Skip to main content

Dimensions

Dimensions represent the non-aggregatable columns in your data set, which are the attributes, features, or characteristics that describe or categorize data. In the context of the dbt Semantic Layer, dimensions are part of a larger structure called a semantic model. They are created along with other elements like entities and measures and used to add more details to your data. In SQL, dimensions are typically included in the group by clause of your SQL query.

All dimensions require a name, type, and can optionally include an expr parameter. The name for your Dimension must be unique within the same semantic model.

ParameterDescriptionRequiredType
nameRefers to the name of the group that will be visible to the user in downstream tools. It can also serve as an alias if the column name or SQL query reference is different and provided in the expr parameter.

Dimension names should be unique within a semantic model, but they can be non-unique across different models as MetricFlow uses joins to identify the right dimension.
RequiredString
typeSpecifies the type of group created in the semantic model. There are two types:

- Categorical: Describe attributes or features like geography or sales region.
- Time: Time-based dimensions like timestamps or dates.
RequiredString
type_paramsSpecific type params such as if the time is primary or used as a partitionRequiredDict
descriptionA clear description of the dimensionOptionalString
exprDefines the underlying column or SQL query for a dimension. If no expr is specified, MetricFlow will use the column with the same name as the group. You can use the column name itself to input a SQL expression.OptionalString
labelDefines the display value in downstream tools. Accepts plain text, spaces, and quotes (such as orders_total or "orders_total").OptionalString

Refer to the following for the complete specification for dimensions:

dimensions:
- name: Name of the group that will be visible to the user in downstream tools # Required
type: Categorical or Time # Required
label: Recommended adding a string that defines the display value in downstream tools. # Optional
type_params: Specific type params such as if the time is primary or used as a partition # Required
description: Same as always # Optional
expr: The column name or expression. If not provided the default is the dimension name # Optional

Refer to the following example to see how dimensions are used in a semantic model:

semantic_models:
- name: transactions
description: A record for every transaction that takes place. Carts are considered multiple transactions for each SKU.
model: {{ ref('fact_transactions') }}
defaults:
agg_time_dimension: order_date
# --- entities ---
entities:
- name: transaction
type: primary
...
# --- measures ---
measures:
...
# --- dimensions ---
dimensions:
- name: order_date
type: time
type_params:
time_granularity: day
label: "Date of transaction" # Recommend adding a label to provide more context to users consuming the data
expr: ts
- name: is_bulk
type: categorical
expr: case when quantity > 10 then true else false end
- name: type
type: categorical

Dimensions are bound to the primary entity of the semantic model they are defined in. For example the dimension type is defined in a model that has transaction as a primary entity. type is scoped to the transaction entity, and to reference this dimension you would use the fully qualified dimension name i.e transaction__type.

MetricFlow requires that all semantic models have a primary entity. This is to guarantee unique dimension names. If your data source doesn't have a primary entity, you need to assign the entity a name using the primary_entity key. It doesn't necessarily have to map to a column in that table and assigning the name doesn't affect query generation. We recommend making these "virtual primary entities" unique across your semantic model. An example of defining a primary entity for a data source that doesn't have a primary entity column is below:

semantic_model:
name: bookings_monthly_source
description: bookings_monthly_source
defaults:
agg_time_dimension: ds
model: ref('bookings_monthly_source')
measures:
- name: bookings_monthly
agg: sum
create_metric: true
primary_entity: booking_id

Dimensions types

This section further explains the dimension definitions, along with examples. Dimensions have the following types:

Categorical

Categorical dimensions are used to group metrics by different attributes, features, or characteristics such as product type. They can refer to existing columns in your dbt model or be calculated using a SQL expression with the expr parameter. An example of a categorical dimension is is_bulk_transaction, which is a group created by applying a case statement to the underlying column quantity. This allows users to group or filter the data based on bulk transactions.

dimensions: 
- name: is_bulk_transaction
type: categorical
expr: case when quantity > 10 then true else false end

Time

Time has additional parameters specified under the type_params section. When you query one or more metrics, the default time dimension for each metric is the aggregation time dimension, which you can refer to as metric_time or use the dimension's name.

You can use multiple time groups in separate metrics. For example, the users_created metric uses created_at, and the users_deleted metric uses deleted_at:

# dbt Cloud users
dbt sl query --metrics users_created,users_deleted --group-by metric_time__year --order-by metric_time__year

# dbt Core users
mf query --metrics users_created,users_deleted --group-by metric_time__year --order-by metric_time__year

You can set is_partition for time to define specific time spans. Additionally, use the type_params section to set time_granularity to adjust aggregation details (daily, weekly, and so on).

Use is_partition: True to show that a dimension exists over a specific time window. For example, a date-partitioned dimensional table. When you query metrics from different tables, the dbt Semantic Layer uses this parameter to ensure that the correct dimensional values are joined to measures.

dimensions: 
- name: created_at
type: time
label: "Date of creation"
expr: ts_created # ts_created is the underlying column name from the table
is_partition: True
type_params:
time_granularity: day
- name: deleted_at
type: time
label: "Date of deletion"
expr: ts_deleted # ts_deleted is the underlying column name from the table
is_partition: True
type_params:
time_granularity: day

measures:
- name: users_deleted
expr: 1
agg: sum
agg_time_dimension: deleted_at
- name: users_created
expr: 1
agg: sum

SCD Type II

caution

Currently, semantic models with SCD Type II dimensions cannot contain measures.

MetricFlow supports joins against dimensions values in a semantic model built on top of a slowly changing dimension (SCD) Type II table. This is useful when you need a particular metric sliced by a group that changes over time, such as the historical trends of sales by a customer's country.

Basic structure

SCD Type II are groups that change values at a coarser time granularity. SCD Type II tables typically have two time columns that indicate the validity period of a dimension: valid_from (or tier_start) and valid_to (or tier_end). This creates a range of valid rows with different dimension values for a metric or measure.

MetricFlow associates the metric with the earliest available dimension value within a coarser time window, such as a month. By default, it uses the group valid at the start of this time granularity.

MetricFlow supports the following basic structure of an SCD Type II data platform table:

entity_keydimensions_1dimensions_2...dimensions_xvalid_fromvalid_to
  • entity_key (required): A unique identifier for each row in the table, such as a primary key or another unique identifier specific to the entity.
  • valid_from (required): Start date timestamp for when the dimension is valid. Use validity_params: is_start: True in the semantic model to specify this.
  • valid_to (required): End date timestamp for when the dimension is valid. Use validity_params: is_end: True in the semantic model to specify this.

Semantic model parameters and keys

When configuring an SCD Type II table in a semantic model, use validity_params to specify the start (valid_from) and end (valid_to) of the validity window for each dimension.

  • validity_params: Parameters that define the validity window.
    • is_start: True: Indicates the start of the validity period. Displayed as valid_from in the SCD table.
    • is_end: True: Indicates the end of the validity period. Displayed as valid_to in the SCD table.

Here’s an example configuration:

- name: tier_start #  The name of the dimension.
type: time # The type of dimension (such as time)
label: "Start date of tier" # A readable label for the dimension
expr: start_date # Expression or column name the dimension represents
type_params: # Additional parameters for the dimension type
time_granularity: day # Specifies the granularity of the time dimension (such as day)
validity_params: # Defines the validity window
is_start: True # Indicates the start of the validity period.
- name: tier_end
type: time
label: "End date of tier"
expr: end_date
type_params:
time_granularity: day
validity_params:
is_end: True # Indicates the end of the validity period.

SCD Type II tables have a specific dimension with a start and end date. To join tables:

  • