The CREATE MODEL statement for ARIMA_PLUS_XREG models
This document describes the CREATE MODEL
statement for creating multivariate
time series models in BigQuery. You can use a multivariate
time series model to forecast
the future value for a given column based on the analysis of multiple
variables.
You can use multivariate time series models with the
ML.FORECAST
to forecast future values for a given
metric based on multiple variables, and use the
ML.EXPLAIN_FORECAST
function to retrieve the forecasting values and compute the prediction
intervals. Forecasting takes place when you create the model. You can also use
multivariate time series models with the
ML.DETECT_ANOMALIES
function
to perform anomaly detection.
For information about the supported SQL statements and functions for each model type, see End-to-end user journey for each model.
Time series modeling pipeline
The multivariate ARIMA_PLUS_XREG
time series model is an
ARIMA_PLUS
model
with linear external regressors. The following diagram shows the model pipeline:
For a diagram that shows the details of the ARIMA_PLUS Pipeline section in the preceding diagram, see Time series modeling pipeline.
The modeling pipeline for the ARIMA_PLUS
time series models performs the
following functions:
- Infer the data frequency of the time series.
- Handle irregular time intervals.
- Handle duplicated timestamps by taking the mean value.
- Interpolate missing data using local linear interpolation.
- Detect and clean spike and dip outliers.
- Detect and adjust abrupt step (level) changes.
- Detect and adjust holiday effect.
- Detect multiple seasonal patterns within a single time series by using Seasonal and Trend decomposition using Loess (STL), and extrapolate seasonality by using double exponential smoothing (ETS).
- Detect and model the trend using the ARIMA model and the auto.ARIMA algorithm for automatic hyperparameter tuning. In auto.ARIMA, dozens of candidate models are trained and evaluated in parallel. The model with the lowest Akaike information criterion (AIC) is selected as the best model.
CREATE MODEL
syntax
{CREATE MODEL | CREATE MODEL IF NOT EXISTS | CREATE OR REPLACE MODEL} model_name OPTIONS(model_option_list) AS { query_statement | ( training_data AS (query_statement), custom_holiday AS (holiday_statement) ) } model_option_list: MODEL_TYPE = 'ARIMA_PLUS_XREG' [, TIME_SERIES_TIMESTAMP_COL = string_value ] [, TIME_SERIES_DATA_COL = string_value ] [, HORIZON = int64_value ] [, AUTO_ARIMA = { TRUE | FALSE } ] [, AUTO_ARIMA_MAX_ORDER = int64_value ] [, AUTO_ARIMA_MIN_ORDER = int64_value ] [, NON_SEASONAL_ORDER = (int64_value, int64_value, int64_value) ] [, DATA_FREQUENCY = { 'AUTO_FREQUENCY' | 'PER_MINUTE' | 'HOURLY' | 'DAILY' | 'WEEKLY' | 'MONTHLY' | 'QUARTERLY' | 'YEARLY' } ] [, INCLUDE_DRIFT = { TRUE | FALSE } ] [, HOLIDAY_REGION = string_value | string_array ] [, CLEAN_SPIKES_AND_DIPS = { TRUE | FALSE } ] [, ADJUST_STEP_CHANGES = { TRUE | FALSE } ] [, TIME_SERIES_LENGTH_FRACTION = float64_value ] [, MIN_TIME_SERIES_LENGTH = int64_value ] [, MAX_TIME_SERIES_LENGTH = int64_value ] [, TREND_SMOOTHING_WINDOW_SIZE = int64_value ] [, L2_REG = float64_value ] [, MODEL_REGISTRY = { 'VERTEX_AI' } ] [, VERTEX_AI_MODEL_ID = string_value ] [, VERTEX_AI_MODEL_VERSION_ALIASES = string_array ] [, KMS_KEY_NAME = string_value ]
CREATE MODEL
Creates and trains a new model in the specified dataset. If the model name
exists, CREATE MODEL
returns an error.
CREATE MODEL IF NOT EXISTS
Creates and trains a new model only if the model doesn't exist in the specified dataset.
