```Mplus VERSION 8.8
MUTHEN & MUTHEN
04/19/2022  10:22 PM

INPUT INSTRUCTIONS

TITLE:	this is an example of a two-level CFA with
continuous factor indicators with two
factors on the within level and one factor
on the between level

montecarlo:
names are y1-y6 x1 x2 w;
nobservations = 1000;
ncsizes = 3;
csizes = 40 (5) 50 (10) 20 (15);
seed = 58459;
nreps = 1;
save = ex4.5.dat;
within = x1 x2;
between = w;

ANALYSIS:	TYPE = TWOLEVEL;

MODEL POPULATION:

%WITHIN%
x1-x2@1;
fw1 by y1@1 y2-y3*1;
fw2 by y4@1 y5-y6*1;
fw1-fw2*1;
y1-y6*1;

fw1 on x1*.5 x2*.7;
fw2 on x1*.7 x2*.5;

%BETWEEN%
[w@0]; w*1;
fb BY y1@1 y2-y6*1;
y1-y6*.3;
fb*.5;
fb on w*1;

MODEL:

%WITHIN%

fw1 by y1@1 y2-y3*1;
fw2 by y4@1 y5-y6*1;
fw1-fw2*1;
y1-y6*1;

fw1 on x1*.5 x2*.7;
fw2 on x1*.7 x2*.5;

%BETWEEN%

fb BY y1@1 y2-y6*1;
y1-y6*.3;
fb*.5;
fb on w*1;

output:
tech8 tech9;

this is an example of a two-level CFA with
continuous factor indicators with two
factors on the within level and one factor
on the between level

SUMMARY OF ANALYSIS

Number of groups                                                 1
Number of observations                                        1000

Number of replications
Requested                                                    1
Completed                                                    1
Value of seed                                                58459

Number of dependent variables                                    6
Number of independent variables                                  3
Number of continuous latent variables                            3

Observed dependent variables

Continuous
Y1          Y2          Y3          Y4          Y5          Y6

Observed independent variables
X1          X2          W

Continuous latent variables
FW1         FW2         FB

Variables with special functions

Within variables
X1          X2

Between variables
W

Estimator                                                      MLR
Information matrix                                        OBSERVED
Maximum number of iterations                                   100
Convergence criterion                                    0.100D-05
Maximum number of EM iterations                                500
Convergence criteria for the EM algorithm
Loglikelihood change                                   0.100D-02
Relative loglikelihood change                          0.100D-05
Derivative                                             0.100D-03
Minimum variance                                         0.100D-03
Maximum number of steepest descent iterations                   20
Maximum number of iterations for H1                           2000
Convergence criterion for H1                             0.100D-03
Optimization algorithm                                         EMA

SUMMARY OF DATA FOR THE FIRST REPLICATION

Cluster information

Size (s)    Number of clusters of Size s

5            40
10            50
15            20

Average cluster size        9.091

Estimated Intraclass Correlations for the Y Variables

Intraclass              Intraclass              Intraclass
Variable  Correlation   Variable  Correlation   Variable  Correlation

Y1           0.399      Y2           0.388      Y3           0.377
Y4           0.377      Y5           0.427      Y6           0.444

SAMPLE STATISTICS FOR THE FIRST REPLICATION

NOTE:  The sample statistics for within and between refer to the
maximum-likelihood estimated within and between covariance
matrices, respectively.

ESTIMATED SAMPLE STATISTICS FOR WITHIN

Means
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
0.000         0.000         0.000         0.000         0.000

Means
Y6            X1            X2            W
________      ________      ________      ________
0.000        -0.022        -0.032         0.000

Covariances
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             3.016
Y2             1.865         2.814
Y3             1.825         1.753         2.756
Y4             0.695         0.620         0.641         2.649
Y5             0.751         0.666         0.705         1.718         2.882
Y6             0.711         0.704         0.606         1.496         1.656
X1             0.390         0.350         0.376         0.657         0.677
X2             0.822         0.740         0.713         0.501         0.568
W              0.000         0.000         0.000         0.000         0.000

Covariances
Y6            X1            X2            W
________      ________      ________      ________
Y6             2.415
X1             0.637         0.914
X2             0.481        -0.012         1.004
W              0.000         0.000         0.000         0.000

Correlations
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             1.000
Y2             0.640         1.000
Y3             0.633         0.629         1.000
Y4             0.246         0.227         0.237         1.000
Y5             0.255         0.234         0.250         0.622         1.000
Y6             0.264         0.270         0.235         0.592         0.628
X1             0.235         0.218         0.237         0.422         0.417
X2             0.472         0.440         0.429         0.307         0.334
W              0.000         0.000         0.000         0.000         0.000

Correlations
Y6            X1            X2            W
________      ________      ________      ________
Y6             1.000
X1             0.429         1.000
X2             0.309        -0.013         1.000
W              0.000         0.000         0.000         0.000

ESTIMATED SAMPLE STATISTICS FOR BETWEEN

Means
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
-0.030        -0.015         0.029         0.000        -0.064

Means
Y6            X1            X2            W
________      ________      ________      ________
0.098         0.000         0.000         0.027

Covariances
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             2.007
Y2             1.609         1.787
Y3             1.610         1.433         1.666
Y4             1.395         1.325         1.338         1.604
Y5             1.741         1.706         1.640         1.598         2.150
Y6             1.654         1.497         1.507         1.404         1.741
X1             0.000         0.000         0.000         0.000         0.000
X2             0.000         0.000         0.000         0.000         0.000
W              1.162         1.033         1.003         0.832         1.098

Covariances
Y6            X1            X2            W
________      ________      ________      ________
Y6             1.931
X1             0.000         0.000
X2             0.000         0.000         0.000
W              1.047         0.000         0.000         1.069

Correlations
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             1.000
Y2             0.850         1.000
Y3             0.880         0.830         1.000
Y4             0.777         0.782         0.818         1.000
Y5             0.838         0.870         0.866         0.861         1.000
Y6             0.840         0.806         0.840         0.798         0.854
X1             0.000         0.000         0.000         0.000         0.000
X2             0.000         0.000         0.000         0.000         0.000
W              0.793         0.747         0.751         0.636         0.724

Correlations
Y6            X1            X2            W
________      ________      ________      ________
Y6             1.000
X1             0.000         0.000
X2             0.000         0.000         0.000
W              0.729         0.000         0.000         1.000

MODEL FIT INFORMATION

Number of Free Parameters                       36

Loglikelihood

H0 Value

Mean                            -10370.838
Std Dev                              0.000
Number of successful computations        1

Proportions                   Percentiles
Expected    Observed         Expected       Observed
