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ANALYSIS命令语法 {|class="wikitable" | width=20% | ANALYSIS: | width=50% | | width=30% | |- | width=20% | | width=50% | | width=30% | |- | width=20% | TYPE = | width=50% | <strong>GEN</strong>ERAL; | width=30% | GENERAL |- | width=20% | | width=50% | <strong> BAS</strong>IC; | width=30% | |- | width=20% | | width=50% | <strong> RAND</strong>OM; | width=30% | |- | width=20% | | width=50% | <strong> COM</strong>PLEX; | width=30% | |- | width=20% | | width=50% | <strong>MIX</strong>TURE; <strong> BAS</strong>IC; <strong> RAND</strong>OM; <strong> COM</strong>PLEX; | width=30% | |- | width=20% | | width=50% | <strong>TWO</strong>LEVEL; <strong> BAS</strong>IC; <strong> RAND</strong>OM; <strong> MIX</strong>TURE; <strong> COM</strong>PLEX; | width=30% | |- | width=20% | | width=50% | <strong>THREE</strong>LEVEL; <strong> BAS</strong>IC; <strong> RAND</strong>OM; <strong> COM</strong>PLEX; | width=30% | |- | width=20% | | width=50% | <strong>CROSS</strong>CLASSIFIED; <strong> RAND</strong>OM; | width=30% | |- | width=20% | | width=50% | EFA # #; <strong> BAS</strong>IC; <strong> MIX</strong>TURE; <strong> COM</strong>PLEX; <strong> TWO</strong>LEVEL; EFA # # UW* # # UB*; EFA # # UW # # UB; | width=30% | |- | width=20% | ESTIMATOR = | width=50% | ML; | width=30% | depends on |- | width=20% | | width=50% | MLM; | width=30% | analysis type |- | width=20% | | width=50% | MLMV; | width=30% | |- | width=20% | | width=50% | MLR; | width=30% | |- | width=20% | | width=50% | MLF; | width=30% | |- | width=20% | | width=50% | MUML; | width=30% | |- | width=20% | | width=50% | WLS; | width=30% | |- | width=20% | | width=50% | WLSM; | width=30% | |- | width=20% | | width=50% | WLSMV; | width=30% | |- | width=20% | | width=50% | ULS; | width=30% | |- | width=20% | | width=50% | ULSMV; | width=30% | |- | width=20% | | width=50% | GLS; | width=30% | |- | width=20% | | width=50% | BAYES; | width=30% | |- | width=20% | MODEL = | width=50% | <strong>CONFIG</strong>URAL; | width=30% | |- | width=20% | | width=50% | METRIC; | width=30% | |- | width=20% | | width=50% | SCALAR; | width=30% | |- | width=20% | | width=50% | <strong>NOMEAN</strong>STRUCTURE; | width=30% | means |- | width=20% | | width=50% | <strong>NOCOV</strong>ARIANCES; | width=30% | covariances |- | width=20% | | width=50% | <strong>ALL</strong>FREE; | width=30% | equal |- | width=20% | ALIGNMENT = | width=50% | FIXED; | width=30% | last class |- | width=20% | | width=50% | | width=30% | CONFIGURAL |- | width=20% | | width=50% | FIXED (reference class <strong>CONFIG</strong>URAL); | width=30% | |- | width=20% | | width=50% | FIXED (reference class BSEM); | width=30% | |- | width=20% | | width=50% | FREE; | width=30% | last class |- | width=20% | | width=50% | | width=30% | CONFIGURAL |- | width=20% | | width=50% | FREE (reference class <strong>CONFIG</strong>URAL); | width=30% | |- | width=20% | | width=50% | FREE (reference class BSEM); | width=30% | |- | width=20% | DISTRIBUTION = | width=50% | <strong>NORM</strong>AL; | width=30% | NORMAL |- | width=20% | | width=50% | <strong>SKEW</strong>NORMAL; | width=30% | |- | width=20% | | width=50% | <strong>TDIST</strong>RIBUTION; | width=30% | |- | width=20% | | width=50% | SKEWT; | width=30% | |- | width=20% | PARAMETERIZATION = | width=50% | DELTA; | width=30% | DELTA |- | width=20% | | width=50% | THETA; | width=30% | |- | width=20% | | width=50% | LOGIT; | width=30% | LOGIT |- | width=20% | | width=50% | <strong>LOGLIN</strong>EAR; | width=30% | |- | width=20% | | width=50% | <strong>PROB</strong>ABILITY; <strong>RESCOV</strong>ARIANCES; | width=30% | RESCOV |- | width=20% | LINK = | width=50% | <strong>LOG</strong>IT; | width=30% | LOGIT |- | width=20% | | width=50% | <strong>PROB</strong>IT; | width=30% | |- | width=20% | ROTATION = | width=50% | <strong>GEO</strong>MIN; | width=30% | GEOMIN (OBLIQUE value) |- | width=20% | | width=50% | <strong>GEO</strong>MIN (<strong>OB</strong>LIQUE value); | width=30% | |- | width=20% | | width=50% | <strong>GEO</strong>MIN (<strong>OR</strong>THOGONAL value); | width=30% | |- | width=20% | | width=50% | <strong>QUART</strong>IMIN; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>CF-V</strong>ARIMAX; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>CF-V</strong>ARIMAX (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>CF-V</strong>ARIMAX (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | | width=50% | <strong>CF-Q</strong>UARTIMAX; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>CF- Q</strong>UARTIMAX (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>CF- Q</strong>UARTIMAX (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | | width=50% | <strong>CF-E</strong>QUAMAX; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>CF- E</strong>QUAMAX (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>CF- E</strong>QUAMAX (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | | width=50% | <strong>CF-P</strong>ARSIMAX; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>CF- P</strong>ARSIMAX (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>CF- P</strong>ARSIMAX (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | | width=50% | <strong>CF-F</strong>ACPARSIM; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>CF- F</strong>ACPARSIM (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>CF- F</strong>ACPARSIM (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | | width=50% | <strong>CRAW</strong>FER; | width=30% | OBLIQUE 1/p |- | width=20% | | width=50% | <strong>CRAW</strong>FER (<strong>OB</strong>LIQUE value); | width=30% | |- | width=20% | | width=50% | <strong>CRAW</strong>FER (<strong>OR</strong>THOGONAL value); | width=30% | |- | width=20% | | width=50% | <strong>OBLIM</strong>IN; | width=30% | OBLIQUE 0 |- | width=20% | | width=50% | <strong>OBLIM</strong>IN (<strong>OB</strong>LIQUE value); | width=30% | |- | width=20% | | width=50% | <strong>OBLIM</strong>IN (<strong>OR</strong>THOGONAL value); | width=30% | |- | width=20% | | width=50% | <strong>VAR</strong>IMAX; | width=30% | |- | width=20% | | width=50% | <strong>PRO</strong>MAX; | width=30% | |- | width=20% | | width=50% | <strong>TAR</strong>GET; | width=30% | |- | width=20% | | width=50% | <strong>BI-GEO</strong>MIN; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>BI-GEO</strong>MIN (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>BI-GEO</strong>MIN (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | | width=50% | <strong>BI-CF-Q</strong>UARTIMAX; | width=30% | OBLIQUE |- | width=20% | | width=50% | <strong>BI-CF-Q</strong>UARTIMAX (<strong>OB</strong>LIQUE); | width=30% | |- | width=20% | | width=50% | <strong>BI-CF-Q</strong>UARTIMAX (<strong>OR</strong>THOGONAL); | width=30% | |- | width=20% | ROWSTANDARDIZATION = | width=50% | <strong>CORR</strong>ELATION; | width=30% | CORRELATION |- | width=20% | | width=50% | <strong>KAIS</strong>ER; | width=30% | |- | width=20% | | width=50% | <strong>COVA</strong>RIANCE; | width=30% | |- | width=20% | PARALLEL = | width=50% | number; | width=30% | 0 |- | width=20% | REPSE = | width=50% | <strong>BOOT</strong>STRAP; <strong>JACK</strong>KNIFE; <strong>JACK</strong>KNIFE<strong>1</strong>; <strong>JACK</strong>KNIFE<strong>2</strong>; BRR; FAY (#); | width=30% | .3 |- | width=20% | BASEHAZARD = | width=50% | ON; OFF; ON (<strong>EQ</strong>UAL); ON (<strong>UNEQ</strong>UAL); OFF (<strong>EQ</strong>UAL); OFF (<strong>UNEQ</strong>UAL); | width=30% | depends on analysis type EQUAL EQUAL |- | width=20% | CHOLESKY = | width=50% | ON; OFF; | width=30% | depends on analysis type |- | width=20% | ALGORITHM = | width=50% | EM; | width=30% | depends on |- | width=20% | | width=50% | EMA; | width=30% | analysis type |- | width=20% | | width=50% | FS; ODLL; <strong>INT</strong>EGRATION; | width=30% | |- | width=20% | INTEGRATION = | width=50% | number of integration points; <strong>STAND</strong>ARD (number of integration points) ; <strong>GAUSS</strong>HERMITE (number of integration points) ; <strong>MONTE</strong>CARLO (number of integration points); | width=30% | STANDARD depends on analysis type 15 depends on analysis type |- | width=20% | MCSEED = | width=50% | random seed for Monte Carlo