Compute features on demand using Python user-defined functions
This article describes how to create and use on-demand features in Azure Databricks.
To use on-demand features, your workspace must be enabled for Unity Catalog and you must use Databricks Runtime 13.3 LTS ML or above.
What are on-demand features?
“On-demand” refers to features whose values are not known ahead of time, but are calculated at the time of inference. In Azure Databricks, you use Python user-defined functions (UDFs) to specify how to calculate on-demand features. These functions are governed by Unity Catalog and discoverable through Catalog Explorer.
Requirements
- To use a user-defined function (UDF) to create training set, or to create a Feature Serving endpoint, you must have
USE CATALOG
privilege on thesystem
catalog in Unity Catalog.
Workflow
To compute features on-demand, you specify a Python user-defined function (UDF) that describes how to calculate the feature values.
- During training, you provide this function and its input bindings in the
feature_lookups
parameter of thecreate_training_set
API. - You must log the trained model using the Feature Store method
log_model
. This ensures that the model automatically evaluates on-demand features when it is used for inference. - For batch scoring, the
score_batch
API automatically calculates and returns all feature values, including on-demand features. - When you serve a model with Mosaic AI Model Serving, the model automatically uses the Python UDF to compute on-demand features for each scoring request.
Create a Python UDF
You can create a Python UDF in a notebook or in Databricks SQL.
For example, running the following code in a notebook cell creates the Python UDF example_feature
in the catalog main
and schema default
.
%sql
CREATE FUNCTION main.default.example_feature(x INT, y INT)
RETURNS INT
LANGUAGE PYTHON
COMMENT 'add two numbers'
AS $$
def add_numbers(n1: int, n2: int) -> int:
return n1 + n2
return add_numbers(x, y)
$$
After running the code, you can navigate through the three-level namespace in Catalog Explorer to view the function definition:
For more details about creating Python UDFs, see Register a Python UDF to Unity Catalog and the SQL language manual.
How to handle missing feature values
When a Python UDF depends on the result of a FeatureLookup, the value returned if the requested lookup key is not found depends on the environment. When using score_batch
, the value returned is None
. When using online serving, the value returned is float("nan")
.
The following code is an example of how to handle both cases.
%sql
CREATE OR REPLACE FUNCTION square(x INT)
RETURNS INT
LANGUAGE PYTHON AS
$$
import numpy as np
if x is None or np.isnan(x):
return 0
return x * x
$$
Train a model using on-demand features
To train the model, you use a FeatureFunction
, which is passed to the create_training_set
API in the feature_lookups
parameter.
The following example code uses the Python UDF main.default.example_feature
that was defined in the previous section.
# Install databricks-feature-engineering first with:
# %pip install databricks-feature-engineering
# dbutils.library.restartPython()
from databricks.feature_engineering import FeatureEngineeringClient
from databricks.feature_engineering import FeatureFunction, FeatureLookup
from sklearn import linear_model
fe = FeatureEngineeringClient()
features = [
# The feature 'on_demand_feature' is computed as the sum of the the input value 'new_source_input'
# and the pre-materialized feature 'materialized_feature_value'.
# - 'new_source_input' must be included in base_df and also provided at inference time.
# - For batch inference, it must be included in the DataFrame passed to 'FeatureEngineeringClient.score_batch'.
# - For real-time inference, it must be included in the request.
# - 'materialized_feature_value' is looked up from a feature table.
FeatureFunction(
udf_name="main.default.example_feature", # UDF must be in Unity Catalog so uses a three-level namespace
input_bindings={
"x": "new_source_input",
"y": "materialized_feature_value"
},
output_name="on_demand_feature",
),
# retrieve the prematerialized feature
FeatureLookup(
table_name = 'main.default.table',
feature_names = ['materialized_feature_value'],
lookup_key = 'id'
)
]
# base_df includes the columns 'id', 'new_source_input', and 'label'
training_set = fe.create_training_set(
df=base_df,
feature_lookups=features,
label='label',
exclude_columns=['id', 'new_source_input', 'materialized_feature_value'] # drop the columns not used for training
)
# The training set contains the columns 'on_demand_feature' and 'label'.
training_df = training_set.load_df().toPandas()
# training_df columns ['materialized_feature_value', 'label']
X_train = training_df.drop(['label'], axis=1)
y_train = training_df.label
model = linear_model.LinearRegression().fit(X_train, y_train)
Log the model and register it to Unity Catalog
Models packaged with feature metadata can be registered to Unity Catalog. The feature tables used to create the model must be stored in Unity Catalog.
To ensure that the model automatically evaluates on-demand features when it is used for inference, you must set the registry URI and then log the model, as follows:
import mlflow
mlflow.set_registry_uri("databricks-uc")
fe.log_model(
model=model,
artifact_path="main.default.model",
flavor=mlflow.sklearn,
training_set=training_set,
registered_model_name="main.default.recommender_model"
)
If the Python UDF that defines the on-demand features imports any Python packages, you must specify these packages using the argument extra_pip_requirements
. For example:
import mlflow
mlflow.set_registry_uri("databricks-uc")
fe.log_model(
model=model,
artifact_path="model",
flavor=mlflow.sklearn,
training_set=training_set,
registered_model_name="main.default.recommender_model",
extra_pip_requirements=["scikit-learn==1.20.3"]
)
Limitation
On-demand features can output all data types supported by Feature Store except MapType and ArrayType.
Notebook examples: On-demand features
The following notebook shows an example of how to train and score a model that uses an on-demand feature.
Basic on-demand features demo notebook
The following notebook shows an example of a restaurant recommendation model. The restaurant’s location is looked up from a Databricks online table. The user’s current location is sent as part of the scoring request. The model uses an on-demand feature to compute the real-time distance from the user to the restaurant. That distance is then used as an input to the model.