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本帖最后由 gdyu_yu 于 2010-12-8 17:12 编辑
Date: 12/07/2010 Time: 17:11:16
___________________________________________________
| |
| Livermore Software Technology Corporation |
| |
| 7374 Las Positas Road |
| Livermore, CA 94551 |
| Tel: (925) 449-2500 Fax: (925) 449-2507 |
| www.lstc.com |
|_________________________________________________|
| |
| LS-DYNA, A Program for Nonlinear Dynamic |
| Analysis of Structures in Three Dimensions |
| Version : ls971s R4.2 Date: 02/04/2009 |
| Revision: 50638 Time: 07:58:32 |
| |
| Features enabled in this version: |
| Shared Memory Parallel |
| ANSYS Database format |
| |
| Licensed to: |
| |
| Platform : PC WIN32 |
| OS Level : Home Edition (Build 7600) |
| Compiler : Intel Fortran Compiler 10.1 |
| Hostname : chxlei-HP |
| Precision : Single precision (I4R4) |
| Product ID : 50964 |
| |
| Unauthorized use infringes LSTC copyrights |
|_________________________________________________|
Input file: L:/DYNAFO~1/HOTFOR~1.DYN
The native file format : 32-bit small endian
Memory size from command line: 262144000
JOBID : hotforming
Memory option : AUTO selected
expanding memory to 262144000 starting ls-dyna
******** notice ******** notice ******** notice ********
* *
* This is the LS-DYNA Finite Element code. *
* *
* Neither LSTC nor the authors assume any responsibility for *
* the validity, accuracy, or applicability of any results *
* obtained from this system. The user must verify his own *
* results. *
* *
* LSTC endeavors to make the LS-DYNA code as complete, *
* accurate and easy to use as possible. *
* Suggestions and comments are welcomed. Please report any *
* errors encountered in either the documentation or results *
* immediately to LSTC through your site focus. *
* *
* Copyright (C) 1990-2009 *
* by Livermore Software Technology Corp. (LSTC) *
* All rights reserved *
* *
******** notice ******** notice ******** notice ********
contracting memory to 1 beginning of keyword reader
expanding memory to 20280
expanding memory to 216912
expanding memory to 261912
expanding memory to 291912
expanding memory to 724536
expanding memory to 760588
expanding memory to 894162
expanding memory to 1022370
expanding memory to 1047176
expanding memory to 1098976
Open include file: hotforming.blk
Open include file: hotforming.mod
expanding memory to 1131252
expanding memory to 1162721
expanding memory to 1508880
expanding memory to 1539932
expanding memory to 1570984
expanding memory to 1602453
expanding memory to 1695609
expanding memory to 1727078
expanding memory to 1750879
expanding memory to 1846083
expanding memory to 1894423
expanding memory to 2018631
expanding memory to 2142839
expanding memory to 2174591
expanding memory to 3357577
expanding memory to 3920684
expanding memory to 3951736
expanding memory to 3983205
expanding memory to 4014674
expanding memory to 4035574
expanding memory to 4056474
expanding memory to 4077374
expanding memory to 4098274
expanding memory to 4119174
expanding memory to 4140074
expanding memory to 4160974
expanding memory to 4181874
expanding memory to 4202774
expanding memory to 4223674
expanding memory to 4244574
expanding memory to 4265474
expanding memory to 4286374
expanding memory to 4307274
expanding memory to 4328174
expanding memory to 4349074
expanding memory to 4369974
expanding memory to 4390874
expanding memory to 4411774
expanding memory to 4432674
expanding memory to 4453574
expanding memory to 4474474
expanding memory to 4495374
expanding memory to 4516274
expanding memory to 4537174
expanding memory to 4558074
expanding memory to 4578974
expanding memory to 4599874
expanding memory to 4620774
