Mplus VERSION 7
MUTHEN & MUTHEN
09/22/2012  10:57 PM

INPUT INSTRUCTIONS

  TITLE:  this is an example of mixture CFA modeling
  DATA:	FILE IS ex7.17.dat;
  VARIABLE:	NAMES ARE y1-y5 c;
  	USEVARIABLES ARE y1-y5;
  	CLASSES = c(2);
  ANALYSIS:	TYPE = MIXTURE;
  MODEL:	%OVERALL%
  	f BY y1-y5;
  	%c#1%
  	[f*1];
  OUTPUT:	TECH1 TECH8;



INPUT READING TERMINATED NORMALLY



this is an example of mixture CFA modeling

SUMMARY OF ANALYSIS

Number of groups                                                 1
Number of observations                                         500

Number of dependent variables                                    5
Number of independent variables                                  0
Number of continuous latent variables                            1
Number of categorical latent variables                           1

Observed dependent variables

  Continuous
   Y1          Y2          Y3          Y4          Y5

Continuous latent variables
   F

Categorical latent variables
   C


Estimator                                                      MLR
Information matrix                                        OBSERVED
Optimization Specifications for the Quasi-Newton Algorithm for
Continuous Outcomes
  Maximum number of iterations                                 100
  Convergence criterion                                  0.100D-05
Optimization Specifications for the EM Algorithm
  Maximum number of iterations                                 500
  Convergence criteria
    Loglikelihood change                                 0.100D-06
    Relative loglikelihood change                        0.100D-06
    Derivative                                           0.100D-05
Optimization Specifications for the M step of the EM Algorithm for
Categorical Latent variables
  Number of M step iterations                                    1
  M step convergence criterion                           0.100D-05
  Basis for M step termination                           ITERATION
Optimization Specifications for the M step of the EM Algorithm for
Censored, Binary or Ordered Categorical (Ordinal), Unordered
Categorical (Nominal) and Count Outcomes
  Number of M step iterations                                    1
  M step convergence criterion                           0.100D-05
  Basis for M step termination                           ITERATION
  Maximum value for logit thresholds                            15
  Minimum value for logit thresholds                           -15
  Minimum expected cell size for chi-square              0.100D-01
Optimization algorithm                                         EMA
Random Starts Specifications
  Number of initial stage random starts                         20
  Number of final stage optimizations                            4
  Number of initial stage iterations                            10
  Initial stage convergence criterion                    0.100D+01
  Random starts scale                                    0.500D+01
  Random seed for generating random starts                       0

Input data file(s)
  ex7.17.dat
Input data format  FREE


RANDOM STARTS RESULTS RANKED FROM THE BEST TO THE WORST LOGLIKELIHOOD VALUES

Final stage loglikelihood values at local maxima, seeds, and initial stage start numbers:

           -2643.223  unperturbed      0
           -2645.521  533738           11
           -2645.521  415931           10
           -2645.521  462953           7



     WARNING:  THE BEST LOGLIKELIHOOD VALUE WAS NOT REPLICATED.  THE
     SOLUTION MAY NOT BE TRUSTWORTHY DUE TO LOCAL MAXIMA.  INCREASE THE
     NUMBER OF RANDOM STARTS.


THE MODEL ESTIMATION TERMINATED NORMALLY



MODEL FIT INFORMATION

Number of Free Parameters                       17

Loglikelihood

          H0 Value                       -2643.223
          H0 Scaling Correction Factor      0.9705
            for MLR

Information Criteria

          Akaike (AIC)                    5320.446
          Bayesian (BIC)                  5392.094
          Sample-Size Adjusted BIC        5338.135
            (n* = (n + 2) / 24)



FINAL CLASS COUNTS AND PROPORTIONS FOR THE LATENT CLASSES
BASED ON THE ESTIMATED MODEL

    Latent
   Classes

       1        236.98520          0.47397
       2        263.01480          0.52603


FINAL CLASS COUNTS AND PROPORTIONS FOR THE LATENT CLASS PATTERNS
BASED ON ESTIMATED POSTERIOR PROBABILITIES

    Latent
   Classes

       1        236.98519          0.47397
       2        263.01481          0.52603


CLASSIFICATION QUALITY

     Entropy                         0.400


CLASSIFICATION OF INDIVIDUALS BASED ON THEIR MOST LIKELY LATENT CLASS MEMBERSHIP

Class Counts and Proportions

    Latent
   Classes

       1              230          0.46000
       2              270          0.54000


Average Latent Class Probabilities for Most Likely Latent Class Membership (Row)
by Latent Class (Column)