CREATE OR REPLACE MODEL
Creates and trains a model and replaces an existing model with the same name in the specified dataset.
model_name
The name of the model you're creating or replacing. The model name must be unique in the dataset: no other model or table can have the same name. The model name must follow the same naming rules as a BigQuery table. A model name can:
- Contain up to 1,024 characters
- Contain letters (upper or lower case), numbers, and underscores
model_name
is not case-sensitive.
If you don't have a default project configured, then you must prepend the project ID to the model name in the following format, including backticks:
`[PROJECT_ID].[DATASET].[MODEL]`
For example, `myproject.mydataset.mymodel`.
MODEL_TYPE
Syntax
MODEL_TYPE = 'ARIMA_PLUS_XREG'
Description
Specifies the model type. This option is required.
TIME_SERIES_TIMESTAMP_COL
Syntax
TIME_SERIES_TIMESTAMP_COL = string_value
Description
The name of the column that provides the time points used in training the model. The column must be of one of the following data types:
TIMESTAMP
DATE
DATETIME
Arguments
A STRING
value.
TIME_SERIES_DATA_COL
Syntax
TIME_SERIES_DATA_COL = string_value
Description
The name of the column that contains the data to forecast. The column must be of one of the following data types:
INT64
NUMERIC
BIGNUMERIC
FLOAT64
Arguments
A STRING
value.
HORIZON
Syntax
HORIZON = int64_value
Description
The number of time points to forecast.
Arguments
An INT64
value. The default value is 1,000
. The maximum value is 10,000
.
AUTO_ARIMA
Syntax
AUTO_ARIMA = { TRUE | FALSE }
Description
Determines whether the training process uses auto.ARIMA or not. If TRUE
,
training automatically finds the best non-seasonal order (that is, the p, d,
q tuple) and decides whether or not to include a linear drift term when d is 1.
If FALSE
, you must specify the NON_SEASONAL_ORDER
option.
Arguments
A BOOL
value. The default value is TRUE
.
AUTO_ARIMA_MAX_ORDER
Syntax
AUTO_ARIMA_MAX_ORDER = int64_value
Description
The maximum value for the sum of non-seasonal p and q. This value determines
the parameter search space in the auto.ARIMA algorithm, in combination with the
AUTO_ARIMA_MIN_ORDER
value. This option is disabled when the AUTO_ARIMA
value is FALSE
.
Arguments
An INT64
value between 1
and 5
, inclusive. The default value is 5
.
If non-seasonal d is determined to be 0 or 2, the number of candidate models evaluated for each supported value is as follows:
1
: 3 candidate models2
: 6 candidate models3
: 10 candidate models4
: 15 candidate models5
: 21 candidate models
If non-seasonal d is determined to be 1, the number of candidate models to evaluate is doubled, because there's an additional drift term to consider for all of the existing candidate models.
AUTO_ARIMA_MIN_ORDER
Syntax
AUTO_ARIMA_MIN_ORDER = int64_value
Description
The minimum value for the sum of non-seasonal p and q. This value determines
the parameter search space in the auto.ARIMA algorithm, in combination with the
AUTO_ARIMA_MAX_ORDER
value. Setting this option to 1
or greater lets the
model exclude some flat forecasting results. This option is disabled when
AUTO_ARIMA
is FALSE
.
Arguments
The value is a INT64
. The default value is 0
.
NON_SEASONAL_ORDER
Syntax
NON_SEASONAL_ORDER = (p_value, d_value, q_value)
Description
The tuple of non-seasonal p, d, q for the ARIMA_PLUS
model. There are no
default values, and you must specify all three values. p and q must be a value
between 0
and 5
, inclusive. d must be a value between 0
and 2
,
inclusive.
The AUTO_ARIMA
value must be FALSE
to use this option.
Arguments
A tuple of three INT64
values. For example, (1, 2, 1)
.
DATA_FREQUENCY
Syntax
DATA_FREQUENCY = { 'AUTO_FREQUENCY' | 'PER_MINUTE' | 'HOURLY' | 'DAILY' | 'WEEKLY' | 'MONTHLY' | 'QUARTERLY' | 'YEARLY' }
Description
The data frequency of the input time series. The finest supported granularity is
PER_MINUTE
.
Arguments
This option accepts the following values:
AUTO_FREQUENCY
: This is the default. The training process automatically infers the data frequency, which can be any of the other supported values for this option.PER_MINUTE
HOURLY
DAILY
WEEKLY
MONTHLY
QUARTERLY
YEARLY
INCLUDE_DRIFT
Syntax
INCLUDE_DRIFT = { TRUE | FALSE }
Description
Determines whether the ARIMA_PLUS
model should include a linear drift term or
not. The drift term is applicable when non-seasonal d is 1.
- When the
AUTO_ARIMA
value isFALSE
, this argument defaults toFALSE
. You can set it toTRUE
only when non-seasonal d is 1. Otherwise theCREATE MODEL
statement returns an invalid query error. - When the
AUTO_ARIMA
value isTRUE
, BigQuery ML automatically determines whether or not to include a linear drift term, so you can't use this option.
Arguments
A BOOL
value. The default value is FALSE
.
HOLIDAY_REGION
Syntax
HOLIDAY_REGION = string_value | string_array
Description
The geographical region based on which the holiday effect is applied in modeling. By default, holiday effect modeling isn't used. To use it, specify one or more holiday regions using this option. If you include more than one region string, the union of the holidays in all the provided regions are taken into account when modeling.
Holiday effect modeling is only applicable when the time series is daily or weekly, and longer than a year. If the input time series doesn't meet these requirements, holiday effect modeling isn't used even if you specify this option.
For more information about the holidays included in each region, see Holiday data.
Arguments
A STRING
or ARRAY<STRING>
value.
Use a single string value to identify one region. For example:
HOLIDAY_REGION = 'GLOBAL'
Use an array of string values to identify multiple regions. For example:
HOLIDAY_REGION = ['US', 'GB']
This option accepts the following values:
Global
GLOBAL
Continental regions
NA
: North AmericaJAPAC
: Japan and Asia PacificEMEA
: Europe, the Middle East and AfricaLAC
: Latin America and the Caribbean
Countries
AE
: United Arab EmiratesAR
: ArgentinaAT
: AustriaAU
: AustraliaBE
: BelgiumBR
: BrazilCA
: CanadaCH
: SwitzerlandCL
: ChileCN
: ChinaCO
: ColombiaCZ
: CzechiaDE
: GermanyDK
: DenmarkDZ
: AlgeriaEC
: EcuadorEE
: EstoniaEG
: EgyptES
: SpainFI
: FinlandFR
: FranceGB
: United KingdomGR
: GreeceHK
: Hong KongHU
: HungaryID
: IndonesiaIE
: IrelandIL
: IsraelIN
: IndiaIR
: IranIT
: ItalyJP
: JapanKR
: South KoreaLV
: LatviaMA
: MoroccoMX
: MexicoMY
: MalaysiaNG
: NigeriaNL
: NetherlandsNO
: NorwayNZ
: New ZealandPE
: PeruPH
: PhilippinesPK
: PakistanPL
: PolandPT
: PortugalRO
: RomaniaRS
: SerbiaRU
: RussiaSA
: Saudi ArabiaSE
: SwedenSG
: SingaporeSI
: SloveniaSK
: SlovakiaTH
: ThailandTR
: TurkeyTW
: TaiwanUA
: UkraineUS
: United StatesVE
: VenezuelaVN
: VietnamZA
: South Africa
CLEAN_SPIKES_AND_DIPS
Syntax
CLEAN_SPIKES_AND_DIPS = { TRUE | FALSE }
Description
Determines whether or not to perform automatic spikes and dips detection and
cleanup in the ARIMA_PLUS
model training pipeline. The spikes and dips are
replaced with local linear interpolated values when they're detected.
Arguments
A BOOL
value. The default value is TRUE
.
ADJUST_STEP_CHANGES
Syntax
ADJUST_STEP_CHANGES = { TRUE | FALSE }
Description
Determines whether or not to perform automatic step change detection and
adjustment in the ARIMA_PLUS
model training pipeline.
Arguments
A BOOL
value. The default value is TRUE
.
TIME_SERIES_LENGTH_FRACTION
Syntax
TIME_SERIES_LENGTH_FRACTION = float64_value
Description
The fraction of the interpolated length of the time series that's used to
model the time series trend component. All of the time points of the time series
are used to model the non-trend component. For example, if the time series has
100 time points, then specifying a TIME_SERIES_LENGTH_FRACTION
of 0.5
uses
the most recent 50 time points for trend modeling. This training option
accelerates modeling training without sacrificing much forecasting accuracy.
You can use the TIME_SERIES_LENGTH_FRACTION
option with the
MIN_TIME_SERIES_LENGTH
option, but not with the MAX_TIME_SERIES_LENGTH
option.
Arguments
A FLOAT64
value in the range (0, 1)
. The default behavior is to use all
the points in the time series.
MIN_TIME_SERIES_LENGTH
Syntax
MIN_TIME_SERIES_LENGTH = int64_value
Description
The minimum number of time points that are used in modeling the
trend component of the time series. If you use this option, you must also
specify a value for the TIME_SERIES_LENGTH_FRACTION
option. For example,
if you use TIME_SERIES_ID_COL
to forecast two time series, one with 100 time
points and another with 30 time points, then setting
TIME_SERIES_LENGTH_FRACTION
to 0.5
and MIN_TIME_SERIES_LENGTH
to 20
results in the last 50 points of first time series being used for trend
modeling. For the second time series, the last 20 points rather than the last
15 points (30 * 0.5
) are used in trend modeling because
the MIN_TIME_SERIES_LENGTH
value is 20
. This option ensures that enough
time points are available when you use TIME_SERIES_LENGTH_FRACTION
in trend
modeling. If the total number of
time points is less than the MIN_TIME_SERIES_LENGTH
value, then the query uses
all available time points.
You can use the MIN_TIME_SERIES_LENGTH
option with the
TIME_SERIES_LENGTH_FRACTION
option, but not with the MAX_TIME_SERIES_LENGTH
option.
Arguments
An INT64
value greater than or equal to 4
. The default value is 20
.
MAX_TIME_SERIES_LENGTH
Syntax
MAX_TIME_SERIES_LENGTH = int64_value
Description
The maximum number of time points in a time series that can be used in modeling
the trend component of the time series. For example, if you are forecasting
two time series simultaneously by specifying the TIME_SERIES_ID_COL
option,
and one time series has 100 time points while the other one has 50 time points,
then by setting MAX_TIME_SERIES_LENGTH
to 30
, both of the time series use
the last 30 time points for trend modeling.
You can't use theMAX_TIME_SERIES_LENGTH
with the
TIME_SERIES_LENGTH_FRACTION
or MIN_TIME_SERIES_LENGTH
options.
Arguments
An INT64
value greater than or equal to 4
. There is no default
value. We recommend trying 30
as a starting value.
TREND_SMOOTHING_WINDOW_SIZE
Syntax
TREND_SMOOTHING_WINDOW_SIZE = int64_value
Description
The smoothing window size for the trend component. When you specify a value, a center moving average smoothing is applied on the history trend. When the smoothing window is out of the boundary at the beginning or the end of the trend, the first element or the last element is padded to fill the smoothing window before the average is applied.
Specifying a value for TREND_SMOOTHING_WINDOW_SIZE
doesn't affect forecasting
results. It only affects the smoothness of the trend component, which you can
see by using the
ML.EXPLAIN_FORECAST
function.
Arguments
An INT64
value. There is no default value. You must specify a positive value
to smooth the trend.
L2_REG
Syntax
L2_REG = float64_value
Description
The amount of L2 regularization applied in the linear regression.
Arguments
A FLOAT64
value.
MODEL_REGISTRY
The MODEL_REGISTRY
option specifies the model registry destination.
VERTEX_AI
is the only supported model registry destination. To learn more, see
Register a BigQuery ML model.
VERTEX_AI_MODEL_ID
The VERTEX_AI_MODEL_ID
option specifies the Vertex AI model ID
to register the model with.
