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rxDForest: Parallel External Memory Algorithm for Classification and Regression Decision Forests

Description

Fit classification and regression decision forests on an .xdf file or data frame for small or large data using parallel external memory algorithm.

Usage

  rxDForest(formula, data,
      outFile = NULL, writeModelVars = FALSE, overwrite = FALSE,    
      pweights = NULL, fweights = NULL, method = NULL, parms = NULL, cost = NULL,    
      minSplit = NULL, minBucket = NULL, maxDepth = 10, cp = 0,
      maxCompete = 0, maxSurrogate = 0, useSurrogate = 2, surrogateStyle = 0,    
      nTree = 10, mTry = NULL, replace = TRUE, cutoff = NULL, 
      strata = NULL, sampRate = NULL, importance = FALSE, seed = sample.int(.Machine$integer.max, 1),
      computeOobError = 1,
      maxNumBins = NULL, maxUnorderedLevels = 32, removeMissings = FALSE, 
      useSparseCube = rxGetOption("useSparseCube"), findSplitsInParallel = TRUE,    
      scheduleOnce = FALSE,    
      rowSelection = NULL, transforms = NULL, transformObjects = NULL, transformFunc = NULL,
      transformVars = NULL, transformPackages = NULL, transformEnvir = NULL,
      blocksPerRead = rxGetOption("blocksPerRead"), reportProgress = rxGetOption("reportProgress"),
      verbose = 0, computeContext = rxGetOption("computeContext"), 
      xdfCompressionLevel = rxGetOption("xdfCompressionLevel"),
        ...  )

 ## S3 method for class `rxDForest':
plot  (x, type = "l", main = deparse(substitute(x)), 
      ...  )

Arguments

formula

formula as described in rxFormula. Currently, formula functions are not supported.

data

either a data source object, a character string specifying a .xdf file, or a data frame object.

outFile

either an RxXdfData data source object or a character string specifying the .xdf file for storing the resulting OOB predictions. If NULL or the input data is a data frame, then no OOB predictions are stored to disk. If rowSelection is specified and not NULL, then outFile cannot be the same as the datasince the resulting set of OOB predictions will generally not have the same number of rows as the original data source.

writeModelVars

logical value. If TRUE, and the output file is different from the input file, variables in the model will be written to the output file in addition to the OOB predictions. If variables from the input data set are transformed in the model, the transformed variables will also be written out.

overwrite

logical value. If TRUE, an existing outFilewith an existing column named outColName will be overwritten.

pweights

character string specifying the variable to use as probability weights for the observations.

fweights

character string specifying the variable to use as frequency weights for the observations.

method

character string specifying the splitting method. Currently, only "class" or "anova" are supported. The default is "class" if the response is a factor, otherwise "anova".

parms

optional list with components specifying additional parameters for the "class" splitting method, as follows:

  • prior - a vector of prior probabilities. The priors must be positive and sum to 1. The default priors are proportional to the data counts.
  • loss - a loss matrix, which must have zeros on the diagonal and positive off-diagonal elements. By default, the off-diagonal elements are set to 1.
  • split - the splitting index, either gini (the default) or information.
    If parms is specified, any of the components can be specified or omitted. The defaults will be used for missing components.

cost

a vector of non-negative costs, containing one element for each variable in the model. Defaults to one for all variables. When deciding which split to choose, the improvement on splitting on a variable is divided by its cost.

minSplit

the minimum number of observations that must exist in a node before a split is attempted. By default, this is sqrt(num of obs). For non-XDF data sources, as (num of obs) is unknown in advance, it is wisest to specify this argument directly.

minBucket

the minimum number of observations in a terminal node (or leaf). By default, this is minSplit/3.

maxDepth

the maximum depth of any tree node. The computations take much longer at greater depth, so lowering maxDepth can greatly speed up computation time.

cp

numeric scalar specifying the complexity parameter. Any split that does not decrease overall lack-of-fit by at least cp is not attempted.

maxCompete

the maximum number of competitor splits retained in the output. These are useful model diagnostics, as they allow you to compare splits in the output with the alternatives.

maxSurrogate

the maximum number of surrogate splits retained in the output. See the Details for a description of how surrogate splits are used in the model fitting. Setting this to 0 can greatly improve the performance of the algorithm; in some cases almost half the computation time is spent in computing surrogate splits.

useSurrogate

an integer specifying how surrogates are to be used in the splitting process:

  • 0 - display-only; observations with a missing value for the primary split variable are not sent further down the tree.
  • 1 - use surrogates,in order, to split observations missing the primary split variable. If all surrogates are missing, the observation is not split.
  • 2 - use surrogates, in order, to split observations missing the primary split variable. If all surrogates are missing or maxSurrogate=0, send the observation in the majority direction.
    The 0 value corresponds to the behavior of the tree function, and 2 (the default) corresponds to the recommendations of Breiman et al.

surrogateStyle

an integer controlling selection of a best surrogate. The default, 0, instructs the program to use the total number of correct classifications for a potential surrogate, while 1 instructs the program to use the percentage of correct classification over the non-missing values of the surrogate. Thus, 0 penalizes potential surrogates with a large number of missing values.

nTree

a positive integer specifying the number of trees to grow.

mTry

a positive integer specifying the number of variables to sample as split candidates at each tree node. The default values is sqrt(num of vars) for classification and (num of vars)/3 for regression.

replace

a logical value specifying if the sampling of observations should be done with or without replacement.

cutoff

(Classification only) a vector of length equal to the number of classes specifying the dividing factors for the class votes. The default is 1/(num of classes).

strata

a character string specifying the (factor) variable to use for stratified sampling.

sampRate

a scalar or a vector of positive values specifying the percentage(s) of observations to sample for each tree:

  • for unstratified sampling: a scalar of positive value specifying the percentage of observations to sample for each tree. The default is 1.0 for sampling with replacement (i.e., replace=TRUE) and 0.632 for sampling without replacement (i.e., replace=FALSE).
  • for stratified sampling: a vector of positive values of length equal to the number of strata specifying the percentages of observations to sample from the strata for each tree.

importance

a logical value specifying if the importance of predictors should be assessed.

seed

an integer that will be used to initialize the random number generator. The default is random. For reproducibility, you can specify the random seed either using set.seed or by setting this seed argument as part of your call.

computeOobError

an integer specifying whether and how to compute the prediction error for out-of-bag samples:

  • <0 - never. This option may reduce the computation time.
  • =0 - only once for the entire forest.
  • >0 - once for each addition of a tree. This is the default.

maxNumBins

the maximum number of bins to use to cut numeric data. The default is min(1001, max(101, sqrt(num of obs))). For non-XDF data sources, as (num of obs) is unknown in advance, it is wisest to specify this argument directly. If set to 0, unit binning will be used instead of cutting. See the 'Details' section for more information.

maxUnorderedLevels

the maximum number of levels allowed for an unordered factor predictor for multiclass (>2) classification.

removeMissings

logical value. If TRUE, rows with missing values are removed and will not be included in the output data.

useSparseCube

logical value. If TRUE, sparse cube is used.

findSplitsInParallel

logical value. If TRUE, optimal splits for each node are determined using parallelization methods; this will typically speed up computation as the number of nodes on the same level is increased. Note that when it is TRUE, the number of nodes being processed in parallel is also printed to the console, interleaved with the number of rows read from the input data set.

scheduleOnce

EXPERIMENTAL. logical value. If TRUE, rxDForest will be run with rxExec, which submits only one job to the scheduler and thus can speed up computation on small data sets particularly in the RxHadoopMR compute context.

rowSelection

name of a logical variable in the data set (in quotes) or a logical expression using variables in the data set to specify row selection. For example, rowSelection = "old" will use only observations in which the value of the variable old is TRUE. rowSelection = (age > 20) & (age < 65) & (log(income) > 10) will use only observations in which the value of the age variable is between 20 and 65 and the value of the log of the income variable is greater than 10. The row selection is performed after processing any data transformations (see the arguments transforms or transformFunc). As with all expressions, rowSelection can be defined outside of the function call using the expression function.

transforms

an expression of the form list(name = expression, ...)representing the first round of variable transformations. As with all expressions, transforms (or rowSelection) can be defined outside of the function call using the expression function.

transformObjects

a named list containing objects that can be referenced by transforms, transformsFunc, and rowSelection.

transformFunc

variable transformation function. The ".rxSetLowHigh" attribute must be set for transformed variables if they are to be used in formula. See rxTransform for details.

transformVars

character vector of input data set variables needed for the transformation function. See rxTransform for details.

transformPackages

character vector defining additional R packages (outside of those specified in rxGetOption("transformPackages")) to be made available and preloaded for use in variable transformation functions, e.g., those explicitly defined in RevoScaleR functions via their transforms and transformFunc arguments or those defined implicitly via their formula or rowSelection arguments. The transformPackages argument may also be NULL, indicating that no packages outside rxGetOption("transformPackages") will be preloaded.

transformEnvir

user-defined environment to serve as a parent to all environments developed internally and used for variable data transformation. If transformEnvir = NULL, a new "hash" environment with parent baseenv() is used instead.

blocksPerRead

number of blocks to read for each chunk of data read from the data source.

reportProgress

integer value with options:

  • 0: no progress is reported.
  • 1: the number of processed rows is printed and updated.
  • 2: rows processed and timings are reported.
  • 3: rows processed and all timings are reported.

verbose

integer value. If 0, no verbose output is printed during calculations. Integer values from 1 to 2 provide increasing amounts of information are provided.

computeContext

a valid RxComputeContext. The RxSpark and RxHadoopMR compute contexts distribute the computation among the nodes specified by the compute context; for other compute contexts, the computation is distributed if possible on the local computer.

xdfCompressionLevel

integer in the range of -1 to 9 indicating the compression level for the output data if written to an .xdf file. The higher the value, the greater the amount of compression - resulting in smaller files but a longer time to create them. If xdfCompressionLevel is set to 0, there will be no compression and files will be compatible with the 6.0 release of Revolution R Enterprise. If set to -1, a default level of compression will be used.

...

additional arguments to be passed directly to the Microsoft R Services Compute Engine and to rxExec when scheduleOnce is set to TRUE.

x

an object of class rxDForest.

type, main

see plot.default for details.

Details

rxDForest is a parallel external memory decision forest algorithm targeted for very large data sets. It is modeled on the random forest ideas of Leo Breiman and Adele Cutler and the randomForest package of Andy Liaw and Matthew Weiner, using the tree-fitting algorithm introduced in rxDTree.

In a decision forest, a number of decision trees are fit to bootstrap samples of the original data. Observations omitted from a given bootstrap sample are termed "out-of-bag" observations. For a given observation, the decision forest prediction is determined by the result of sending the observation through all the trees for which it is out-of-bag. For classification, the prediction is the class to which a majority assigned the observation, and for regression, the prediction is the mean of the predictions.

For each tree, the out-of-bag observations are fed through the tree to estimate out-of-bag error estimates. The reported out-of-bag error estimates are cumulative (that is, the ith element represents the out-of-bag error estimate for all trees through the ith).

Value

an object of class "rxDForest". It is a list with the following components, similar to those of class "randomForest":

ntree

The number of trees.

mtry

The number of variables tried at each split.

type

One of "class" (for classification) or "anova" (for regression).

forest

a list containing the entire forest.

oob.err

a data frame containing the out-of-bag error estimate. For classification forests, this includes the OOB error estimate, which represents the proportion of times the predicted class is not equal to the true class, and the cumulative number of out-of-bag observations for the forest. For regression forests, this includes the OOB error estimate, which here represents the sum of squared residuals of the out-of-bag observations divided by the number of out-of-bag observations, the number of out-of-bag observations, the out-of-bag variance, and the "pseudo-R-Squared", which is 1 minus the quotient of the oob.err and oob.var.

confusion

(classification only) the confusion matrix of the prediction (based on out-of-bag data).

cutoff

(classification only) The cutoff vector.

params

The input parameters passed to the underlying code.

formula

The input formula.

call

The original call to rxDForest.

Note

Like rxDTree, rxDForest requires multiple passes over the data set and the maximum number of passes can be computed as follows:

  • quantile computation: 1 pass for computing the quantiles for all continuous variables,

  • recursive partition: maxDepth + 1 passes per tree for building the tree on the entire dataset,

  • out-of-bag prediction: 1 pass per tree for computing the out-of-bag error estimates.

rxDForest uses random streams and RNGs in parallel computation for sampling. Different threads on different nodes will be using different random streams so that different but equivalent results might be obtained for different number of threads.

Author(s)

Microsoft Corporation Microsoft Technical Support

References

Breiman, L. (2001) Random Forests. Machine Learning 45(1), 5--32.

Liaw, A., and Weiner, M. (2002). Classification and Regression by randomForest. R News 2(3), 18--22.

Intel Math Kernel Library, Vector Statistical Library Notes. See section Random Streams and RNGs in Parallel Computation. http://software.intel.com/sites/products/documentation/doclib/mkl_sa/11/vslnotes/vslnotes.pdf

See Also

rxDTree, rxPredict.rxDForest, rxDForestUtils, rxRngNewStream.

Examples


 set.seed(1234)

 # classification
 iris.sub <- c(sample(1:50, 25), sample(51:100, 25), sample(101:150, 25))
 iris.dforest <- rxDForest(Species ~ Sepal.Length + Sepal.Width + Petal.Length + Petal.Width, 
     data = iris[iris.sub, ])
 iris.dforest

 table(rxPredict(iris.dforest, iris[-iris.sub, ], type = "class")[[1]], 
     iris[-iris.sub, "Species"])

 # regression
 infert.nrow <- nrow(infert)
 infert.sub <- sample(infert.nrow, infert.nrow / 2)
 infert.dforest <- rxDForest(case ~ age + parity + education + spontaneous + induced, 
     data = infert[infert.sub, ], cp = 0.01)
 infert.dforest

 hist(rxPredict(infert.dforest, infert[-infert.sub, ])[[1]] - 
     infert[-infert.sub, "case"])

 # .xdf file
 claimsXdf <- file.path(rxGetOption("sampleDataDir"),"claims.xdf")
 claims.dforest <- rxDForest(cost ~ age + car.age + type,
   data = claimsXdf)