Note: Feature views do not work with non-timestamped data. A workaround is to insert dummy timestamps.
A feature view is an object that represents a logical group of time-series feature data as it is found in a data source. Depending on the kind of feature view, it may contain some lightweight (experimental) feature transformations (see [Alpha] On demand feature views).
Feature views consist of:
zero or more entities
If the features are not related to a specific object, the feature view might not have entities; see feature views without entities below.
a name to uniquely identify this feature view in the project.
(optional, but recommended) a schema specifying one or more features (without this, Feast will infer the schema by reading from the data source)
(optional, but recommended) metadata (for example, description, or other free-form metadata via tags
)
(optional) a TTL, which limits how far back Feast will look when generating historical datasets
Feature views allow Feast to model your existing feature data in a consistent way in both an offline (training) and online (serving) environment. Feature views generally contain features that are properties of a specific object, in which case that object is defined as an entity and included in the feature view.
Feature views are used during
The generation of training datasets by querying the data source of feature views in order to find historical feature values. A single training dataset may consist of features from multiple feature views.
Loading of feature values into an online store. Feature views determine the storage schema in the online store. Feature values can be loaded from batch sources or from stream sources.
Retrieval of features from the online store. Feature views provide the schema definition to Feast in order to look up features from the online store.
If a feature view contains features that are not related to a specific entity, the feature view can be defined without entities (only timestamps are needed for this feature view).
If the schema
parameter is not specified in the creation of the feature view, Feast will infer the features during feast apply
by creating a Field
for each column in the underlying data source except the columns corresponding to the entities of the feature view or the columns corresponding to the timestamp columns of the feature view's data source. The names and value types of the inferred features will use the names and data types of the columns from which the features were inferred.
"Entity aliases" can be specified to join entity_dataframe
columns that do not match the column names in the source table of a FeatureView.
This could be used if a user has no control over these column names or if there are multiple entities are a subclass of a more general entity. For example, "spammer" and "reporter" could be aliases of a "user" entity, and "origin" and "destination" could be aliases of a "location" entity as shown below.
It is suggested that you dynamically specify the new FeatureView name using .with_name
and join_key_map
override using .with_join_key_map
instead of needing to register each new copy.
A field or feature is an individual measurable property. It is typically a property observed on a specific entity, but does not have to be associated with an entity. For example, a feature of a customer
entity could be the number of transactions they have made on an average month, while a feature that is not observed on a specific entity could be the total number of posts made by all users in the last month. Supported types for fields in Feast can be found in sdk/python/feast/types.py
.
Fields are defined as part of feature views. Since Feast does not transform data, a field is essentially a schema that only contains a name and a type:
Together with data sources, they indicate to Feast where to find your feature values, e.g., in a specific parquet file or BigQuery table. Feature definitions are also used when reading features from the feature store, using feature references.
Feature names must be unique within a feature view.
Each field can have additional metadata associated with it, specified as key-value tags.
On demand feature views allows data scientists to use existing features and request time data (features only available at request time) to transform and create new features. Users define python transformation logic which is executed in both the historical retrieval and online retrieval paths.
Currently, these transformations are executed locally. This is fine for online serving, but does not scale well to offline retrieval.
This enables data scientists to easily impact the online feature retrieval path. For example, a data scientist could
Call get_historical_features
to generate a training dataframe
Iterate in notebook on feature engineering in Pandas
Copy transformation logic into on demand feature views and commit to a dev branch of the feature repository
Verify with get_historical_features
(on a small dataset) that the transformation gives expected output over historical data
Verify with get_online_features
on dev branch that the transformation correctly outputs online features
Submit a pull request to the staging / prod branches which impact production traffic
A stream feature view is an extension of a normal feature view. The primary difference is that stream feature views have both stream and batch data sources, whereas a normal feature view only has a batch data source.
Stream feature views should be used instead of normal feature views when there are stream data sources (e.g. Kafka and Kinesis) available to provide fresh features in an online setting. Here is an example definition of a stream feature view with an attached transformation:
See here for a example of how to use stream feature views to register your own streaming data pipelines in Feast.