You can only set the VERTEX_AI_MODEL_ID
option when the MODEL_REGISTRY
option is set to VERTEX_AI
. To learn more, see
Add a Vertex AI model ID.
VERTEX_AI_MODEL_VERSION_ALIASES
The VERTEX_AI_MODEL_VERSION_ALIASES
option specifies the
Vertex AI model alias to register the model with.
You can only set the VERTEX_AI_MODEL_VERSION_ALIASES
option when the
MODEL_REGISTRY
option is set to VERTEX_AI
. To learn more, see
Add a Vertex AI model ID.
KMS_KEY_NAME
Syntax
KMS_KEY_NAME = string_value
Description
The Cloud Key Management Service customer-managed encryption key (CMEK) to use to encrypt the model.
Arguments
A STRING
value containing the fully-qualified name of the CMEK. For example,
'projects/my_project/locations/my_location/keyRings/my_ring/cryptoKeys/my_key'
AS
All time series forecasting models support the following AS
clause
syntax for specifying the training data:
AS query_statement
For time series forecasting models that have a DATA_FREQUENCY
value
of either DAILY
or AUTO_FREQUENCY
, you can optionally use the
following AS
clause syntax to perform
custom holiday modeling
in addition to specifying the training data:
AS ( training_data AS (query_statement), custom_holiday AS (holiday_statement) )
query_statement
The query_statement
argument specifies the query that is used to
generate the training data. For information about the supported SQL syntax of
the query_statement
clause, see
GoogleSQL query syntax.
holiday_statement
The holiday_statement
argument specifies the query that provides custom
holiday modeling information for time series forecast models. This query must
return 50,000 rows or less and must contain the following columns:
region
: Required. ASTRING
value that identifies the region to target for holiday modeling. Use one of the following options:- An upper-case
holiday region code.
Use this option to
overwrite or supplement the holidays for the specified region. You
can see the holidays for a region by running
SELECT * FROM bigquery-public-data.ml_datasets.holidays_and_events_for_forecasting WHERE region = region
. - An arbitrary string. Use this option to specify a custom region that
you want to model holidays for. For example, you could specify
London
if you are only modeling holidays for that city.
Be sure not to use an existing holiday region code when you are trying to model for a custom region. For example, if you want to model a holiday in California, and specify
CA
as theregion
value, the service recognizes that as the holiday region code for Canada and targets that region. Because the argument is case-sensitive, you could specifyca
,California
, or some other value that isn't a holiday region code.- An upper-case
holiday region code.
Use this option to
overwrite or supplement the holidays for the specified region. You
can see the holidays for a region by running
holiday_name
: Required. ASTRING
value that identifies the holiday to target for holiday modeling. Use one of the following options:- The holiday name as it is represented in the
bigquery-public-data.ml_datasets.holidays_and_events_for_forecasting
public table, including case. Use this option to overwrite or supplement the specified holiday. - A string that represents a custom holiday. The string must be a valid
column name so that it can be used in
ML.EXPLAIN_FORECAST
output. For example, it cannot contain space. For more information on column naming, see Column names.
- The holiday name as it is represented in the
primary_date
: Required. ADATE
value that specifies the date the holiday falls on.preholiday_days
: Optional. AnINT64
value that specifies the start of the holiday window around the holiday that is taken into account when modeling. Must be greater than or equal to1
. Defaults to1
.postholiday_days
: Optional. AnINT64
value that specifies the end of the holiday window around the holiday that is taken into account when modeling. Must be greater than or equal to1
. Defaults to1
.
The preholiday_days
and postholiday_days
arguments together describe
the holiday window around the holiday that is taken into account
when modeling. The holiday window is defined as
[primary_date - preholiday_days, primary_date + postholiday_days]
and is
inclusive of the pre- and post-holiday days. The value for each holiday window
must be less than or equal to 30
and must be the same across the given
holiday. For example, if you are modeling Arbor Day for several different years,
you must specify the same holiday window for all of those years.