0.990       0.000       -10370.838     -10370.838
0.980       0.000       -10370.838     -10370.838
0.950       0.000       -10370.838     -10370.838
0.900       0.000       -10370.838     -10370.838
0.800       0.000       -10370.838     -10370.838
0.700       0.000       -10370.838     -10370.838
0.500       0.000       -10370.838     -10370.838
0.300       0.000       -10370.838     -10370.838
0.200       0.000       -10370.838     -10370.838
0.100       0.000       -10370.838     -10370.838
0.050       0.000       -10370.838     -10370.838
0.020       0.000       -10370.838     -10370.838
0.010       0.000       -10370.838     -10370.838

H1 Value

Mean                            -10358.871
Std Dev                              0.000
Number of successful computations        1

Proportions                   Percentiles
Expected    Observed         Expected       Observed
0.990       0.000       -10358.871     -10358.871
0.980       0.000       -10358.871     -10358.871
0.950       0.000       -10358.871     -10358.871
0.900       0.000       -10358.871     -10358.871
0.800       0.000       -10358.871     -10358.871
0.700       0.000       -10358.871     -10358.871
0.500       0.000       -10358.871     -10358.871
0.300       0.000       -10358.871     -10358.871
0.200       0.000       -10358.871     -10358.871
0.100       0.000       -10358.871     -10358.871
0.050       0.000       -10358.871     -10358.871
0.020       0.000       -10358.871     -10358.871
0.010       0.000       -10358.871     -10358.871

Information Criteria

Akaike (AIC)

Mean                             20813.677
Std Dev                              0.000
Number of successful computations        1

Proportions                   Percentiles
Expected    Observed         Expected       Observed
0.990       0.000        20813.677      20813.677
0.980       0.000        20813.677      20813.677
0.950       0.000        20813.677      20813.677
0.900       0.000        20813.677      20813.677
0.800       0.000        20813.677      20813.677
0.700       0.000        20813.677      20813.677
0.500       0.000        20813.677      20813.677
0.300       0.000        20813.677      20813.677
0.200       0.000        20813.677      20813.677
0.100       0.000        20813.677      20813.677
0.050       0.000        20813.677      20813.677
0.020       0.000        20813.677      20813.677
0.010       0.000        20813.677      20813.677

Bayesian (BIC)

Mean                             20990.356
Std Dev                              0.000
Number of successful computations        1

Proportions                   Percentiles
Expected    Observed         Expected       Observed
0.990       0.000        20990.356      20990.356
0.980       0.000        20990.356      20990.356
0.950       0.000        20990.356      20990.356
0.900       0.000        20990.356      20990.356
0.800       0.000        20990.356      20990.356
0.700       0.000        20990.356      20990.356
0.500       0.000        20990.356      20990.356
0.300       0.000        20990.356      20990.356
0.200       0.000        20990.356      20990.356
0.100       0.000        20990.356      20990.356
0.050       0.000        20990.356      20990.356
0.020       0.000        20990.356      20990.356
0.010       0.000        20990.356      20990.356

Sample-Size Adjusted BIC (n* = (n + 2) / 24)

Mean                             20876.018
Std Dev                              0.000
Number of successful computations        1

Proportions                   Percentiles
Expected    Observed         Expected       Observed
0.990       0.000        20876.018      20876.018
0.980       0.000        20876.018      20876.018
0.950       0.000        20876.018      20876.018
0.900       0.000        20876.018      20876.018
0.800       0.000        20876.018      20876.018
0.700       0.000        20876.018      20876.018
0.500       0.000        20876.018      20876.018
0.300       0.000        20876.018      20876.018
0.200       0.000        20876.018      20876.018
0.100       0.000        20876.018      20876.018
0.050       0.000        20876.018      20876.018
0.020       0.000        20876.018      20876.018
0.010       0.000        20876.018      20876.018

Chi-Square Test of Model Fit

Degrees of freedom                      30

Mean                                24.676
Std Dev                              0.000
Number of successful computations        1

Proportions                   Percentiles
