Statistical procedures use ODS Graphics to create graphs as part of their output. ODS Graphics is described in detail in Chapter 21: Statistical Graphics Using ODS.
Before you create graphs, ODS Graphics must be enabled (for example, by specifying the ODS GRAPHICS ON statement). For more information about enabling and disabling ODS Graphics, see the section Enabling and Disabling ODS Graphics in Chapter 21: Statistical Graphics Using ODS.
The overall appearance of graphs is controlled by ODS styles. Styles and other aspects of using ODS Graphics are discussed in the section A Primer on ODS Statistical Graphics in Chapter 21: Statistical Graphics Using ODS.
You must also specify the options in the PROC LOGISTIC statement that are indicated in Table 54.14.
When ODS Graphics is enabled, then the EFFECT, EFFECTPLOT, ESTIMATE, LSMEANS, LSMESTIMATE, and SLICE statements can produce plots that are associated with their analyses. For information about these plots, see the corresponding sections of Chapter 19: Shared Concepts and Topics.
PROC LOGISTIC assigns a name to each graph it creates using ODS. You can use these names to reference the graphs when using ODS. The names are listed in Table 54.14.
Table 54.14: Graphs Produced by PROC LOGISTIC
ODS Graph Name 
Plot Description 
Statement or Option 


Panel of dfbetas by case number 
PLOTS=DFBETASor MODEL / INFLUENCE or IPLOTS 

Effect dfbetas by case number 
PLOTS=DFBETAS(UNPACK) 

Difchisq and/or difdev by predicted probability by CI displacement C 
PLOTS=DPC 

Predicted probability 
PLOTS=EFFECT 

Panel of influence statistics by case number 
PLOTS=INFLUENCEor MODEL / INFLUENCE or IPLOTS 

CBarPlot 
CI displacement Cbar by case number 
PLOTS=INFLUENCE(UNPACK) 

CPlot 
CI displacement C by case number 
PLOTS=INFLUENCE(UNPACK) 

DevianceResidualPlot 
Deviance residual by case number 
PLOTS=INFLUENCE(UNPACK) 

DifChisqPlot 
Difchisq by case number 
PLOTS=INFLUENCE(UNPACK) 

DifDeviancePlot 
Difdev by case number 
PLOTS=INFLUENCE(UNPACK) 

LeveragePlot 
Hat diagonal by case number 
PLOTS=INFLUENCE(UNPACK) 

LikelihoodResidualPlot 
Likelihood residual by case number 
PLOTS=INFLUENCE(UNPACK STDRES) 

PearsonResidualPlot 
Pearson chisquare residual by case number 
PLOTS=INFLUENCE(UNPACK) 

StdDevianceResidualPlot 
Standardized deviance residual by case number 
PLOTS=INFLUENCE(UNPACK STDRES) 

StdPearsonResidualPlot 
Standardized Pearson chisquare residual by case number 
PLOTS=INFLUENCE(UNPACK STDRES) 

Panel of influence statistics by leverage 
PLOTS=LEVERAGE 

LeverageCPlot 
CI displacement C by leverage 
PLOTS=LEVERAGE(UNPACK) 

LeverageDifChisqPlot 
Difchisq by leverage 
PLOTS=LEVERAGE(UNPACK) 

LeverageDifDevPlot 
Difdev by leverage 
PLOTS=LEVERAGE(UNPACK) 

LeveragePhatPlot 
Predicted probability by leverage 
PLOTS=LEVERAGE(UNPACK) 

Odds ratios 
Default orPLOTS=ODDSRATIO andMODEL / CLODDS=or ODDSRATIO 

Panel of influence by predicted probability 
PLOTS=PHAT 

PhatCPlot 
CI displacement C by predicted probability 
PLOTS=PHAT(UNPACK) 

PhatDifChisqPlot 
Difchisq by predicted probability 
PLOTS=PHAT(UNPACK) 

PhatDifDevPlot 
Difdev by predicted probability 
PLOTS=PHAT(UNPACK) 

PhatLeveragePlot 
Leverage by predicted probability 
PLOTS=PHAT(UNPACK) 

Receiver operating characteristics curve 
PLOTS=ROCor MODEL / OUTROC=or SCORE OUTROC=or ROC 

ROC curves for comparisons 
PLOTS=ROC andMODEL / SELECTION=or ROC 