To achieve the best holiday modeling result, provide as much historical and forecast information about the occurrences of each included holiday as possible. For example, if you have time series data from 2018 to 2022 and would like to forecast for 2023, you get the best result by providing the custom holiday information for all of those years, similar to the following:
CREATE OR REPLACE MODELmydataset.arima_model
OPTIONS ( model_type = 'ARIMA_PLUS_XREG', holiday_region = 'US',...) AS ( training_data AS (SELECT * FROMmydataset.timeseries_data
), custom_holiday AS ( SELECT 'US' AS region, 'Halloween' AS holiday_name, primary_date, 5 AS preholiday_days, 1 AS postholiday_days FROM UNNEST( [ DATE('2018-10-31'), DATE('2019-10-31'), DATE('2020-10-31'), DATE('2021-10-31'), DATE('2022-10-31'), DATE('2023-10-31')]) AS primary_date ) )
Holiday data
When you perform holiday modeling by specifying the HOLIDAY_REGION
option,
the model uses holiday data from the region or regions you specify. For example,
the following table describes the holiday data used in the US
region for the
year 2022-2023.
region
specifies the geographic region to which the holiday applies. The supported regions are listed inHOLIDAY_REGION
.holiday_name
contains the name of the holiday.primary_date
specifies the date of the holiday. For holidays that span multiple days, this is usually the first day of the holiday.preholiday_days
describes the number of days the holiday effect starts before theprimary_date
value.postholiday_days
describes the number of days the holiday effect ends after theprimary_date
value.
region | holiday_name | primary_date | preholiday_days | postholiday_days |
---|---|---|---|---|
US | Christmas | 2022-12-25 | 10 | 1 |
US | Christmas | 2023-12-25 | 10 | 1 |
US | MothersDay | 2022-05-08 | 6 | 1 |
US | MothersDay | 2023-05-14 | 6 | 1 |
US | NewYear | 2022-01-01 | 5 | 3 |
US | NewYear | 2023-01-01 | 5 | 3 |
US | DaylightSavingEnd | 2022-11-06 | 1 | 1 |
US | DaylightSavingEnd | 2023-11-05 | 1 | 1 |
US | DaylightSavingStart | 2022-03-13 | 1 | 1 |
US | DaylightSavingStart | 2023-03-12 | 1 | 1 |
US | Thanksgiving | 2022-11-24 | 3 | 5 |
US | Thanksgiving | 2023-11-23 | 3 | 5 |
US | Valentine | 2022-02-14 | 3 | 1 |
US | Valentine | 2023-02-14 | 3 | 1 |
US | EasterMonday | 2022-04-18 | 8 | 1 |
US | EasterMonday | 2023-04-10 | 8 | 1 |
US | Halloween | 2022-10-31 | 1 | 1 |
US | Halloween | 2023-10-31 | 1 | 1 |
US | StPatrickDay | 2022-03-17 | 1 | 1 |
US | StPatrickDay | 2023-03-17 | 1 | 1 |
US | ColumbusDay | 2022-10-10 | 1 | 1 |
US | ColumbusDay | 2023-10-09 | 1 | 1 |
US | IndependenceDay | 2022-07-04 | 1 | 1 |
US | IndependenceDay | 2023-07-04 | 1 | 1 |
US | Juneteenth | 2022-06-19 | 1 | 1 |
US | Juneteenth | 2023-06-19 | 1 | 1 |
US | LaborDay | 2022-09-05 | 1 | 1 |
US | LaborDay | 2023-09-04 | 1 | 1 |
US | MemorialDay | 2022-05-30 | 1 | 1 |
US | MemorialDay | 2023-05-29 | 1 | 1 |
US | MLKDay | 2022-01-17 | 1 | 1 |
US | MLKDay | 2023-01-16 | 1 | 1 |
US | PresidentDay | 2022-02-21 | 1 | 1 |
US | PresidentDay | 2023-02-20 | 1 | 1 |
US | Superbowl | 2022-02-13 | 1 | 1 |
US | Superbowl | 2023-02-05 | 1 | 1 |
US | VeteranDay | 2022-11-11 | 1 | 1 |
US | VeteranDay | 2023-11-11 | 1 | 1 |
You can also see the holidays for a region by running SELECT * FROM
bigquery-public-data.ml_datasets.holidays_and_events_for_forecasting WHERE
region = region
.