integration; | width=30% | 0 |- | width=20% | ADAPTIVE = | width=50% | ON; OFF; | width=30% | ON |- | width=20% | INFORMATION = | width=50% | <strong>OBS</strong>ERVED; | width=30% | depends on |- | width=20% | | width=50% | <strong>EXP</strong>ECTED; | width=30% | analysis type |- | width=20% | | width=50% | <strong>COMB</strong>INATION; | width=30% | |- | width=20% | BOOTSTRAP = | width=50% | number of bootstrap draws; number of bootstrap draws (<strong>STAND</strong>ARD); number of bootstrap draws (<strong>RES</strong>IDUAL): | width=30% | STANDARD |- | width=20% | LRTBOOTSTRAP = | width=50% | number of bootstrap draws for TECH14; | width=30% | depends on analysis type |- | width=20% | STARTS = | width=50% | number of initial stage starts and number of final stage optimizations; | width=30% | depends on analysis type |- | width=20% | STITERATIONS = | width=50% | number of initial stage iterations; | width=30% | 10 |- | width=20% | STCONVERGENCE = | width=50% | initial stage convergence criterion; | width=30% | 1 |- | width=20% | STSCALE = | width=50% | random start scale; | width=30% | 5 |- | width=20% | STSEED = | width=50% | random seed for generating random starts; | width=30% | 0 |- | width=20% | OPTSEED = | width=50% | random seed for analysis; | width=30% | |- | width=20% | K-1STARTS = | width=50% | number of initial stage starts and number of final stage optimizations for the k-1 class model for TECH14; | width=30% | 20 4 |- | width=20% | LRTSTARTS = | width=50% | number of initial stage starts and number of final stage optimizations for TECH14; | width=30% | 0 0 40 8 |- | width=20% | RSTARTS = | width=50% | number of random starts for the rotation algorithm and number of factor solutions printed for exploratory factor analysis; | width=30% | depends on analysis type |- | width=20% | ASTARTS = | width=50% | number of random starts for the alignment optimization; | width=30% | 30 |- | width=20% | H1STARTS = | width=50% | Number of initial stage starts and number of final stage optimizations for the H1 model; | width=30% | 0 0 |- | width=20% | DIFFTEST = | width=50% | file name; | width=30% | |- | width=20% | MULTIPLIER = | width=50% | file name; | width=30% | |- | width=20% | COVERAGE = | width=50% | minimum covariance coverage with missing data; | width=30% | .10 |- | width=20% | ADDFREQUENCY = | width=50% | value divided by sample size to add to cells with zero frequency; | width=30% | .5 |- | width=20% | ITERATIONS = | width=50% | maximum number of iterations for the Quasi-Newton algorithm for continuous outcomes; | width=30% | 1000 |- | width=20% | SDITERATIONS = | width=50% | maximum number of steepest descent iterations for the Quasi-Newton algorithm for continuous outcomes; | width=30% | 20 |- | width=20% | H1ITERATIONS = | width=50% | maximum number of iterations for unrestricted model with missing data; | width=30% | 2000 |- | width=20% | MITERATIONS = | width=50% | number of iterations for the EM algorithm; | width=30% | 500 |- | width=20% | MCITERATIONS = | width=50% | number of iterations for the M step of the EM algorithm for categorical latent variables; | width=30% | 1 |- | width=20% | MUITERATIONS = | width=50% | number of iterations for the M step of the EM algorithm for censored, categorical, and count outcomes; | width=30% | 1 |- | width=20% | RITERATIONS = | width=50% | maximum number of iterations in the rotation algorithm for exploratory factor analysis; | width=30% | 10000 |- | width=20% | AITERATIONS = | width=50% | maximum number of iterations in the | width=30% | 5000 |- | width=20% | | width=50% | alignment optimization; | width=30% | |- | width=20% | CONVERGENCE = | width=50% | convergence criterion for the Quasi-Newton algorithm for continuous outcomes; | width=30% | depends on analysis type |- | width=20% | H1CONVERGENCE = | width=50% | convergence criterion for unrestricted model with missing data; | width=30% | .0001 |- | width=20% | LOGCRITERION = | width=50% | likelihood convergence criterion for the EM algorithm; | width=30% | depends on analysis type |- | width=20% | RLOGCRITERION = | width=50% | relative likelihood