nvtabular.ops.HashBucket

class nvtabular.ops.HashBucket(num_buckets: Union[int, Dict[str, int]])[source]

Bases: nvtabular.ops.operator.Operator

This op maps categorical columns to a contiguous integer range by first hashing the column, then reducing modulo the number of buckets.

Example usage:

cat_names = ["feature_a", "feature_b"]

# this will hash both features a and b to 100 buckets
hash_features = cat_names >> ops.HashBucket({"feature_a": 100, "feature_b": 50})
processor = nvtabular.Workflow(hash_features)

The output of this op would be:

   feature_a  feature_b
0         90         11
1         70         40
2         52          9

If you would like to do frequency capping or frequency hashing, you should use Categorify op instead. See Categorify op for example usage.

Parameters

num_buckets (int or dictionary:{column: num_hash_buckets}) – Column-wise modulo to apply after hash function. Note that this means that the corresponding value will be the categorical cardinality of the transformed categorical feature. If given as an int, that value will be used as the number of “hash buckets” for every feature. If a dictionary is passed, it will be used to specify explicit mappings from a column name to a number of buckets. In this case, only the columns specified in the keys of num_buckets will be transformed.

__init__(num_buckets: Union[int, Dict[str, int]])[source]

Methods

__init__(num_buckets)

column_mapping(col_selector)

compute_column_schema(col_name, input_schema)

compute_input_schema(root_schema, …)

Given the schemas coming from upstream sources and a column selector for the input columns, returns a set of schemas for the input columns this operator will use :param root_schema: Base schema of the dataset before running any operators.

compute_output_schema(input_schema, col_selector)

Given a set of schemas and a column selector for the input columns, returns a set of schemas for the transformed columns this operator will produce :param input_schema: The schemas of the columns to apply this operator to :type input_schema: Schema :param col_selector: The column selector to apply to the input schema :type col_selector: ColumnSelector

compute_selector(input_schema, selector, …)

create_node(selector)

get_embedding_sizes(columns)

inference_initialize(col_selector, model_config)

Configures this operator for use in inference.

output_column_names(col_selector)

Given a set of columns names returns the names of the transformed columns this operator will produce :param columns: The columns to apply this operator to :type columns: list of str, or list of list of str

transform(col_selector, df)

Transform the dataframe by applying this operator to the set of input columns

Attributes

dependencies

Defines an optional list of column dependencies for this operator.

dynamic_dtypes

label

output_dtype

output_properties

output_tags

supports

Returns what kind of data representation this operator supports

transform(col_selector: merlin.dag.selector.ColumnSelector, df: pandas.core.frame.DataFrame)pandas.core.frame.DataFrame[source]

Transform the dataframe by applying this operator to the set of input columns

Parameters
  • columns (list of str or list of list of str) – The columns to apply this operator to

  • df (Dataframe) – A pandas or cudf dataframe that this operator will work on

Returns

Returns a transformed dataframe for this operator

Return type

DataFrame

get_embedding_sizes(columns)[source]
property output_tags
property output_dtype