The bigquery-public-data.ml_datasets.holidays_and_events_for_forecasting
table only contains holidays and events from the following regions:
AU
: AustraliaCA
: CanadaCH
: SwitzerlandCL
: ChileCZ
: CzechiaDE
: GermanyDK
: DenmarkEMEA
: Europe, the Middle East and AfricaES
: SpainFR
: FranceGB
: United KingdomGLOBAL
ID
: IndonesiaIN
: IndiaIT
: ItalyJAPAC
: Japan and Asia PacificJP
: JapanKR
: South KoreaLAC
: Latin America and the CaribbeanMX
: MexicoMY
: MalaysiaNA
: North AmericaNL
: NetherlandsNZ
: New ZealandPT
: PortugalSK
: SlovakiaUS
: United StatesZA
: South Africa
Custom holidays
You can combine use of the holiday_statement
argument
and the HOLIDAY_REGION
option to enable several different
custom holiday scenarios, as described in the following sections.
Supplement built-in holidays with additional custom holidays
To model one or more custom holidays in addition to a region's built-in
holidays, specify the target holiday region with the HOLIDAY_REGION
option,
and then provide the new holiday metadata in the holiday_statement
argument.
The following example models all built-in holidays for the US
holiday region,
and additionally models the custom holiday members_day
:
CREATE OR REPLACE MODELmydataset.arima_model
OPTIONS ( model_type = 'ARIMA_PLUS_XREG', holiday_region = 'US',...) AS ( training_data AS (SELECT * FROMmydataset.timeseries_data
), custom_holiday AS ( SELECT 'US' AS region, 'members_day' AS holiday_name, primary_date, 2 AS preholiday_days, 2 AS postholiday_days FROM UNNEST( [ DATE('2016-06-15'), DATE('2017-06-07'), DATE('2018-06-06')]) AS primary_date ) );
Model only custom holidays
To model only custom holidays, don't specify a value for the HOLIDAY_REGION
option, and provide the new holiday metadata in the holiday_statement
argument.
The following example models only the custom holiday members_day
for the US
holiday region:
CREATE OR REPLACE MODELmydataset.arima_model
OPTIONS ( model_type = 'ARIMA_PLUS_XREG', -- Don't specify HOLIDAY_REGION ...) AS ( training_data AS (SELECT * FROMmydataset.timeseries_data
), custom_holiday AS ( SELECT 'US' AS region, 'members_day' AS holiday_name, primary_date, 2 AS preholiday_days, 2 AS postholiday_days FROM UNNEST( [ DATE('2016-06-15'), DATE('2017-06-07'), DATE('2018-06-06')]) AS primary_date ) );
Change the metadata for built-in holidays
You can change the primary date and holiday effect window used by the model
for one or more built-in holidays. To do this, specify the target holiday
region with the HOLIDAY_REGION
option, and then provide the modified holiday
metadata in the holiday_statement
argument.
The following example models all built-in holidays for the US
holiday region,
but models 3 years of the EasterMonday
holiday with a 3-day
holiday effect window instead of the default 9-day holiday effect window:
OPTIONS (
model_type = 'ARIMA_PLUS_XREG',
holiday_region = 'US',...) AS (
training_data AS (SELECT * FROM mydataset.timeseries_data
),
custom_holiday AS (
SELECT
'US' AS region,
'EasterMonday' AS holiday_name,
primary_date,
1 AS preholiday_days,
1 AS postholiday_days
FROM
UNNEST(
[
DATE('2016-03-28'),
DATE('2017-04-17'),
DATE('2018-04-02')])
AS primary_date
)
);
Model a subset of built-in holidays
To model only a subset of built-in holidays, don't specify a value for the
HOLIDAY_REGION
option, and provide a query based on the
bigquery-public-data.ml_datasets.holidays_and_events_for_forecasting
public
table to specify the set of holidays to model.
