Importing H2O MOJOs from H2O-3

When training algorithm using Sparkling Water API, Sparkling Water always produces H2OMOJOModel. It is however also possible to import existing MOJO into Sparkling Water ecosystem from H2O-3. After importing the H2O-3 MOJO the API is unified for the loaded MOJO and the one created in Sparkling Water, for example, using H2OXXGBoost.

H2O MOJOs can be imported to Sparkling Water from all data sources supported by Apache Spark such as local file, S3 or HDFS and the semantics of the import is the same as in the Spark API.

When creating a MOJO specified by a relative path and HDFS is enabled, the method attempts to load the MOJO from the HDFS home directory of the current user. In case we are not running on HDFS-enabled system, we create the mojo from a current working directory.

Scala

import ai.h2o.sparkling.ml.models._
val model = H2OMOJOModel.createFromMojo("prostate_mojo.zip")

Python

from pysparkling.ml import *
model = H2OMOJOModel.createFromMojo("prostate_mojo.zip")

R

library(rsparkling)
sc <- spark_connect(master = "local")
model <- H2OMOJOModel.createFromMojo("prostate_mojo.zip")

Absolute local path can also be used. To create a MOJO model from a locally available MOJO, call:

Scala

import ai.h2o.sparkling.ml.models._
val model = H2OMOJOModel.createFromMojo("/Users/peter/prostate_mojo.zip")

Python

from pysparkling.ml import *
model = H2OMOJOModel.createFromMojo("/Users/peter/prostate_mojo.zip")

R

library(rsparkling)
sc <- spark_connect(master = "local")
model <- H2OMOJOModel.createFromMojo("/Users/peter/prostate_mojo.zip")

Absolute paths on Hadoop can also be used. To create a MOJO model from a MOJO stored on HDFS, call:

Scala

import ai.h2o.sparkling.ml.models._
val model = H2OMOJOModel.createFromMojo("/user/peter/prostate_mojo.zip")

Python

from pysparkling.ml import *
model = H2OMOJOModel.createFromMojo("/user/peter/prostate_mojo.zip")

R

library(rsparkling)
sc <- spark_connect(master = "local")
model <- H2OMOJOModel.createFromMojo("/user/peter/prostate_mojo.zip")

The call loads the mojo file from the following location hdfs://{server}:{port}/user/peter/prostate_mojo.zip, where {server} and {port} is automatically filled in by Spark.

You can also manually specify the type of data source you need to use, in that case, you need to provide the schema:

Scala

import ai.h2o.sparkling.ml.models._
// HDFS
val modelHDFS = H2OMOJOModel.createFromMojo("hdfs:///user/peter/prostate_mojo.zip")
// Local file
val modelLocal = H2OMOJOModel.createFromMojo("file:///Users/peter/prostate_mojo.zip")

Python

from pysparkling.ml import *
# HDFS
modelHDFS = H2OMOJOModel.createFromMojo("hdfs:///user/peter/prostate_mojo.zip")
# Local file
modelLocal = H2OMOJOModel.createFromMojo("file:///Users/peter/prostate_mojo.zip")

R

library(rsparkling)
sc <- spark_connect(master = "local")
 # HDFS
modelHDFS <- H2OMOJOModel.createFromMojo("hdfs:///user/peter/prostate_mojo.zip")
# Local file
modelLocal <- H2OMOJOModel.createFromMojo("file:///Users/peter/prostate_mojo.zip")

The loaded model is an immutable instance, so it’s not possible to change the configuration of the model during its existence. On the other hand, the model can be configured during its creation via H2OMOJOSettings:

Scala

import ai.h2o.sparkling.ml.models._
val settings = H2OMOJOSettings(convertUnknownCategoricalLevelsToNa = true, convertInvalidNumbersToNa = true)
val model = H2OMOJOModel.createFromMojo("prostate_mojo.zip", settings)

Python

from pysparkling.ml import *
settings = H2OMOJOSettings(convertUnknownCategoricalLevelsToNa = True, convertInvalidNumbersToNa = True)
model = H2OMOJOModel.createFromMojo("prostate_mojo.zip", settings)

R

library(rsparkling)
sc <- spark_connect(master = "local")
settings <- H2OMOJOSettings(convertUnknownCategoricalLevelsToNa = TRUE, convertInvalidNumbersToNa = TRUE)
model <- H2OMOJOModel.createFromMojo("prostate_mojo.zip", settings)

To score the dataset using the loaded mojo, call:

Scala

model.transform(dataset)

Python

model.transform(dataset)

R

model$transform(dataset)

In Scala, the createFromMojo method returns a mojo model instance casted as a base class H2OMOJOModel. This class holds only properties that are shared accross all MOJO model types from the following type hierarchy:

  • H2OMOJOModel
    • H2OUnsupervisedMOJOModel

    • H2OSupervisedMOJOModel
      • H2OTreeBasedSupervisedMOJOModel

If a Scala user wants to get a property specific for a given MOJO model type, he/she must utilize casting or call the createFromMojo method on the specific MOJO model type.

import ai.h2o.sparkling.ml.models._
val specificModel = H2OTreeBasedSupervisedMOJOModel.createFromMojo("prostate_mojo.zip")
println(s"Ntrees: ${specificModel.getNTrees()}") // Relevant only to GBM, DRF and XGBoost

Exporting the loaded MOJO model using Sparkling Water

To export the MOJO model, call model.write.save(path). In case of Hadoop enabled system, the command by default uses HDFS.

Importing the previously exported MOJO model from Sparkling Water

To import the MOJO model, call H2OMOJOModel.read.load(path). In case of Hadoop enabled system, the command by default uses HDFS.

Accessing additional prediction details

After computing predictions, the prediction column contains in case of classification problem the predicted label and in case regression problem the predicted number. If we need to access more details for each prediction, set withDetailedPredictionCol to true on H2OMOJOSettings before running the predictions. This will ensure that additional column will be created during predictions, by default named detailed_prediction which contains, for example, predicted probabilities for each predicted label in case of classification problem, shapley values and other information.

Methods available on MOJO Model

Obtaining Domain Values

To obtain domain values of the trained model, you can run getDomainValues() on the model. This call returns a mapping from a column name to it’s domain in a form of array.

Obtaining Model Category

The method getModelCategory can be used to get the model category (such as binomial, multinomial etc).

Obtaining Training Params

The method getTrainingParams can be used to get map containing all training parameters used in the H2O. It is a map from parameter name to the value. The parameters name use the H2O’s naming structure.

Obtaining Metrics

There are several methods to obtain metrics from the MOJO model. All return a map from metric name to its double value.

  • getTrainingMetrics - obtain training metrics

  • getValidationMetrics - obtain validation metrics

  • getCrossValidationMetrics - obtain cross validation metrics

We also have method getCurrentMetrics which gets one of the metrics above based on the following algorithm:

If cross validation was used, ie, setNfolds was called and value was higher than zero, this method returns cross validation metrics. If cross validation was not used, but validation frame was used, the method returns validation metrics. Validation frame is used if setSplitRatio was called with value lower than one. If neither cross validation or validation frame was used, this method returns the training metrics.