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The file offline store provides support for reading FileSources. It uses Dask as the compute engine.
All data is downloaded and joined using Python and therefore may not scale to production workloads.
The full set of configuration options is available in FileOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the file offline store.
File | |
---|---|
Below is a matrix indicating which functionality is supported by FileRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
File | |
---|---|
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
yes
write_logged_features
(persist logged features to offline store)
yes
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
no
export to data lake (S3, GCS, etc.)
no
export to data warehouse
no
export as Spark dataframe
no
local execution of Python-based on-demand transforms
yes
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes
preview the query plan before execution
yes
read partitioned data
yes
The Snowflake offline store provides support for reading SnowflakeSources.
All joins happen within Snowflake.
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe. A Pandas dataframes will be uploaded to Snowflake as a temporary table in order to complete join operations.
The full set of configuration options is available in SnowflakeOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the Snowflake offline store.
Below is a matrix indicating which functionality is supported by SnowflakeRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
The Trino offline store provides support for reading TrinoSources.
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe. A Pandas dataframes will be uploaded to Trino as a table in order to complete join operations.
The Trino offline store does not achieve full test coverage. Please do not assume complete stability.
The full set of configuration options is available in TrinoOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the Trino offline store.
Below is a matrix indicating which functionality is supported by TrinoRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
The PostgreSQL offline store provides support for reading PostgreSQLSources.
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe. A Pandas dataframes will be uploaded to Postgres as a table in order to complete join operations.
The PostgreSQL offline store does not achieve full test coverage. Please do not assume complete stability.
Note that sslmode
, sslkey_path
, sslcert_path
, and sslrootcert_path
are optional parameters. The full set of configuration options is available in PostgreSQLOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the PostgreSQL offline store.
Below is a matrix indicating which functionality is supported by PostgreSQLRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
The Spark offline store provides support for reading SparkSources.
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe. A Pandas dataframes will be converted to a Spark dataframe and processed as a temporary view.
The Spark offline store does not achieve full test coverage. Please do not assume complete stability.
The full set of configuration options is available in SparkOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the Spark offline store.
Below is a matrix indicating which functionality is supported by SparkRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
The Redshift offline store provides support for reading RedshiftSources.
All joins happen within Redshift.
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe. A Pandas dataframes will be uploaded to Redshift temporarily in order to complete join operations.
The full set of configuration options is available in RedshiftOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the Redshift offline store.
Below is a matrix indicating which functionality is supported by RedshiftRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
Feast requires the following permissions in order to execute commands for Redshift offline store:
The following inline policy can be used to grant Feast the necessary permissions:
In addition to this, Redshift offline store requires an IAM role that will be used by Redshift itself to interact with S3. More concretely, Redshift has to use this IAM role to run UNLOAD and COPY commands. Once created, this IAM role needs to be configured in feature_store.yaml
file as offline_store: iam_role
.
The following inline policy can be used to grant Redshift necessary permissions to access S3:
While the following trust relationship is necessary to make sure that Redshift, and only Redshift can assume this role:
Here are the methods exposed by the OfflineStore
interface, along with the core functionality supported by the method:
get_historical_features
: point-in-time correct join to retrieve historical features
pull_latest_from_table_or_query
: retrieve latest feature values for materialization into the online store
pull_all_from_table_or_query
: retrieve a saved dataset
offline_write_batch
: persist dataframes to the offline store, primarily for push sources
write_logged_features
: persist logged features to the offline store, for feature logging
The first three of these methods all return a RetrievalJob
specific to an offline store, such as a SnowflakeRetrievalJob
. Here is a list of functionality supported by RetrievalJob
s:
export to dataframe
export to arrow table
export to arrow batches (to handle large datasets in memory)
export to SQL
export to data lake (S3, GCS, etc.)
export to data warehouse
export as Spark dataframe
local execution of Python-based on-demand transforms
remote execution of Python-based on-demand transforms
persist results in the offline store
preview the query plan before execution (RetrievalJob
s are lazily executed)
read partitioned data
There are currently four core offline store implementations: FileOfflineStore
, BigQueryOfflineStore
, SnowflakeOfflineStore
, and RedshiftOfflineStore
. There are several additional implementations contributed by the Feast community (PostgreSQLOfflineStore
, SparkOfflineStore
, and TrinoOfflineStore
), which are not guaranteed to be stable or to match the functionality of the core implementations. Details for each specific offline store, such as how to configure it in a feature_store.yaml
, can be found here.
