FACTOR { VARIABLES=var_list, MATRIX IN ({CORR,COV}={*,file_spec}) } [ /METHOD = {CORRELATION, COVARIANCE} ] [ /ANALYSIS=var_list ] [ /EXTRACTION={PC, PAF}] [ /ROTATION={VARIMAX, EQUAMAX, QUARTIMAX, PROMAX[(k)], NOROTATE}] [ /PRINT=[INITIAL] [EXTRACTION] [ROTATION] [UNIVARIATE] [CORRELATION] [COVARIANCE] [DET] [KMO] [AIC] [SIG] [ALL] [DEFAULT] ] [ /PLOT=[EIGEN] ] [ /FORMAT=[SORT] [BLANK(n)] [DEFAULT] ] [ /CRITERIA=[FACTORS(n)] [MINEIGEN(l)] [ITERATE(m)] [ECONVERGE (delta)] [DEFAULT] ] [ /MISSING=[{LISTWISE, PAIRWISE}] [{INCLUDE, EXCLUDE}] ]
The FACTOR
command performs Factor Analysis or Principal Axis Factoring on a dataset. It may be used to find
common factors in the data or for data reduction purposes.
The VARIABLES
subcommand is required (unless the MATRIX IN
subcommand is used).
It lists the variables which are to partake in the analysis. (The ANALYSIS
subcommand may optionally further limit the variables that
participate; it is useful primarily in conjunction with MATRIX IN
.)
If MATRIX IN
instead of VARIABLES
is specified, then the analysis
is performed on a pre-prepared correlation or covariance matrix file instead of on
individual data cases. Typically the matrix file will have been generated by
MATRIX DATA
(see MATRIX DATA) or provided by a third party.
If specified, MATRIX IN
must be followed by ‘COV’ or ‘CORR’,
then by ‘=’ and file_spec all in parentheses.
file_spec may either be an asterisk, which indicates the currently loaded
dataset, or it may be a file name to be loaded. See MATRIX DATA, for the expected
format of the file.
The /EXTRACTION
subcommand is used to specify the way in which factors
(components) are extracted from the data.
If PC
is specified, then Principal Components Analysis is used.
If PAF
is specified, then Principal Axis Factoring is
used. By default Principal Components Analysis is used.
The /ROTATION
subcommand is used to specify the method by which the
extracted solution is rotated. Three orthogonal rotation methods are available:
VARIMAX
(which is the default), EQUAMAX
, and QUARTIMAX
.
There is one oblique rotation method, viz: PROMAX
.
Optionally you may enter the power of the promax rotation k, which must be enclosed in parentheses.
The default value of k is 5.
If you don’t want any rotation to be performed, the word NOROTATE
prevents the command from performing any rotation on the data.
The /METHOD
subcommand should be used to determine whether the
covariance matrix or the correlation matrix of the data is
to be analysed. By default, the correlation matrix is analysed.
The /PRINT
subcommand may be used to select which features of the analysis are reported:
UNIVARIATE
A table of mean values, standard deviations and total weights are printed.
INITIAL
Initial communalities and eigenvalues are printed.
EXTRACTION
Extracted communalities and eigenvalues are printed.
ROTATION
Rotated communalities and eigenvalues are printed.
CORRELATION
The correlation matrix is printed.
COVARIANCE
The covariance matrix is printed.
DET
The determinant of the correlation or covariance matrix is printed.
AIC
The anti-image covariance and anti-image correlation matrices are printed.
KMO
The Kaiser-Meyer-Olkin measure of sampling adequacy and the Bartlett test of sphericity is printed.
SIG
The significance of the elements of correlation matrix is printed.
ALL
All of the above are printed.
DEFAULT
Identical to INITIAL
and EXTRACTION
.
If /PLOT=EIGEN
is given, then a “Scree” plot of the eigenvalues is
printed. This can be useful for visualizing the factors and deciding
which factors (components) should be retained.
The /FORMAT
subcommand determined how data are to be
displayed in loading matrices. If SORT
is specified, then
the variables are sorted in descending order of significance. If
BLANK(n)
is specified, then coefficients whose absolute
value is less than n are not printed. If the keyword
DEFAULT
is specified, or if no /FORMAT
subcommand is
specified, then no sorting is performed, and all coefficients are printed.
You can use the /CRITERIA
subcommand to specify how the number of
extracted factors (components) are chosen. If FACTORS(n)
is
specified, where n is an integer, then n factors are
extracted. Otherwise, the MINEIGEN
setting is used.
MINEIGEN(l)
requests that all factors whose eigenvalues
are greater than or equal to l are extracted. The default value
of l is 1. The ECONVERGE
setting has effect only when
using iterative algorithms for factor extraction (such as Principal Axis
Factoring). ECONVERGE(delta)
specifies that
iteration should cease when the maximum absolute value of the
communality estimate between one iteration and the previous is less
than delta. The default value of delta is 0.001.
The ITERATE(m)
may appear any number of times and is
used for two different purposes. It is used to set the maximum number
of iterations (m) for convergence and also to set the maximum
number of iterations for rotation.
Whether it affects convergence or rotation depends upon which
subcommand follows the ITERATE
subcommand.
If EXTRACTION
follows, it affects convergence.
If ROTATION
follows, it affects rotation.
If neither ROTATION
nor EXTRACTION
follow a
ITERATE
subcommand, then the entire subcommand is ignored.
The default value of m is 25.
The MISSING
subcommand determines the handling of missing
variables. If INCLUDE
is set, then user-missing values are
included in the calculations, but system-missing values are not.
If EXCLUDE
is set, which is the default, user-missing
values are excluded as well as system-missing values. This is the
default. If LISTWISE
is set, then the entire case is excluded
from analysis whenever any variable specified in the VARIABLES
subcommand contains a missing value.
If PAIRWISE
is set, then a case is considered missing only if
either of the values for the particular coefficient are missing.
The default is LISTWISE
.