zone cycle.. 11959 nanoseconds
*** Warning negative vol in advection redo cycle 7082
*** Warning negative vol in advection redo cycle 7083
node # 1 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 2 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 3 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 4 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 5 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 6 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 7 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 8 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 9 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 10 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 11 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 12 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 13 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 14 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 15 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 16 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 17 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 18 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 19 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 20 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 21 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 22 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 23 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 24 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 25 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 26 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 27 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 28 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 29 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
node # 30 has out-of-range velocities
x-velocity= NaN
y-velocity= NaN
z-velocity= NaN
7100 t 9.7229E+02 dt 0.00E+00 write d3plot file
7100 t 9.7229E+02 dt 0.00E+00 write d3plot file
T i m i n g i n f o r m a t i o n
CPU(seconds) %CPU Clock(seconds) %Clock
----------------------------------------------------------------
Initialization ....... 0.0000E+00 0.00 0.0000E+00 0.00
Element processing ... 1.1340E+03 97.34 1.1363E+03 97.54
Binary databases ..... 6.0000E+00 0.52 3.8570E+00 0.33
ASCII database ....... 1.1000E+01 0.94 8.2040E+00 0.70
Contact algorithm .... 1.4000E+01 1.20 1.6574E+01 1.42
ALE CoupleID 1 1.4000E+01 1.20 1.5853E+01 1.36
Contact entities ..... 0.0000E+00 0.00 0.0000E+00 0.00
Rigid bodies ......... 0.0000E+00 0.00 7.9000E-02 0.01
Implicit Nonlinear ... 0.0000E+00 0.00 0.0000E+00 0.00
Implicit Lin. Alg. ... 0.0000E+00 0.00 0.0000E+00 0.00
----------------------------------------------------------------
T o t a l s 1.1650E+03 100.00 1.1651E+03 100.00
Problem time = 9.7229E+02
Problem cycle = 7100
Total CPU time = 1165 seconds ( 0 hours 19 minutes 25 seconds)
CPU time per zone cycle = 11878 nanoseconds
Clock time per zone cycle= 11878 nanoseconds
Number of CPU's 1
NLQ used/max 96/ 96
Start time 05/17/2012 13:27:52
End time 05/17/2012 13:47:21
Elapsed time 1169 seconds( 0 hours 19 min. 29 sec.) for 7100 cycles