expanding memory to 4641674
expanding memory to 4662574
expanding memory to 4683474
expanding memory to 4704374
expanding memory to 4725274
expanding memory to 4746174
expanding memory to 4767074
expanding memory to 4787974
expanding memory to 4808874
expanding memory to 4829774
expanding memory to 4850674
expanding memory to 4871574
expanding memory to 4892474
expanding memory to 4913374
expanding memory to 4934274
expanding memory to 4955174
expanding memory to 4976074
expanding memory to 4996974
Memory required to process keyword : 4996974
contracting memory to 1 end of keyword reader
LS-DYNA will perform a coupled structural/thermal analysis
hotforming
ls-dyna ls971s.50638 R4.2 date 02/04/2009
*** Warning reset D3PLOT output interval from 0. to 1.6860E-03
expanding memory to 3041 material, node and element data
expanding memory to 3146 material properties
expanding memory to 283885 element data
expanding memory to 567122 gradient of damage data
expanding memory to 1778323 user control for contact interfaces
expanding memory to 1778329 for boundary cond. vectorization
expanding memory to 1809355 arbitrary element numbering input
expanding memory to 4632357 process element material data
expanding memory to 4634423 load curve data
expanding memory to 4638311 regularize time history data
contracting memory to 4638311 rigidwall definitions
expanding memory to 4669818 nodal load data
expanding memory to 4669896 velocity b.c
expanding memory to 4701366 nodal constraint sets
expanding memory to 4703364 contact interfaces
expanding memory to 4767302 implicit contact 1
expanding memory to 4767304 implicit contact 2
expanding memory to 5766897 contact segment data 1
expanding memory to 5935176 contact segment data 2
expanding memory to 6238285 contact segment data 3
expanding memory to 8517845 contact definition
expanding memory to 8612806 rigid body
expanding memory to 10547200 contact friction
expanding memory to 10641607 attached nodes
expanding memory to 11681470 joints
contracting memory to 11681470 shell solid interfaces
contracting memory to 11681470 accelerometers
expanding memory to 11681570 rigid bodies for disp. termination
expanding memory to 11681589 implicit coupling
contracting memory to 11681589 transformation to move nodes
*** Warning in definition of contact 1
Master surface offset used in forming contact.
For this to work properly in thermal contact
the master surface normals MUST point in the
direction towards the slave surface.
Please check your model.
*** Warning in definition of contact 2
Master surface offset used in forming contact.
For this to work properly in thermal contact
the master surface normals MUST point in the
direction towards the slave surface.
Please check your model.
*** Warning in definition of contact 3
Master surface offset used in forming contact.
For this to work properly in thermal contact
the master surface normals MUST point in the
direction towards the slave surface.
Please check your model.
*** Warning in definition of contact 4
Master surface offset used in forming contact.
For this to work properly in thermal contact
the master surface normals MUST point in the
direction towards the slave surface.
Please check your model.
*** Warning in definition of contact 5
All heat transfer coefficients are zero.
This contact surface will be skipped during
the thermal calculations.
*** Warning in definition of contact 6
All heat transfer coefficients are zero.
This contact surface will be skipped during
the thermal calculations.
*** Warning in definition of contact 7
All heat transfer coefficients are zero.
This contact surface will be skipped during
the thermal calculations.