           1        2

    1   0.807    0.193
    2   0.190    0.810


MODEL RESULTS

                                                    Two-Tailed
                    Estimate       S.E.  Est./S.E.    P-Value

Latent Class 1

 F        BY
    Y1                 1.000      0.000    999.000    999.000
    Y2                 0.759      0.022     34.289      0.000
    Y3                 0.769      0.022     34.985      0.000
    Y4                 0.781      0.022     35.549      0.000
    Y5                 0.738      0.022     34.028      0.000

 Means
    F                  1.800      0.182      9.867      0.000

 Intercepts
    Y1                 0.116      0.145      0.802      0.423
    Y2                 0.055      0.111      0.490      0.624
    Y3                 0.088      0.113      0.785      0.433
    Y4                 0.018      0.116      0.156      0.876
    Y5                 0.088      0.110      0.798      0.425

 Variances
    F                  0.998      0.152      6.569      0.000

 Residual Variances
    Y1                 0.233      0.021     11.198      0.000
    Y2                 0.282      0.021     13.154      0.000
    Y3                 0.288      0.019     14.846      0.000
    Y4                 0.227      0.017     13.170      0.000
    Y5                 0.254      0.019     13.570      0.000

Latent Class 2

 F        BY
    Y1                 1.000      0.000    999.000    999.000
    Y2                 0.759      0.022     34.289      0.000
    Y3                 0.769      0.022     34.985      0.000
    Y4                 0.781      0.022     35.549      0.000
    Y5                 0.738      0.022     34.028      0.000

 Means
    F                  0.000      0.000    999.000    999.000

 Intercepts
    Y1                 0.116      0.145      0.802      0.423
    Y2                 0.055      0.111      0.490      0.624
    Y3                 0.088      0.113      0.785      0.433
    Y4                 0.018      0.116      0.156      0.876
    Y5                 0.088      0.110      0.798      0.425

 Variances
    F                  0.998      0.152      6.569      0.000

 Residual Variances
    Y1                 0.233      0.021     11.198      0.000
    Y2                 0.282      0.021     13.154      0.000
    Y3                 0.288      0.019     14.846      0.000
    Y4                 0.227      0.017     13.170      0.000
    Y5                 0.254      0.019     13.570      0.000

Categorical Latent Variables

 Means
    C#1               -0.104      0.282     -0.370      0.712


QUALITY OF NUMERICAL RESULTS

     Condition Number for the Information Matrix              0.924E-03
       (ratio of smallest to largest eigenvalue)


TECHNICAL 1 OUTPUT


     PARAMETER SPECIFICATION FOR LATENT CLASS 1


           NU
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 1                  1             2             3             4             5


           LAMBDA
              F
              ________
 Y1                 0
 Y2                 6
 Y3                 7
 Y4                 8
 Y5                 9


           THETA
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 Y1                10
 Y2                 0            11
 Y3                 0             0            12
 Y4                 0             0             0            13
 Y5                 0             0             0             0            14


           ALPHA
              F
              ________
 1                 15


           BETA
              F
              ________
 F                  0


           PSI
              F
              ________
 F                 16


     PARAMETER SPECIFICATION FOR LATENT CLASS 2


           NU
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 1                  1             2             3             4             5


           LAMBDA
              F
              ________
 Y1                 0
 Y2                 6
 Y3                 7
 Y4                 8
 Y5                 9


           THETA
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 Y1                10
 Y2                 0            11
 Y3                 0             0            12
 Y4                 0             0             0            13
 Y5                 0             0             0             0            14


           ALPHA
              F
              ________
 1                  0


           BETA
              F
              ________
 F                  0


           PSI
              F
              ________
 F                 16


     PARAMETER SPECIFICATION FOR LATENT CLASS REGRESSION MODEL PART


           ALPHA(C)
              C#1           C#2
              ________      ________
 1                 17             0


     STARTING VALUES FOR LATENT CLASS 1


           NU
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 1              0.969         0.702         0.744         0.685         0.717


           LAMBDA
              F
              ________
 Y1             1.000
 Y2             1.000
 Y3             1.000
 Y4             1.000
 Y5             1.000


           THETA
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 Y1             1.022
 Y2             0.000         0.662
 Y3             0.000         0.000         0.679
 Y4             0.000         0.000         0.000         0.666
 Y5             0.000         0.000         0.000         0.000         0.620


           ALPHA
              F
              ________
 1              1.000


           BETA
              F
              ________
 F              0.000


           PSI
              F
              ________
 F              0.050


     STARTING VALUES FOR LATENT CLASS 2


           NU
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 1              0.969         0.702         0.744         0.685         0.717


           LAMBDA
              F
              ________
 Y1             1.000
 Y2             1.000
 Y3             1.000
 Y4             1.000
 Y5             1.000


           THETA
              Y1            Y2            Y3            Y4            Y5
              ________      ________      ________      ________      ________
 Y1             1.022
 Y2             0.000         0.662
 Y3             0.000         0.000         0.679
 Y4             0.000         0.000         0.000         0.666
 Y5             0.000         0.000         0.000         0.000         0.620


           ALPHA
              F
              ________
 1              0.000


           BETA
              F
              ________
 F              0.000


           PSI
              F
              ________
 F              0.050


     STARTING VALUES FOR LATENT CLASS REGRESSION MODEL PART


           ALPHA(C)
              C#1           C#2
              ________      ________
 1              0.000         0.000


TECHNICAL 8 OUTPUT


  INITIAL STAGE ITERATIONS


  TECHNICAL 8 OUTPUT FOR UNPERTURBED STARTING VALUE SET


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.35770102D+04    0.0000000    0.0000000    170.340   329.660    EM
     2 -0.26525958D+04  924.4143573    0.2584321    177.036   322.964    EM
     3 -0.26475637D+04    5.0320969    0.0018970    182.038   317.962    EM
     4 -0.26458019D+04    1.7618359    0.0006655    186.110   313.890    EM
     5 -0.26449698D+04    0.8321452    0.0003145    189.581   310.419    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 1


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.80133005D+04    0.0000000    0.0000000      0.292   499.708    EM
     2 -0.30945116D+04 4918.7888788    0.6138281      0.269   499.731    EM
     3 -0.30936661D+04    0.8455163    0.0002732      0.247   499.753    EM
     4 -0.30935514D+04    0.1146491    0.0000371      0.232   499.768    EM
     5 -0.30935213D+04    0.0300618    0.0000097      0.220   499.780    EM
     6 -0.30935088D+04    0.0125084    0.0000040      0.210   499.790    EM
     7 -0.30935025D+04    0.0063393    0.0000020      0.203   499.797    EM
     8 -0.30934990D+04    0.0035133    0.0000011      0.197   499.803    EM
     9 -0.30934969D+04    0.0021073    0.0000007      0.192   499.808    EM
    10 -0.30934955D+04    0.0014019    0.0000005      0.188   499.812    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 2


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.22882910D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.36794323D+04 ************    0.8392061      0.000   500.000    EM
     3 -0.36696510D+04    9.7813035    0.0026584      0.000   500.000    EM
     4 -0.36620116D+04    7.6393716    0.0020818      0.000   500.000    EM
     5 -0.36579573D+04    4.0542970    0.0011071      0.000   500.000    EM
     6 -0.36578793D+04    0.0780482    0.0000213      0.000   500.000    EM
     7 -0.36576394D+04    0.2399082    0.0000656      0.000   500.000    EM
     8 -0.36575729D+04    0.0664971    0.0000182      0.000   500.000    EM
     9 -0.36573832D+04    0.1896483    0.0000519      0.000   500.000    EM
    10 -0.36573402D+04    0.0430039    0.0000118      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 3


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.17039966D+05    0.0000000    0.0000000    310.897   189.103    EM
     2 -0.36597615D+04 ************    0.7852248    310.898   189.102    EM
     3 -0.36533684D+04    6.3931106    0.0017469    310.895   189.105    EM
     4 -0.36523919D+04    0.9765187    0.0002673    310.890   189.110    EM
     5 -0.36516201D+04    0.7717774    0.0002113    310.889   189.111    EM
     6 -0.36511633D+04    0.4567702    0.0001251    310.897   189.103    EM
     7 -0.36507397D+04    0.4236003    0.0001160    310.901   189.099    EM
     8 -0.36504248D+04    0.3148923    0.0000863    310.901   189.099    EM
     9 -0.36501933D+04    0.2315632    0.0000634    310.900   189.100    EM
    10 -0.36500125D+04    0.1807352    0.0000495    310.900   189.100    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 4


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.10246576D+05    0.0000000    0.0000000     33.781   466.219    EM
     2 -0.30943100D+04 7152.2664869    0.6980152     33.817   466.183    EM
     3 -0.30936517D+04    0.6582680    0.0002127     33.792   466.208    EM
     4 -0.30935894D+04    0.0622842    0.0000201     33.774   466.226    EM
     5 -0.30935640D+04    0.0253999    0.0000082     33.755   466.245    EM
     6 -0.30935501D+04    0.0139437    0.0000045     33.732   466.268    EM
     7 -0.30935422D+04    0.0078797    0.0000025     33.713   466.287    EM
     8 -0.30935373D+04    0.0048714    0.0000016     33.693   466.307    EM
     9 -0.30935332D+04    0.0040617    0.0000013     33.674   466.326    EM
    10 -0.30935299D+04    0.0033452    0.0000011     33.655   466.345    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 5


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.11049954D+05    0.0000000    0.0000000     95.985   404.015    EM
     2 -0.26455777D+04 8404.3759278    0.7605802     96.208   403.792    EM
     3 -0.26455727D+04    0.0050039    0.0000019     96.427   403.573    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 6


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.23908343D+05    0.0000000    0.0000000      0.001   499.999    EM
     2 -0.26455210D+04 ************    0.8893474      0.000   500.000    EM
     3 -0.26455209D+04    0.0000820    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 7


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.14090347D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.26455207D+04 ************    0.8122459      0.000   500.000    EM
     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 8


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.56217987D+04    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.26455207D+04 2976.2779154    0.5294174      0.000   500.000    EM
     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 9


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.11864373D+05    0.0000000    0.0000000     21.103   478.897    EM
     2 -0.26518073D+04 9212.5655229    0.7764899     18.731   481.269    EM
     3 -0.26476698D+04    4.1374806    0.0015602     17.638   482.362    EM
     4 -0.26466023D+04    1.0674985    0.0004032     17.020   482.980    EM
     5 -0.26461729D+04    0.4293932    0.0001622     16.623   483.377    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 10


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.11997902D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.26455207D+04 9352.3811945    0.7795014      0.000   500.000    EM
     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 11


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.15498828D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.26455207D+04 ************    0.8293083      0.000   500.000    EM
     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 12


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.11930658D+05    0.0000000    0.0000000      0.080   499.920    EM
     2 -0.26455431D+04 9285.1151276    0.7782567      0.057   499.943    EM
     3 -0.26455270D+04    0.0160143    0.0000061      0.051   499.949    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 13


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.13011237D+05    0.0000000    0.0000000    398.801   101.199    EM
     2 -0.26541201D+04 ************    0.7960132    394.983   105.017    EM
     3 -0.26499525D+04    4.1675929    0.0015702    392.173   107.827    EM
     4 -0.26483037D+04    1.6488747    0.0006222    389.930   110.070    EM
     5 -0.26474469D+04    0.8567657    0.0003235    388.055   111.945    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 14


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.21692903D+05    0.0000000    0.0000000     99.532   400.468    EM
     2 -0.26455252D+04 ************    0.8780465     99.548   400.452    EM
     3 -0.26455237D+04    0.0014918    0.0000006     99.564   400.436    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 15


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.91027588D+04    0.0000000    0.0000000      0.005   499.995    EM
     2 -0.26455219D+04 6457.2368584    0.7093714      0.004   499.996    EM
     3 -0.26455213D+04    0.0006688    0.0000003      0.003   499.997    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 16


