229 lines
10 KiB
Text
229 lines
10 KiB
Text
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Abaqus 6.10-1 Date 14-Jan-2013 Time 09:49:19
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For use at NATIONAL UNIVERSITY OF IRELAND under license from Dassault Systemes or its subsidiary.
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The Abaqus Software is a product of:
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Dassault Systemes Simulia Corp.
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Rising Sun Mills
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166 Valley Street
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Providence, RI 02909-2499, USA
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Available for internal use at NATIONAL UNIVERSITY OF IRELAND.
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The Abaqus Online Support System is accessible
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through the "My Support" section of the SIMULIA
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Home Page at http://www.simulia.com.
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Support policies for academic licenses are described
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on the SIMULIA web site at
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http://www.simulia.com/academics/academic_support.html.
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On machine ENGFL93H4J
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you are authorized to run
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Abaqus/Standard until 30-Jun-2013
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Your site id is: 200000000008244
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For assistance or any other information you may
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obtain contact information for your local office
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from the world wide web at:
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http://www.simulia.com/about/locations.html
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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* *
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* ***************** *
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* * N O T I C E * *
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* ***************** *
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* *
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* *
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* Abaqus 6.10-1 *
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* *
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* BUILD ID: 2010_04_29-14.17.36 102575 *
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* *
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* *
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* Please make sure you are using release 6.10manuals *
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* plus the notes accompanying this release. *
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* *
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* *
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* *
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* *
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* *
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* This program may not be used for commercial purposes *
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* without payment of a commercial fee. *
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* *
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
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PROCESSING PART, INSTANCE, AND ASSEMBLY INFORMATION
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*******************************************************
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END PROCESSING PART, INSTANCE, AND ASSEMBLY INFORMATION
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***********************************************************
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OPTIONS BEING PROCESSED
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***************************
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*Heading
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*Node
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*userelement, nodes=2, type=U1, properties=1, variables=2, coordinates=1, unsymm
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*Element, type=U1
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*Elset, elset=ASSEMBLY_PART-1-1_UEL
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*Nset, nset=ASSEMBLY_SET-6
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*Nset, nset=ASSEMBLY__PICKEDSET16
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*Nset, nset=ASSEMBLY__PICKEDSET17
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*material, name=MATERIAL-1
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*conductivity
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*density
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*specificheat
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*initialconditions, type=TEMPERATURE
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*initialconditions, type=TEMPERATURE
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*initialconditions, type=TEMPERATURE
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*initialconditions, type=TEMPERATURE
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*userelement, nodes=2, type=U1, properties=1, variables=2, coordinates=1, unsymm
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*boundary
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*uelproperty, elset=ASSEMBLY_PART-1-1_UEL
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*output, field, variable=PRESELECT
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*output, history, frequency=0
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*initialconditions, type=TEMPERATURE
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*initialconditions, type=TEMPERATURE
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*output, field, variable=PRESELECT
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*output, history, frequency=0
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*initialconditions, type=TEMPERATURE
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*initialconditions, type=TEMPERATURE
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*output, field, variable=PRESELECT
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*output, history, frequency=0
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*Step, name=Step-1
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*output, field, variable=PRESELECT
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*output, history, frequency=0
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*Step, name=Step-1
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*Step, name=Step-1
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*heattransfer, end=PERIOD, deltmx=100
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*boundary
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*output, field, variable=PRESELECT
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*output, history, frequency=0
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*endstep
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*Step, name=Step-1
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*heattransfer, end=PERIOD, deltmx=100
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*boundary
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*output, field, variable=PRESELECT
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*output, history, frequency=0
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*endstep
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P R O B L E M S I Z E
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NUMBER OF ELEMENTS IS 4
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NUMBER OF NODES IS 5
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NUMBER OF NODES DEFINED BY THE USER 5
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TOTAL NUMBER OF VARIABLES IN THE MODEL 10
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(DEGREES OF FREEDOM PLUS MAX NO. OF ANY LAGRANGE MULTIPLIER
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VARIABLES. INCLUDE *PRINT,SOLVE=YES TO GET THE ACTUAL NUMBER.)
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END OF USER INPUT PROCESSING
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JOB TIME SUMMARY
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USER TIME (SEC) = 0.10000
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SYSTEM TIME (SEC) = 0.10000
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TOTAL CPU TIME (SEC) = 0.20000
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WALLCLOCK TIME (SEC) = 0
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1
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Abaqus 6.10-1 Date 14-Jan-2013 Time 09:49:21
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For use at NATIONAL UNIVERSITY OF IRELAND under license from Dassault Systemes or its subsidiary.
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STEP 1 INCREMENT 1
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TIME COMPLETED IN THIS STEP 0.00
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S T E P 1 T R A N S I E N T H E A T T R A N S F E R
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AUTOMATIC TIME CONTROL WITH -
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A SUGGESTED INITIAL TIME INCREMENT OF 1.000E-02
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AND A TOTAL TIME PERIOD OF 0.100
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THE MINIMUM TIME INCREMENT ALLOWED IS 1.000E-09
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THE MAXIMUM TIME INCREMENT ALLOWED IS 1.000E-02
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THE SIZE OF THE TIME INCREMENT IS CONTROLLED BY -
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THE TEMPERATURE CHANGE PER INCREMENT NOT EXCEEDING 100.