Expected    Observed         Expected       Observed
0.990       1.000           14.953         24.676
0.980       1.000           16.306         24.676
0.950       1.000           18.493         24.676
0.900       1.000           20.599         24.676
0.800       1.000           23.364         24.676
0.700       0.000           25.508         24.676
0.500       0.000           29.336         24.676
0.300       0.000           33.530         24.676
0.200       0.000           36.250         24.676
0.100       0.000           40.256         24.676
0.050       0.000           43.773         24.676
0.020       0.000           47.962         24.676
0.010       0.000           50.892         24.676

RMSEA (Root Mean Square Error Of Approximation)

Mean                                 0.000
Std Dev                              0.000
Number of successful computations        1

Cumulative Distribution Function
Value    Function Value
0.990       1.000
0.980       1.000
0.950       1.000
0.900       1.000
0.800       1.000
0.700       1.000
0.500       1.000
0.300       1.000
0.200       1.000
0.100       1.000
0.050       1.000
0.020       1.000
0.010       1.000

CFI/TLI

CFI

Mean                                 1.000
Std Dev                              0.000
Number of successful computations        1

Cumulative Distribution Function
Value    Function Value
0.990       0.000
0.980       0.000
0.950       0.000
0.900       0.000
0.800       0.000
0.700       0.000
0.500       0.000
0.300       0.000
0.200       0.000
0.100       0.000
0.050       0.000
0.020       0.000
0.010       0.000

TLI

Mean                                 1.000
Std Dev                              0.000
Number of successful computations        1

Cumulative Distribution Function
Value    Function Value
0.990       0.000
0.980       0.000
0.950       0.000
0.900       0.000
0.800       0.000
0.700       0.000
0.500       0.000
0.300       0.000
0.200       0.000
0.100       0.000
0.050       0.000
0.020       0.000
0.010       0.000

SRMR (Standardized Root Mean Square Residual) for the WITHIN level

Mean                                 0.010
Std Dev                              0.000
Number of successful computations        1

Cumulative Distribution Function
Value    Function Value
0.990       1.000
0.980       1.000
0.950       1.000
0.900       1.000
0.800       1.000
0.700       1.000
0.500       1.000
0.300       1.000
0.200       1.000
0.100       1.000
0.050       1.000
0.020       1.000
0.010       1.000

SRMR (Standardized Root Mean Square Residual) for the BETWEEN level

Mean                                 0.022
Std Dev                              0.000
Number of successful computations        1

Cumulative Distribution Function
Value    Function Value
0.990       1.000
0.980       1.000
0.950       1.000
0.900       1.000
0.800       1.000
0.700       1.000
0.500       1.000
0.300       1.000
0.200       1.000
0.100       1.000
0.050       1.000
0.020       0.000
0.010       0.000

MODEL RESULTS

ESTIMATES              S. E.     M. S. E.  95%  % Sig
Population   Average   Std. Dev.   Average             Cover Coeff

Within Level

FW1      BY
Y1                  1.000     1.0000     0.0000     0.0000     0.0000 1.000 0.000
Y2                  1.000     0.9373     0.0000     0.0385     0.0039 1.000 1.000
Y3                  1.000     0.9197     0.0000     0.0418     0.0064 1.000 1.000

FW2      BY
Y4                  1.000     1.0000     0.0000     0.0000     0.0000 1.000 0.000
Y5                  1.000     1.0941     0.0000     0.0418     0.0088 0.000 1.000
Y6                  1.000     0.9602     0.0000     0.0387     0.0016 1.000 1.000

FW1        ON
X1                  0.500     0.4388     0.0000     0.0446     0.0037 1.000 1.000
X2                  0.700     0.7974     0.0000     0.0483     0.0095 0.000 1.000

FW2        ON
X1                  0.700     0.7089     0.0000     0.0492     0.0001 1.000 1.000
X2                  0.500     0.5156     0.0000     0.0334     0.0002 1.000 1.000

FW2      WITH
FW1                 0.000     0.0035     0.0000     0.0430     0.0000 1.000 0.000

Residual Variances
Y1                  1.000     1.0244     0.0000     0.0705     0.0006 1.000 1.000
Y2                  1.000     1.0545     0.0000     0.0740     0.0030 1.000 1.000
Y3                  1.000     1.0615     0.0000     0.0749     0.0038 1.000 1.000
Y4                  1.000     1.0813     0.0000     0.0731     0.0066 1.000 1.000