expanding memory to 11681594 thermal expansion 0
expanding memory to 11681599 flexible body 2
contracting memory to 11681599 implicit joints
expanding memory to 11837276 initialization phase
master surface has 2903 segments, 0 renumbered
slave surface has 22500 segments, 0 renumbered
master surface has 4103 segments, 0 renumbered
slave surface has 22500 segments, 0 renumbered
master surface has 1221 segments, 0 renumbered
slave surface has 22500 segments, 0 renumbered
master surface has 325 segments, 0 renumbered
slave surface has 22500 segments, 0 renumbered
slave surface of interface = 1
type = m10
surface timestep = 1.267E-06
controlling slave node ID = 308538
part ID of slave node = 2
current minimum time step = 1.267E-06
master surface of interface = 1
type = m10
surface timestep = 6.697E-06
controlling master node ID = 298013
part ID of master node = 1
current minimum time step = 1.267E-06
slave surface of interface = 2
type = m10
surface timestep = 1.267E-06
controlling slave node ID = 308538
part ID of slave node = 2
current minimum time step = 1.267E-06
master surface of interface = 2
type = m10
surface timestep = 4.822E-06
controlling master node ID = 300862
part ID of master node = 3
current minimum time step = 1.267E-06
slave surface of interface = 3
type = m10
surface timestep = 1.267E-06
controlling slave node ID = 308538
part ID of slave node = 2
current minimum time step = 1.267E-06
master surface of interface = 3
type = m10
surface timestep = 1.174E-05
controlling master node ID = 306829
part ID of master node = 4
current minimum time step = 1.267E-06
slave surface of interface = 4
type = m10
surface timestep = 1.267E-06
controlling slave node ID = 308538
part ID of slave node = 2
current minimum time step = 1.267E-06
master surface of interface = 4
type = m10
surface timestep = 1.447E-05
controlling master node ID = 308217
part ID of master node = 5
current minimum time step = 1.267E-06
slave surface of interface = 5
type = a 3
surface timestep = 6.697E-06
controlling slave node ID = 298013
part ID of slave node = 1
current minimum time step = 1.267E-06
master surface of interface = 5
type = a 3
surface timestep = 4.822E-06
controlling master node ID = 300862
part ID of master node = 3
current minimum time step = 1.267E-06
slave surface of interface = 6
type = a 3
surface timestep = 1.174E-05
controlling slave node ID = 306829
part ID of slave node = 4
current minimum time step = 1.267E-06
master surface of interface = 6
type = a 3
surface timestep = 4.822E-06
controlling master node ID = 300862
part ID of master node = 3
current minimum time step = 1.267E-06
slave surface of interface = 7
type = a 3
surface timestep = 1.447E-05
controlling slave node ID = 308217
part ID of slave node = 5
current minimum time step = 1.267E-06
master surface of interface = 7
type = a 3
surface timestep = 6.697E-06
controlling master node ID = 298013
part ID of master node = 1
current minimum time step = 1.267E-06
The LS-DYNA time step size should not exceed 1.267E-06
to avoid contact instabilities. If the step size is
bigger then scale the penalty of the offending surface.
s t o r a g e a l l o c a t i o n
Memory required to begin solution : 11837276
Additional dynamically allocated memory: 21791994
Total: 33629270
1 t 2.0000E-05 dt 2.00E-05 thermal step
Convergence summary for nonlinear thermal solver:
================================================
Number of Newton iterations = 4
Number of iterations with line search = 0
Search direction norm = 0.56477E+01
Final temperature norm = 0.15807E+06
Quotient = 0.35729E-04
Initial residual norm = 0.93785E+08
Final residual norm = 0.17825E+02
Quotient = 0.19007E-06
Initial power norm = 0.39266E+13
Final power norm = 0.36491E+02
Quotient = 0.92932E-11
t= -1.1917E+02 is beyond range of property data for material 1
E r r o r t e r m i n a t i o n
s t o r a g e a l l o c a t i o n
Memory required to complete solution : 11837276
Additional dynamically allocated memory: 37090066
Total: 48927342
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 ... 0.0000E+00 0.00 0.0000E+00 0.00
Binary databases ..... 0.0000E+00 0.00 0.0000E+00 0.00
ASCII database ....... 0.0000E+00 0.00 0.0000E+00 0.00
Contact algorithm .... 0.0000E+00 0.00 0.0000E+00 0.00
Contact entities ..... 0.0000E+00 0.00 0.0000E+00 0.00
Rigid bodies ......... 0.0000E+00 0.00 0.0000E+00 0.00
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 0.0000E+00 0.00 0.0000E+00 0.00
Problem time = 0.0000E+00
Problem cycle = 0
Total CPU time = 0 seconds ( 0 hours 0 minutes 0 seconds)
CPU time per zone cycle = 0 nanoseconds
Clock time per zone cycle= 0 nanoseconds
Number of CPU's 3
NLQ used/max 96/ 96
Start time 12/07/2010 17:11:16
End time 12/07/2010 17:12:35
Elapsed time 79 seconds( 0 hours 1 min. 19 sec.) for 0 cycles
E r r o r t e r m i n a t i o n
请教高手帮我调试一下,非常感谢!! |
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