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Converting RevoScaleR Model Objects for Use in PMML

Important

This content is being retired and may not be updated in the future. The support for Machine Learning Server will end on July 1, 2022. For more information, see What's happening to Machine Learning Server?

The objects returned by RevoScaleR predictive analytics functions have similarities to objects returned by the predictive analytics functions provided by base and recommended packages in R. A key difference between these two types of model objects is that RevoScaleR model objects typically do not contain any components that have the same length as the number of rows in the original data set. For example, if you use base R's lm function to estimate a linear model, the result object contains not only all of the data used to estimate the model, but components such as residuals and fitted.values that contain values corresponding to every observation in the data set. For estimating models using big data, this is not appropriate.

However, there is overlap in the model object components that can be very useful when working with other packages. For example, the pmml package generates PMML (Predictive Model Markup Language) code for a number of R model types. PMML is an XML-base language that allows users to share models between PMML-compliant applications. For more information about PMML, visit http://www.dmg.org .

RevoScaleR provides a set of coercion methods to convert a RevoScaleR model object to a standard R model object: as.lm, as.glm, as.rpart, and as.kmeans. As suggested above, these coerced model objects do not have all of the information available in a standard R model object, but do contain information about the fitted model that is similar to standard R.

For example, let’s create an rxLinMod object by estimating a linear regression on a very large dataset: the airline data with almost 150 million observations.

#  Use in PMML

bigDataDir <- "C:/MRS/Data"
bigAirData <- file.path(bigDataDir, "AirOnTime87to12/AirOnTime87to12.xdf")	

# About 150 million observations
rxLinModObj <- rxLinMod(ArrDelay~Year + DayOfWeek, data = bigAirData, 
	blocksPerRead = 10)

The blocksPerRead argument is ignored if run locally using R Client. Learn more...

Next, the R pmml package should be downloaded and installed from CRAN. After you have done so, generate the RevoScaleR rxLinMod object, and use the as.lm method when generating the PMML output:

library(pmml)
pmml(as.lm(rxLinModObj))

The generated output looks as follows:

> pmml(as.lm(rxLinModObj))
<PMML version="4.1" xmlns="http://www.dmg.org/PMML-4_1" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.dmg.org/PMML-4_1 http://www.dmg.org/v4-1/pmml-4-1.xsd">
	<Header copyright="Copyright (c) 2013 sue" description="Linear Regression Model">
	<Extension name="user" value="yourname" extender="Rattle/PMML"/>
	<Application name="Rattle/PMML" version="1.3"/>
	<Timestamp>2013-09-05 11:39:28</Timestamp>
	</Header>
	<DataDictionary numberOfFields="3">
	<DataField name="ArrDelay" optype="continuous" dataType="double"/>
	<DataField name="Year" optype="continuous" dataType="double"/>
	<DataField name="DayOfWeek" optype="categorical" dataType="string">
	<Value value="Mon"/>
	<Value value="Tues"/>
	<Value value="Wed"/>
	<Value value="Thur"/>
	<Value value="Fri"/>
	<Value value="Sat"/>
	<Value value="Sun"/>
	</DataField>
	</DataDictionary>
	<RegressionModel modelName="Linear_Regression_Model" functionName="regression" algorithmName="least squares" targetFieldName="ArrDelay">
	<MiningSchema>
	<MiningField name="ArrDelay" usageType="predicted"/>
	<MiningField name="Year" usageType="active"/>
	<MiningField name="DayOfWeek" usageType="active"/>
	</MiningSchema>
	<Output>
	<OutputField name="Predicted_ArrDelay" feature="predictedValue"/>
	</Output>
	<RegressionTable intercept="112.856953212332">
	<NumericPredictor name="Year" exponent="1" coefficient="-0.0533799688606163"/>
	<CategoricalPredictor name="DayOfWeek" value="Mon" coefficient="0.303666227836942"/>
	<CategoricalPredictor name="DayOfWeek" value="Tues" coefficient="-0.593700918634743"/>
	<CategoricalPredictor name="DayOfWeek" value="Wed" coefficient="0.473693749859764"/>
	<CategoricalPredictor name="DayOfWeek" value="Thur" coefficient="2.3393087933048"/>
	<CategoricalPredictor name="DayOfWeek" value="Fri" coefficient="2.91671831592945"/>
	<CategoricalPredictor name="DayOfWeek" value="Sat" coefficient="-2.31671307739631"/>
	<CategoricalPredictor name="DayOfWeek" value="Sun" coefficient="0"/>
	</RegressionTable>
	</RegressionModel>
</PMML>

Similarly, rxLogit and rxGlm functions have as.glm methods:

form <- case ~ age + parity + spontaneous + induced
rxLogitObj <- rxLogit(form, data =infert)
pmml(as.glm(rxLogitObj))
	
rxGlmObj <- rxGlm(form, data=infert, family = binomial())
pmml(as.glm(rxGlmObj))

RevoScaleR's rxKmeans objects can be coerced to kmeans objects:

set.seed(17)
irow <- unique(sample.int(nrow(women), 4L, 
	replace = TRUE))[seq(2)]
centers <- women[irow,, drop = FALSE]
rxKmeansObj <- rxKmeans(~height + weight, data = women, 
	centers = centers)
pmml(as.kmeans(rxKmeansObj))

And RevoScaleR's rxDTree objects can be coerced to rpart objects. (Note that rpart is a recommended package that you may need to load.)

library(rpart)
method <- "class"
form <- Kyphosis ~ Number + Start
parms <- list(prior = c(0.8, 0.2), loss = c(0, 2, 3, 0), 
	split = "gini")
control <- rpart.control(minsplit = 5, minbucket = 2, cp = 0.01, 
	maxdepth = 10, maxcompete = 4, maxsurrogate = 5, 
	usesurrogate = 2, surrogatestyle = 0, xval = 0)
cost <- 1 + seq(length(attr(terms(form), "term.labels")))
	
rxDTreeObj <- rxDTree(formula = Kyphosis ~ Number + Start, 
	data = kyphosis, method = method, parms = parms, 
	control = control, cost = cost)      
pmml(as.rpart(rxDTreeObj))