convergence criterion for the EM algorithm; | width=30% | depends on analysis type |- | width=20% | MCONVERGENCE = | width=50% | convergence criterion for the EM algorithm; | width=30% | depends on analysis type |- | width=20% | MCCONVERGENCE = | width=50% | convergence criterion for the M step of the EM algorithm for categorical latent variables; | width=30% | .000001 |- | width=20% | MUCONVERGENCE = | width=50% | convergence criterion for the M step of the EM algorithm for censored, categorical, and count outcomes; | width=30% | .000001 |- | width=20% | RCONVERGENCE = | width=50% | convergence criterion for the rotation algorithm for exploratory factor analysis; | width=30% | .00001 |- | width=20% | ACONVERGENCE = | width=50% | convergence criterion for the derivatives of the alignment optimization;. | width=30% | .001 |- | width=20% | MIXC = | width=50% | <strong>ITER</strong>ATIONS; | width=30% | ITERATIONS |- | width=20% | | width=50% | <strong>CONV</strong>ERGENCE; | width=30% | |- | width=20% | | width=50% | M step iteration termination based on number of iterations or convergence for categorical latent variables; | width=30% | |- | width=20% | MIXU = | width=50% | <strong>ITER</strong>ATIONS; | width=30% | ITERATIONS |- | width=20% | | width=50% | <strong>CONV</strong>ERGENCE; | width=30% | |- | width=20% | | width=50% | M step iteration termination based on number of iterations or convergence for censored, categorical, and count outcomes; | width=30% | |- | width=20% | LOGHIGH = | width=50% | max value for logit thresholds; | width=30% | +15 |- | width=20% | LOGLOW = | width=50% | min value for logit thresholds; | width=30% | - 15 |- | width=20% | UCELLSIZE = | width=50% | minimum expected cell size; | width=30% | .01 |- | width=20% | VARIANCE = | width=50% | minimum variance value; | width=30% | .0001 |- | width=20% | SIMPLICITY = | width=50% | SQRT; | width=30% | SQRT |- | width=20% | | width=50% | <strong>FOUR</strong>THRT; | width=30% | |- | width=20% | TOLERANCE = | width=50% | simplicity tolerance value; | width=30% | .0001 |- | width=20% | METRIC= | width=50% | <strong>REFG</strong>ROUP; | width=30% | REFGROUP |- | width=20% | | width=50% | <strong>PROD</strong>UCT; | width=30% | |- | width=20% | MATRIX = | width=50% | <strong>COVA</strong>RIANCE; | width=30% | COVARIANCE |- | width=20% | | width=50% | <strong>CORR</strong>ELATION; | width=30% | |- | width=20% | POINT = | width=50% | <strong>MED</strong>IAN; MEAN; MODE; | width=30% | MEDIAN |- | width=20% | CHAINS = | width=50% | number of MCMC chains; | width=30% | 2 |- | width=20% | BSEED = | width=50% | seed for MCMC random number generation; | width=30% | 0 |- | width=20% | STVALUES = | width=50% | <strong>UNPER</strong>TURBED; <strong>PERT</strong>URBED; ML; | width=30% | UNPERTURBED |- | width=20% | MEDIATOR = | width=50% | <strong>LAT</strong>ENT; <strong>OBS</strong>ERVED; | width=30% | depends on analysis type |- | width=20% | ALGORITHM = | width=50% | GIBBS; GIBBS (PX1); GIBBS (PX2); GIBBS (PX3); GIBBS (RW); MH; | width=30% | GIBBS (PX1) |- | width=20% | BCONVERGENCE = | width=50% | MCMC convergence criterion using Gelman-Rubin PSR; | width=30% | .05 |- | width=20% | BITERATIONS = | width=50% | maximum and minimum number of iterations for each MCMC chain when Gelman-Rubin PSR is used; | width=30% | 50000 0 |- | width=20% | FBITERATIONS = | width=50% | fixed number of iterations for each MCMC chain when Gelman-Rubin PSR is not used; | width=30% | |- | width=20% | THIN = | width=50% | k where every k-th MCMC iteration is saved; | width=30% | 1 |- | width=20% | MDITERATIONS = | width=50% | maximum number of iterations used to compute the Bayes multivariate mode; | width=30% | 10000 |- | width=20% | KOLMOGOROV = | width=50% | number of draws from the MCMC chains; | width=30% | 100 |- | width=20% | PRIOR = | width=50% | number of draws from the prior distribution; | width=30% | 1000 |- | width=20% | INTERACTIVE = | width=50% | file name; | width=30% | |- | width=20% | PROCESSORS = | width=50% | # of processors # of threads; | width=30% | 1 1 |}
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