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UNSYMMETRIC MATRIX STORAGE AND SOLUTION WILL BE USED
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M E M O R Y E S T I M A T E
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PROCESS FLOATING PT MINIMUM MEMORY MEMORY TO
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OPERATIONS REQUIRED MINIMIZE I/O
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PER ITERATION (MBYTES) (MBYTES)
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1 2.96E+002 17 24
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NOTE:
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(1) SINCE ABAQUS DOES NOT PRE-ALLOCATE MEMORY AND ONLY ALLOCATES MEMORY AS NEEDED DURING THE ANALYSIS,
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THE MEMORY REQUIREMENT PRINTED HERE CAN ONLY BE VIEWED AS A GENERAL GUIDELINE BASED ON THE BEST
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KNOWLEDGE AVAILABLE AT THE BEGINNING OF A STEP BEFORE THE SOLUTION PROCESS HAS BEGUN.
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(2) THE ESTIMATE IS NORMALLY UPDATED AT THE BEGINNING OF EVERY STEP. IT IS THE MAXIMUM VALUE OF THE
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ESTIMATE FROM THE CURRENT STEP TO THE LAST STEP OF THE ANALYSIS, WITH UNSYMMETRIC SOLUTION TAKEN
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INTO ACCOUNT IF APPLICABLE.
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(3) SINCE THE ESTIMATE IS BASED ON THE ACTIVE DEGREES OF FREEDOM IN THE FIRST ITERATION OF THE
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CURRENT STEP, THE MEMORY ESTIMATE MIGHT BE SIGNIFICANTLY DIFFERENT THAN ACTUAL USAGE FOR
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PROBLEMS WITH SUBSTANTIAL CHANGES IN ACTIVE DEGREES OF FREEDOM BETWEEN STEPS (OR EVEN WITHIN
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THE SAME STEP). EXAMPLES ARE: PROBLEMS WITH SIGNIFICANT CONTACT CHANGES, PROBLEMS WITH MODEL
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CHANGE, PROBLEMS WITH BOTH STATIC STEP AND STEADY STATE DYNAMIC PROCEDURES WHERE ACOUSTIC
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ELEMENTS WILL ONLY BE ACTIVATED IN THE STEADY STATE DYNAMIC STEPS.
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(4) FOR MULTI-PROCESS EXECUTION, THE ESTIMATED VALUE OF FLOATING POINT OPERATIONS FOR EACH PROCESS
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IS BASED ON AN INITIAL SCHEDULING OF OPERATIONS AND MIGHT NOT REFLECT THE ACTUAL FLOATING
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POINT OPERATIONS COMPLETED ON EACH PROCESS. OPERATIONS ARE DYNAMICALY BALANCED DURING EXECUTION,
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SO THE ACTUAL BALANCE OF OPERATIONS BETWEEN PROCESSES IS EXPECTED TO BE BETTER THAN THE ESTIMATE
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PRINTED HERE.
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(5) THE UPPER LIMIT OF MEMORY THAT CAN BE ALLOCATED BY ABAQUS WILL IN GENERAL DEPEND ON THE VALUE OF
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THE "MEMORY" PARAMETER AND THE AMOUNT OF PHYSICAL MEMORY AVAILABLE ON THE MACHINE. PLEASE SEE
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THE "ABAQUS ANALYSIS USER'S MANUAL" FOR MORE DETAILS. THE ACTUAL USAGE OF MEMORY AND OF DISK
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SPACE FOR SCRATCH DATA WILL DEPEND ON THIS UPPER LIMIT AS WELL AS THE MEMORY REQUIRED TO MINIMIZE
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I/O. IF THE MEMORY UPPER LIMIT IS GREATER THAN THE MEMORY REQUIRED TO MINIMIZE I/O, THEN THE ACTUAL
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MEMORY USAGE WILL BE CLOSE TO THE ESTIMATED "MEMORY TO MINIMIZE I/O" VALUE, AND THE SCRATCH DISK
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USAGE WILL BE CLOSE-TO-ZERO; OTHERWISE, THE ACTUAL MEMORY USED WILL BE CLOSE TO THE PREVIOUSLY
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MENTIONED MEMORY LIMIT, AND THE SCRATCH DISK USAGE WILL BE ROUGHLY PROPORTIONAL TO THE DIFFERENCE
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BETWEEN THE ESTIMATED "MEMORY TO MINIMIZE I/O" AND THE MEMORY UPPER LIMIT. HOWEVER ACCURATE
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ESTIMATE OF THE SCRATCH DISK SPACE IS NOT POSSIBLE.
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(6) USING "*RESTART, WRITE" CAN GENERATE A LARGE AMOUNT OF DATA WRITTEN IN THE WORK DIRECTORY.
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THE ANALYSIS HAS BEEN COMPLETED
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ANALYSIS COMPLETE
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JOB TIME SUMMARY
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USER TIME (SEC) = 0.20000
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SYSTEM TIME (SEC) = 0.10000
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TOTAL CPU TIME (SEC) = 0.30000
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WALLCLOCK TIME (SEC) = 1
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