Y5                  1.000     1.0100     0.0000     0.0756     0.0001 1.000 1.000
Y6                  1.000     0.9589     0.0000     0.0674     0.0017 1.000 1.000
FW1                 1.000     1.1928     0.0000     0.0930     0.0372 0.000 1.000
FW2                 1.000     0.8628     0.0000     0.0580     0.0188 0.000 1.000

Between Level

FB       BY
Y1                  1.000     1.0000     0.0000     0.0000     0.0000 1.000 0.000
Y2                  1.000     0.9250     0.0000     0.0674     0.0056 1.000 1.000
Y3                  1.000     0.9107     0.0000     0.0566     0.0080 1.000 1.000
Y4                  1.000     0.8293     0.0000     0.0793     0.0292 0.000 1.000
Y5                  1.000     1.0391     0.0000     0.0867     0.0015 1.000 1.000
Y6                  1.000     0.9515     0.0000     0.0804     0.0024 1.000 1.000

FB         ON
W                   1.000     1.0223     0.0000     0.0896     0.0005 1.000 1.000

Intercepts
Y1                  0.000    -0.0242     0.0000     0.0964     0.0006 1.000 0.000
Y2                  0.000    -0.0087     0.0000     0.0978     0.0001 1.000 0.000
Y3                  0.000     0.0351     0.0000     0.0937     0.0012 1.000 0.000
Y4                  0.000     0.0133     0.0000     0.1047     0.0002 1.000 0.000
Y5                  0.000    -0.0540     0.0000     0.1070     0.0029 1.000 0.000
Y6                  0.000     0.1046     0.0000     0.1002     0.0109 1.000 0.000

Residual Variances
Y1                  0.300     0.2506     0.0000     0.0693     0.0024 1.000 1.000
Y2                  0.300     0.3119     0.0000     0.0855     0.0001 1.000 1.000
Y3                  0.300     0.2182     0.0000     0.0593     0.0067 1.000 1.000
Y4                  0.300     0.3522     0.0000     0.0856     0.0027 1.000 1.000
Y5                  0.300     0.2304     0.0000     0.0743     0.0048 1.000 1.000
Y6                  0.300     0.3386     0.0000     0.0738     0.0015 1.000 1.000
FB                  0.500     0.6256     0.0000     0.1138     0.0158 1.000 1.000

QUALITY OF NUMERICAL RESULTS

Average Condition Number for the Information Matrix      0.870E-04
(ratio of smallest to largest eigenvalue)

TECHNICAL 1 OUTPUT

PARAMETER SPECIFICATION FOR WITHIN

NU
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
0             0             0             0             0

NU
Y6            X1            X2
________      ________      ________
0             0             0

LAMBDA
FW1           FW2           X1            X2
________      ________      ________      ________
Y1                 0             0             0             0
Y2                 1             0             0             0
Y3                 2             0             0             0
Y4                 0             0             0             0
Y5                 0             3             0             0
Y6                 0             4             0             0
X1                 0             0             0             0
X2                 0             0             0             0

THETA
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1                 5
Y2                 0             6
Y3                 0             0             7
Y4                 0             0             0             8
Y5                 0             0             0             0             9
Y6                 0             0             0             0             0
X1                 0             0             0             0             0
X2                 0             0             0             0             0

THETA
Y6            X1            X2
________      ________      ________
Y6                10
X1                 0             0
X2                 0             0             0

ALPHA
FW1           FW2           X1            X2
________      ________      ________      ________
0             0             0             0

BETA
FW1           FW2           X1            X2
________      ________      ________      ________
FW1                0             0            11            12
FW2                0             0            13            14
X1                 0             0             0             0
X2                 0             0             0             0

PSI
FW1           FW2           X1            X2
________      ________      ________      ________
FW1               15
FW2               16            17
X1                 0             0             0
X2                 0             0             0             0

PARAMETER SPECIFICATION FOR BETWEEN

NU
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
18            19            20            21            22

NU
Y6            W
________      ________
23             0

LAMBDA
FB            W
________      ________
Y1                 0             0
Y2                24             0
Y3                25             0
Y4                26             0
Y5                27             0
Y6                28             0
W                  0             0

THETA
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1                29
Y2                 0            30
Y3                 0             0            31
Y4                 0             0             0            32
Y5                 0             0             0             0            33
Y6                 0             0             0             0             0
W                  0             0             0             0             0

THETA
Y6            W
________      ________
Y6                34
W                  0             0

ALPHA
FB            W
________      ________
0             0

BETA
FB            W
________      ________
FB                 0            35
W                  0             0

PSI
FB            W
________      ________
FB                36
W                  0             0

STARTING VALUES FOR WITHIN

NU
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
0.000         0.000         0.000         0.000         0.000

NU
Y6            X1            X2
________      ________      ________
0.000         0.000         0.000

LAMBDA
FW1           FW2           X1            X2
________      ________      ________      ________
Y1             1.000         0.000         0.000         0.000
Y2             1.000         0.000         0.000         0.000
Y3             1.000         0.000         0.000         0.000
Y4             0.000         1.000         0.000         0.000
Y5             0.000         1.000         0.000         0.000
Y6             0.000         1.000         0.000         0.000
X1             0.000         0.000         1.000         0.000
X2             0.000         0.000         0.000         1.000

THETA
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             1.000
Y2             0.000         1.000
Y3             0.000         0.000         1.000
Y4             0.000         0.000         0.000         1.000
Y5             0.000         0.000         0.000         0.000         1.000
Y6             0.000         0.000         0.000         0.000         0.000
X1             0.000         0.000         0.000         0.000         0.000
X2             0.000         0.000         0.000         0.000         0.000

THETA
Y6            X1            X2
________      ________      ________
Y6             1.000
X1             0.000         0.000
X2             0.000         0.000         0.000

ALPHA
FW1           FW2           X1            X2
________      ________      ________      ________
0.000         0.000         0.000         0.000

BETA
FW1           FW2           X1            X2
________      ________      ________      ________
FW1            0.000         0.000         0.500         0.700
FW2            0.000         0.000         0.700         0.500
X1             0.000         0.000         0.000         0.000
X2             0.000         0.000         0.000         0.000

PSI
FW1           FW2           X1            X2
________      ________      ________      ________
FW1            1.000
FW2            0.000         1.000
X1             0.000         0.000         0.500
X2             0.000         0.000         0.000         0.500

STARTING VALUES FOR BETWEEN

NU
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
0.000         0.000         0.000         0.000         0.000

NU
Y6            W
________      ________
0.000         0.000

LAMBDA
FB            W
________      ________
Y1             1.000         0.000
Y2             1.000         0.000
Y3             1.000         0.000
Y4             1.000         0.000
Y5             1.000         0.000
Y6             1.000         0.000
W              0.000         1.000

THETA
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             0.300
Y2             0.000         0.300
Y3             0.000         0.000         0.300
Y4             0.000         0.000         0.000         0.300
Y5             0.000         0.000         0.000         0.000         0.300