Below is a matrix indicating which offline stores support which methods.
Below is a matrix indicating which RetrievalJob
s support what functionality.
The MsSQL offline store provides support for reading MsSQL Sources. Specifically, it is developed to read from Synapse SQL on Microsoft Azure
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe.
The MsSQL offline store does not achieve full test coverage. Please do not assume complete stability.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the Spark offline store.
Below is a matrix indicating which functionality is supported by MsSqlServerRetrievalJob
.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
Please see Offline Store for a conceptual explanation of offline stores.
The BigQuery offline store provides support for reading BigQuerySources.
All joins happen within BigQuery.
Entity dataframes can be provided as a SQL query or can be provided as a Pandas dataframe. A Pandas dataframes will be uploaded to BigQuery as a table (marked for expiration) in order to complete join operations.
The full set of configuration options is available in BigQueryOfflineStoreConfig.
The set of functionality supported by offline stores is described in detail here. Below is a matrix indicating which functionality is supported by the BigQuery offline store.
BigQuery | |
---|---|
Below is a matrix indicating which functionality is supported by BigQueryRetrievalJob
.
*See GitHub issue for details on proposed solutions for enabling the BigQuery offline store to understand tables that use _PARTITIONTIME
as the partition column.
To compare this set of functionality against other offline stores, please see the full functionality matrix.
Snowflake | |
---|---|
Snowflake | |
---|---|
Trino | |
---|---|
Trino | |
---|---|
Postgres | |
---|---|
Postgres | |
---|---|
Spark | |
---|---|
Spark | |
---|---|
Redshift | |
---|---|
Redshift | |
---|---|
File | BigQuery | Snowflake | Redshift | Postgres | Spark | Trino | |
---|---|---|---|---|---|---|---|
File | BigQuery | Snowflake | Redshift | Postgres | Spark | Trino | |
---|---|---|---|---|---|---|---|
MsSql | |
---|---|
MsSql | |
---|---|
BigQuery | |
---|---|
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
yes
write_logged_features
(persist logged features to offline store)
yes
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
yes
export to data lake (S3, GCS, etc.)
yes
export to data warehouse
yes
export as Spark dataframe
no
local execution of Python-based on-demand transforms
yes
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes
preview the query plan before execution
yes
read partitioned data
yes
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
no
write_logged_features
(persist logged features to offline store)
no
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
yes
export to data lake (S3, GCS, etc.)
no
export to data warehouse
no
export as Spark dataframe
no
local execution of Python-based on-demand transforms
yes
remote execution of Python-based on-demand transforms
no
persist results in the offline store
no
preview the query plan before execution
yes
read partitioned data
yes
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
no
write_logged_features
(persist logged features to offline store)
no
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
yes
export to data lake (S3, GCS, etc.)
yes
export to data warehouse
yes
export as Spark dataframe
no
local execution of Python-based on-demand transforms
yes
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes
preview the query plan before execution
yes
read partitioned data
yes
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
yes
write_logged_features
(persist logged features to offline store)
yes
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
yes
export to data lake (S3, GCS, etc.)
no
export to data warehouse
yes
export as Spark dataframe
no
local execution of Python-based on-demand transforms
yes
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes
preview the query plan before execution
yes
read partitioned data*
partial
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
no
write_logged_features
(persist logged features to offline store)
no
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
no
export to data lake (S3, GCS, etc.)