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.15658802D+05    0.0000000    0.0000000     26.405   473.595    EM
     2 -0.26481206D+04 ************    0.8308861     25.470   474.530    EM
     3 -0.26469199D+04    1.2007052    0.0004534     24.895   475.105    EM
     4 -0.26464019D+04    0.5180418    0.0001957     24.505   475.495    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 17


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.20470193D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.36188451D+04 ************    0.8232139      0.000   500.000    EM
     3 -0.36125455D+04    6.2996529    0.0017408      0.000   500.000    EM
     4 -0.36114392D+04    1.1062414    0.0003062      0.000   500.000    EM
     5 -0.36108509D+04    0.5883609    0.0001629      0.000   500.000    EM
     6 -0.36104175D+04    0.4333844    0.0001200      0.000   500.000    EM
     7 -0.36100728D+04    0.3447067    0.0000955      0.000   500.000    EM
     8 -0.36097491D+04    0.3237075    0.0000897      0.000   500.000    EM
     9 -0.36095185D+04    0.2305830    0.0000639      0.000   500.000    EM
    10 -0.36093259D+04    0.1926189    0.0000534      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 18


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.11715220D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.37083773D+04 8006.8430159    0.6834565      0.000   500.000    EM
     3 -0.36982716D+04   10.1056924    0.0027251      0.000   500.000    EM
     4 -0.36963789D+04    1.8927917    0.0005118      0.000   500.000    EM
     5 -0.36934640D+04    2.9148481    0.0007886      0.000   500.000    EM
     6 -0.36925219D+04    0.9420883    0.0002551      0.000   500.000    EM
     7 -0.36923744D+04    0.1474748    0.0000399      0.000   500.000    EM
     8 -0.36922101D+04    0.1643593    0.0000445      0.000   500.000    EM
     9 -0.36919928D+04    0.2172456    0.0000588      0.000   500.000    EM
    10 -0.36915154D+04    0.4774696    0.0001293      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 19


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.19651225D+05    0.0000000    0.0000000     29.656   470.344    EM
     2 -0.37132721D+04 ************    0.8110412     29.281   470.719    EM
     3 -0.36944459D+04   18.8261371    0.0050700     29.012   470.988    EM
     4 -0.36906422D+04    3.8037669    0.0010296     28.796   471.204    EM
     5 -0.36869775D+04    3.6646981    0.0009930     28.619   471.381    EM
     6 -0.36842531D+04    2.7243886    0.0007389     28.498   471.502    EM
     7 -0.36831073D+04    1.1458014    0.0003110     28.414   471.586    EM
     8 -0.36812707D+04    1.8365495    0.0004986     28.329   471.671    EM
     9 -0.36806105D+04    0.6602517    0.0001794     28.271   471.729    EM
    10 -0.36797574D+04    0.8530687    0.0002318     28.203   471.797    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 20


  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE      CLASS COUNTS    ALGORITHM
     1 -0.20326738D+05    0.0000000    0.0000000      0.000   500.000    EM
     2 -0.36199192D+04 ************    0.8219134      0.000   500.000    EM
     3 -0.36174524D+04    2.4667820    0.0006814      0.000   500.000    EM
     4 -0.36158178D+04    1.6345490    0.0004519      0.000   500.000    EM
     5 -0.36139462D+04    1.8716848    0.0005176      0.000   500.000    EM
     6 -0.36138358D+04    0.1103999    0.0000305      0.000   500.000    EM
     7 -0.36137515D+04    0.0842949    0.0000233      0.000   500.000    EM
     8 -0.36132480D+04    0.5034921    0.0001393      0.000   500.000    EM
     9 -0.36131496D+04    0.0983339    0.0000272      0.000   500.000    EM
    10 -0.36131379D+04    0.0117048    0.0000032      0.000   500.000    EM


  FINAL STAGE ITERATIONS


  TECHNICAL 8 OUTPUT FOR UNPERTURBED STARTING VALUE SET


     5 -0.26449698D+04    0.8321452    0.0003145    189.581   310.419    EM
     6 -0.26445084D+04    0.4613557    0.0001744    192.629   307.371    EM
     7 -0.26442238D+04    0.2846171    0.0001076    195.357   304.643    EM
     8 -0.26440339D+04    0.1899203    0.0000718    197.833   302.167    EM
     9 -0.26438991D+04    0.1347245    0.0000510    200.105   299.895    EM
    10 -0.26437987D+04    0.1004010    0.0000380    202.205   297.795    EM
    11 -0.26437208D+04    0.0779058    0.0000295    204.158   295.842    EM
    12 -0.26436583D+04    0.0624881    0.0000236    205.982   294.018    EM
    13 -0.26436068D+04    0.0515012    0.0000195    207.692   292.308    EM
    14 -0.26435635D+04    0.0433854    0.0000164    209.300   290.700    EM
    15 -0.26435263D+04    0.0371937    0.0000141    210.816   289.184    EM
    16 -0.26434939D+04    0.0323275    0.0000122    212.246   287.754    EM
    17 -0.26434655D+04    0.0283986    0.0000107    213.598   286.402    EM
    18 -0.26434404D+04    0.0251497    0.0000095    214.876   285.124    EM
    19 -0.26434180D+04    0.0224067    0.0000085    216.086   283.914    EM
    20 -0.26433979D+04    0.0200498    0.0000076    217.233   282.767    EM
    21 -0.26433799D+04    0.0179950    0.0000068    218.319   281.681    EM
    22 -0.26433638D+04    0.0161830    0.0000061    219.348   280.652    EM
    23 -0.26433492D+04    0.0145706    0.0000055    220.323   279.677    EM
    24 -0.26433361D+04    0.0131263    0.0000050    221.246   278.754    EM
    25 -0.26433242D+04    0.0118262    0.0000045    222.122   277.878    EM
    26 -0.26433136D+04    0.0106522    0.0000040    222.951   277.049    EM
    27 -0.26433040D+04    0.0095898    0.0000036    223.736   276.264    EM
    28 -0.26432954D+04    0.0086275    0.0000033    224.480   275.520    EM
    29 -0.26432876D+04    0.0077555    0.0000029    225.184   274.816    EM
    30 -0.26432806D+04    0.0069655    0.0000026    225.850   274.150    EM
    31 -0.26432744D+04    0.0062502    0.0000024    226.480   273.520    EM
    32 -0.26432688D+04    0.0056031    0.0000021    227.077   272.923    EM
    33 -0.26432638D+04    0.0050184    0.0000019    227.640   272.360    EM
    34 -0.26432593D+04    0.0044906    0.0000017    228.173   271.827    EM
    35 -0.26432553D+04    0.0040149    0.0000015    228.677   271.323    EM
    36 -0.26432517D+04    0.0035866    0.0000014    229.153   270.847    EM
    37 -0.26432258D+04    0.0258603    0.0000098    238.263   261.737    FS
    38 -0.26432233D+04    0.0025428    0.0000010    236.359   263.641    FS
    39 -0.26432229D+04    0.0003587    0.0000001    237.186   262.814    FS
    40 -0.26432228D+04    0.0000908    0.0000000    236.873   263.127    FS
    41 -0.26432228D+04    0.0000254    0.0000000    237.037   262.963    FS
    42 -0.26432228D+04    0.0000076    0.0000000    236.957   263.043    FS
    43 -0.26432228D+04    0.0000023    0.0000000    237.000   263.000    FS
    44 -0.26432228D+04    0.0000007    0.0000000    236.977   263.023    FS
    45 -0.26432228D+04    0.0000002    0.0000000    236.990   263.010    FS
    46 -0.26432228D+04    0.0000001    0.0000000    236.983   263.017    FS
    47 -0.26432228D+04    0.0000000    0.0000000    236.987   263.013    FS
    48 -0.26432228D+04    0.0000000    0.0000000    236.985   263.015    FS
    49 -0.26432228D+04    0.0000000    0.0000000    236.986   263.014    FS
    50 -0.26432228D+04    0.0000000    0.0000000    236.985   263.015    FS
    51 -0.26432228D+04    0.0000000    0.0000000    236.985   263.015    FS


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 11


     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM
     4 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 10


     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM
     4 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


  TECHNICAL 8 OUTPUT FOR STARTING VALUE SET 7


     3 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM
     4 -0.26455207D+04    0.0000000    0.0000000      0.000   500.000    EM


     Beginning Time:  22:57:03
        Ending Time:  22:57:04
       Elapsed Time:  00:00:01



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