Y6             0.000         0.000         0.000         0.000         0.000
W              0.000         0.000         0.000         0.000         0.000

THETA
Y6            W
________      ________
Y6             0.300
W              0.000         0.000

ALPHA
FB            W
________      ________
0.000         0.000

BETA
FB            W
________      ________
FB             0.000         1.000
W              0.000         0.000

PSI
FB            W
________      ________
FB             0.500
W              0.000         0.500

POPULATION VALUES FOR WITHIN

NU
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
0.000         0.000         0.000         0.000         0.000

NU
Y6            X1            X2
________      ________      ________
0.000         0.000         0.000

LAMBDA
FW1           FW2           X1            X2
________      ________      ________      ________
Y1             1.000         0.000         0.000         0.000
Y2             1.000         0.000         0.000         0.000
Y3             1.000         0.000         0.000         0.000
Y4             0.000         1.000         0.000         0.000
Y5             0.000         1.000         0.000         0.000
Y6             0.000         1.000         0.000         0.000
X1             0.000         0.000         1.000         0.000
X2             0.000         0.000         0.000         1.000

THETA
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             1.000
Y2             0.000         1.000
Y3             0.000         0.000         1.000
Y4             0.000         0.000         0.000         1.000
Y5             0.000         0.000         0.000         0.000         1.000
Y6             0.000         0.000         0.000         0.000         0.000
X1             0.000         0.000         0.000         0.000         0.000
X2             0.000         0.000         0.000         0.000         0.000

THETA
Y6            X1            X2
________      ________      ________
Y6             1.000
X1             0.000         0.000
X2             0.000         0.000         0.000

ALPHA
FW1           FW2           X1            X2
________      ________      ________      ________
0.000         0.000         0.000         0.000

BETA
FW1           FW2           X1            X2
________      ________      ________      ________
FW1            0.000         0.000         0.500         0.700
FW2            0.000         0.000         0.700         0.500
X1             0.000         0.000         0.000         0.000
X2             0.000         0.000         0.000         0.000

PSI
FW1           FW2           X1            X2
________      ________      ________      ________
FW1            1.000
FW2            0.000         1.000
X1             0.000         0.000         1.000
X2             0.000         0.000         0.000         1.000

POPULATION VALUES FOR BETWEEN

NU
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
0.000         0.000         0.000         0.000         0.000

NU
Y6            W
________      ________
0.000         0.000

LAMBDA
FB            W
________      ________
Y1             1.000         0.000
Y2             1.000         0.000
Y3             1.000         0.000
Y4             1.000         0.000
Y5             1.000         0.000
Y6             1.000         0.000
W              0.000         1.000

THETA
Y1            Y2            Y3            Y4            Y5
________      ________      ________      ________      ________
Y1             0.300
Y2             0.000         0.300
Y3             0.000         0.000         0.300
Y4             0.000         0.000         0.000         0.300
Y5             0.000         0.000         0.000         0.000         0.300
Y6             0.000         0.000         0.000         0.000         0.000
W              0.000         0.000         0.000         0.000         0.000

THETA
Y6            W
________      ________
Y6             0.300
W              0.000         0.000

ALPHA
FB            W
________      ________
0.000         0.000

BETA
FB            W
________      ________
FB             0.000         1.000
W              0.000         0.000

PSI
FB            W
________      ________
FB             0.500
W              0.000         1.000

TECHNICAL 8 OUTPUT

TECHNICAL 8 OUTPUT FOR REPLICATION 1

E STEP  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE  ALGORITHM
1 -0.10396616D+05    0.0000000    0.0000000  EM
2 -0.10372421D+05   24.1954952    0.0023272  EM