no
export to data warehouse
no
export as Spark dataframe
yes
local execution of Python-based on-demand transforms
no
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes
preview the query plan before execution
yes
read partitioned data
yes
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
yes
write_logged_features
(persist logged features to offline store)
yes
export to dataframe
yes
export to arrow table
yes
export to arrow batches
yes
export to SQL
yes
export to data lake (S3, GCS, etc.)
no
export to data warehouse
yes
export as Spark dataframe
no
local execution of Python-based on-demand transforms
yes
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes
preview the query plan before execution
yes
read partitioned data
yes
Command
Permissions
Resources
Apply
redshift-data:DescribeTable
redshift:GetClusterCredentials
arn:aws:redshift:<region>:<account_id>:dbuser:<redshift_cluster_id>/<redshift_username>
arn:aws:redshift:<region>:<account_id>:dbname:<redshift_cluster_id>/<redshift_database_name>
arn:aws:redshift:<region>:<account_id>:cluster:<redshift_cluster_id>
Materialize
redshift-data:ExecuteStatement
arn:aws:redshift:<region>:<account_id>:cluster:<redshift_cluster_id>
Materialize
redshift-data:DescribeStatement
*
Materialize
s3:ListBucket
s3:GetObject
s3:DeleteObject
arn:aws:s3:::<bucket_name>
arn:aws:s3:::<bucket_name>/*
Get Historical Features
redshift-data:ExecuteStatement
redshift:GetClusterCredentials
arn:aws:redshift:<region>:<account_id>:dbuser:<redshift_cluster_id>/<redshift_username>
arn:aws:redshift:<region>:<account_id>:dbname:<redshift_cluster_id>/<redshift_database_name>
arn:aws:redshift:<region>:<account_id>:cluster:<redshift_cluster_id>
Get Historical Features
redshift-data:DescribeStatement
*
Get Historical Features
s3:ListBucket
s3:GetObject
s3:PutObject
s3:DeleteObject
arn:aws:s3:::<bucket_name>
arn:aws:s3:::<bucket_name>/*
get_historical_features
yes
yes
yes
yes
yes
yes
yes
pull_latest_from_table_or_query
yes
yes
yes
yes
yes
yes
yes
pull_all_from_table_or_query
yes
yes
yes
yes
yes
yes
yes
offline_write_batch
yes
yes
yes
yes
no
no
no
write_logged_features
yes
yes
yes
yes
no
no
no
export to dataframe
yes
yes
yes
yes
yes
yes
yes
export to arrow table
yes
yes
yes
yes
yes
yes
yes
export to arrow batches
no
no
no
yes
no
no
no
export to SQL
no
yes
no
yes
yes
no
yes
export to data lake (S3, GCS, etc.)
no
no
yes
no
yes
no
no
export to data warehouse
no
yes
yes
yes
yes
no
no
export as Spark dataframe
no
no
no
no
no
yes
no
local execution of Python-based on-demand transforms
yes
yes
yes
yes
yes
no
yes
remote execution of Python-based on-demand transforms
no
no
no
no
no
no
no
persist results in the offline store
yes
yes
yes
yes
yes
yes
no
preview the query plan before execution
yes
yes
yes
yes
yes
yes
yes
read partitioned data
yes
yes
yes
yes
yes
yes
yes
get_historical_features
(point-in-time correct join)
yes
pull_latest_from_table_or_query
(retrieve latest feature values)
yes
pull_all_from_table_or_query
(retrieve a saved dataset)
yes
offline_write_batch
(persist dataframes to offline store)
no
write_logged_features
(persist logged features to offline store)
no
export to dataframe
yes
export to arrow table
yes
export to arrow batches
no
export to SQL
no
export to data lake (S3, GCS, etc.)
no
export to data warehouse
no
local execution of Python-based on-demand transforms
no
remote execution of Python-based on-demand transforms
no
persist results in the offline store
yes