The following example models all built-in holidays for the US
holiday region
except for the Christmas
and NewYears
holidays:
CREATE OR REPLACE MODELmydataset.arima_model
OPTIONS ( model_type = 'ARIMA_PLUS_XREG', -- Don't specify HOLIDAY_REGION ...) AS ( training_data AS (SELECT * FROMmydataset.timeseries_data
), custom_holiday AS ( SELECT * FROMbigquery-public-data.ml_datasets.holiday
WHERE region = 'US' AND (holiday_name != 'Christmas' OR holiday_name != 'NewYear') ) );
Custom holiday limitations
- Custom holiday modeling only works for models that have a
data_frequency
value of eitherDAILY
orAUTO_FREQUENCY
. If you useAUTO_FREQUENCY
, the actual frequency of the time series data needs to be daily. - You can't use the
TRANSFORM
clause of theCREATE MODEL
statement if you are performing custom holiday modeling. holiday_name
column cannot have more than 500 distinct values.- Custom holiday modeling uses an algorithm that automatically
detects the significance of the holiday effect within the provided holiday
effect window, and only extracts the holiday effect on the days that the
algorithm classifies as significant. For example, if
primary date
is01/02
withpreholiday_days
andpostholiday_days
set to1
, the algorithm analyzes the holiday effect for these three days:[01/01, 01/02, 01/03]
. In theML.EXPLAIN_FORECAST
output, it is not guaranteed that all three of these days will have a holiday effect. Only those days within this window that have a significant holiday effect are associated with a non-zero holiday effect in the output. - To get a better result from custom holiday modeling, don't specify the same holiday more than twice a year.
- If you specify the same holiday more than once, make sure its occurrences don't overlap. For example, a holiday that happens twice a year, with the first occurrence from December 1 - December 5 and the second occurrence from December 4 - December 8, won't work because these two occurrences overlap with each other on December 4 and December 5.
- Different holidays can have partial overlap with each other, but full overlap isn't allowed. For example, if holiday A has an occurrence from December 1 - December 5, then holiday B can have an occurrence from December 4 - December 8. However, holiday B can't have an occurrence from December 2 - December 4, which is fully within holiday A's occurrence, and holiday B can't have an occurrence from December 1 - December 8, which overlaps with all of holiday A's occurrence.
- In cases where holidays overlap for a period, the overlap between the holidays can't be identical in multiple years. If it is, then it isn't possible to determine each holiday's effect on the overlapped period. For example, suppose holiday A and holiday B overlap from December 2 - December 4 in 2024, and the time series has three years of data from 2022-2024. Holidays A and B can't overlap from December 2 - December 4 in 2023 and 2022 as well if you want to be able to determine the holiday effect for each.
Limitations
ARIMA_PLUS_XREG
models have the following limitations:
- For the input time series, the maximum length is 1,000,000 time points and the minimum length is 3 time points.
- The maximum time points to forecast is 10,000.
- The maximum cardinality of training features is 10,000.
- Holiday effect modeling is effective only for approximately 5 years.
Examples
The following examples show how to create different types of ARIMA_PLUS_XREG
time series models.
Forecast a single time series
This example shows how to create a time series model that forecasts a single time series:
CREATE MODEL `project_id.mydataset.mymodel` OPTIONS(MODEL_TYPE='ARIMA_PLUS_XREG', time_series_timestamp_col='date', time_series_data_col='transaction') AS SELECT date, transaction, feature1, feature2 FROM `mydataset.mytable`
Train a time series model more quickly by using a fraction of the time points
This example shows how to create a time series model while
improving training speed by using the TIME_SERIES_LENGTH_FRACTION
and
MIN_TIME_SERIES_LENGTH
options:
CREATE MODEL `project_id.mydataset.mymodel` OPTIONS(MODEL_TYPE='ARIMA_PLUS_XREG', time_series_timestamp_col='date', time_series_data_col='transaction', time_series_length_fraction=0.5, min_time_series_length=30) AS SELECT date, transaction, feature1, feature2 FROM `mydataset.mytable`
What's next
- Walk through our tutorials that use the multivariate time series model in BigQuery ML: