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This is a Transform type Snap that performs K-fold Cross Validation on a classification dataset. Cross validation is a technique for evaluating ML algorithms by splitting the original dataset into K equally-sized chunks. K is the number of folds. In each of the K iterations, K-1 chunks are used to train the model while the last chunk is used as a test set. The average accuracy and other statistics are computed to be used to select the most suitable algorithm for the dataset.

In the settings, you can select the algorithm, specify parameters, and the number of folds. If you want to perform K-fold Cross Validation on regression dataset, use the Cross Validator – Regression Snap instead.

Input and Output

Expected input: The classification dataset.

Expected output: A statistical information about the performance of the selected algorithm on the dataset.

Expected upstream Snap: Any Snap that generates a classification dataset document. For example, CSV Generator, JSON Generator, or a combination of File Reader and JSON Parser.

Expected downstream Snap: CSV/JSON Formatter Snap and File Writer Snap can be used to write the output statistics to file.


  • The data from upstream Snap must be in tabular format (no nested structure). 
  • This Snap automatically derives the schema (field names and types) from the first document. Therefore, the first document must not have any missing values.

Configuring Accounts

Accounts are not used with this Snap.

Configuring Views


This Snap has exactly one document input view.
OutputThis Snap has exactly one document output view.
ErrorThis Snap has at most one document error view.



Limitations and Known Issues



Snap Settings

LabelRequired. The name for the Snap. Modify this to be more specific, especially if there are more than one of the same Snap in the pipeline.
Label field

Required. The label or output field in the dataset. This must be a categorical type represented as text (string data type). This is the field that the ML model will be trained to predict.

Default value: None

Example: $class


Required. The classification algorithm to be used to build the model. There are eight classification algorithms available currently:

  • Decision Tree
  • K-Nearest Neighbors
  • Logistic Regression
  • Naive Bayes
  • Support Vector Machines
  • Decision Stump
  • Random Forests
  • Multilayer Perceptron.

The implementations are from WEKA, an open source machine learning library in Java.

Default value: Decision Tree


The parameters to be applied on the selected classification algorithm. Each algorithm has a different set of parameters to be configured in this property. If this property is left blank, the default values are applied for all the parameters. If specifying multiple parameters, separate them with a comma ",".

See Options for Algorithms section below for details.

Default value: None


  • batch_size = 120
  • batch_size = 120, collapse_tree = true

Required. The number of folds.

Minimum value: 2

Default value: 10

Use random seed

If selected, Random seed is applied to the randomizer in order to get reproducible results.

Default value: Selected

Random seed

RequiredNumber used as static seed for randomizer.

Default value: 12345

Multiexcerpt include macro
nameSnap Execution
pageAnaplan Read

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pageAnaplan Read

Options for Algorithms

titleOptions for algorithms

Excerpt Include
Trainer -- Classification
Trainer -- Classification



Weight Balance Classification – Cross Validation

This pipeline demonstrates a typical cross validation exercise for a dataset before an model is trained for predictions. The dataset is a record of the weight on each side of a weighing scale, the distance of each scale from the ground, and its status of balance. The cross validation is to validate the model's ability to predict this status of balance. 

Download this pipeline.

titleUnderstanding the pipeline


The input document is generated by the CSV Generator Snap and is composed of four fields, one classification field, and three numeric fields:

  • Balance Class: The classification field to denote the status of the weighing scale. B for Balanced, L for Left-inclined, and R for Right-inclined.
  • Left Weight
  • Left Distance
  • Right Weight
  • Right Distance


This dataset has been sourced from UCI Dataset Archive.


Use Cross Validator (Classification) Snap to evaluate how each ML algorithm performs in this dataset.

Data Preparation

This input document is passed through the Type Converter Snap that is configured to automatically detect and convert the data types. In any ML pipeline, you must first analyze the input document using the Profile Snap and the Type Inspector Snap to ensure that there are no null values or that the data types are accurate. This step is skipped in this example for simplicity's sake.

Cross Validation

After preparing the data, the first thing to do is K-fold Cross Validation. Cross Validator (Classification) Snap takes the full dataset and randomly splits the dataset into training set and test set which are used to evaluate the selected ML algorithm.

Below is the configuration of the Cross Validator (Classification) Snap:

The output from this Snap is as shown below, it can be seen that the selected algorithm performs at 92% accuracy for the provided dataset.

Optionally, you can write the output from the Cross Validator (Classification) Snap into a file using the downstream File Writer Snap.

You can now train the model using this algorithm in the Trainer (Classification) Snap. See Weight Balance Classification – Model Training for details. 

Additional Example

The following use case demonstrates a real-world scenario for using this Snap:



See Also

Excerpt Include
ML Core Snap Pack
ML Core Snap Pack