3 -0.10371218D+05    1.2021229    0.0001159  EM
4 -0.10370982D+05    0.2365635    0.0000228  EM
5 -0.10370902D+05    0.0801610    0.0000077  EM
6 -0.10370868D+05    0.0337230    0.0000033  EM
7 -0.10370853D+05    0.0154238    0.0000015  EM
8 -0.10370845D+05    0.0073259    0.0000007  EM
9 -0.10370842D+05    0.0035544    0.0000003  EM
10 -0.10370840D+05    0.0017482    0.0000002  EM
11 -0.10370839D+05    0.0008673    0.0000001  EM
12 -0.10370839D+05    0.0004341    0.0000000  EM
13 -0.10370838D+05    0.0002183    0.0000000  EM
14 -0.10370838D+05    0.0001102    0.0000000  EM
15 -0.10370838D+05    0.0000558    0.0000000  EM
16 -0.10370838D+05    0.0000283    0.0000000  EM

TECHNICAL 8 OUTPUT FOR THE H1 MODEL FOR REPLICATION 1

E STEP  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE  ALGORITHM
1 -0.11819554D+05    0.0000000    0.0000000  EM
2 -0.10383748D+05 1435.8059799    0.1214772  EM
3 -0.10361669D+05   22.0794570    0.0021263  EM
4 -0.10360199D+05    1.4700407    0.0001419  EM
5 -0.10359644D+05    0.5547613    0.0000535  EM
6 -0.10359352D+05    0.2914098    0.0000281  EM
7 -0.10359183D+05    0.1689732    0.0000163  EM
8 -0.10359079D+05    0.1039437    0.0000100  EM
9 -0.10359013D+05    0.0665527    0.0000064  EM
10 -0.10358969D+05    0.0438549    0.0000042  EM
11 -0.10358940D+05    0.0295260    0.0000029  EM
12 -0.10358919D+05    0.0202104    0.0000020  EM
13 -0.10358905D+05    0.0140152    0.0000014  EM
14 -0.10358896D+05    0.0098209    0.0000009  EM
15 -0.10358889D+05    0.0069403    0.0000007  EM
16 -0.10358884D+05    0.0049389    0.0000005  EM
17 -0.10358880D+05    0.0035349    0.0000003  EM
18 -0.10358878D+05    0.0025422    0.0000002  EM
19 -0.10358876D+05    0.0018357    0.0000002  EM
20 -0.10358874D+05    0.0013300    0.0000001  EM
21 -0.10358873D+05    0.0009664    0.0000001  EM
22 -0.10358873D+05    0.0007039    0.0000001  EM
23 -0.10358872D+05    0.0005138    0.0000000  EM
24 -0.10358872D+05    0.0003756    0.0000000  EM
25 -0.10358872D+05    0.0002751    0.0000000  EM
26 -0.10358871D+05    0.0002017    0.0000000  EM
27 -0.10358871D+05    0.0001480    0.0000000  EM
28 -0.10358871D+05    0.0001087    0.0000000  EM
29 -0.10358871D+05    0.0000800    0.0000000  EM

TECHNICAL 8 OUTPUT FOR THE BASELINE MODEL

E STEP  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE  ALGORITHM
1 -0.12146056D+05    0.0000000    0.0000000  EM
2 -0.12145751D+05    0.3054927    0.0000252  EM
3 -0.12145738D+05    0.0132351    0.0000011  EM
4 -0.12145737D+05    0.0010744    0.0000001  EM
5 -0.12145736D+05    0.0001009    0.0000000  EM
6 -0.12145736D+05    0.0000098    0.0000000  EM

TECHNICAL 8 OUTPUT FOR THE H1 MODEL FOR REPLICATION 1

E STEP  ITER  LOGLIKELIHOOD    ABS CHANGE   REL CHANGE  ALGORITHM
1 -0.11819554D+05    0.0000000    0.0000000  EM
2 -0.10383748D+05 1435.8059799    0.1214772  EM
3 -0.10361669D+05   22.0794570    0.0021263  EM
4 -0.10360199D+05    1.4700407    0.0001419  EM
5 -0.10359644D+05    0.5547613    0.0000535  EM
6 -0.10359352D+05    0.2914098    0.0000281  EM
7 -0.10359183D+05    0.1689732    0.0000163  EM
8 -0.10359079D+05    0.1039437    0.0000100  EM
9 -0.10359013D+05    0.0665527    0.0000064  EM
10 -0.10358969D+05    0.0438549    0.0000042  EM
11 -0.10358940D+05    0.0295260    0.0000029  EM
12 -0.10358919D+05    0.0202104    0.0000020  EM
13 -0.10358905D+05    0.0140152    0.0000014  EM
14 -0.10358896D+05    0.0098209    0.0000009  EM
15 -0.10358889D+05    0.0069403    0.0000007  EM
16 -0.10358884D+05    0.0049389    0.0000005  EM
17 -0.10358880D+05    0.0035349    0.0000003  EM
18 -0.10358878D+05    0.0025422    0.0000002  EM
19 -0.10358876D+05    0.0018357    0.0000002  EM
20 -0.10358874D+05    0.0013300    0.0000001  EM
21 -0.10358873D+05    0.0009664    0.0000001  EM
22 -0.10358873D+05    0.0007039    0.0000001  EM
23 -0.10358872D+05    0.0005138    0.0000000  EM
24 -0.10358872D+05    0.0003756    0.0000000  EM
25 -0.10358872D+05    0.0002751    0.0000000  EM
26 -0.10358871D+05    0.0002017    0.0000000  EM
27 -0.10358871D+05    0.0001480    0.0000000  EM
28 -0.10358871D+05    0.0001087    0.0000000  EM
29 -0.10358871D+05    0.0000800    0.0000000  EM

TECHNICAL 9 OUTPUT

Error messages for each replication (if any)

SAVEDATA INFORMATION

Order of variables

Y1
Y2
Y3
Y4
Y5
Y6
X1
X2
W
CLUSTER

Save file
ex4.5.dat

Save file format           Free
Save file record length    10000

Beginning Time:  22:22:52
Ending Time:  22:22:52
Elapsed Time:  00:00:00

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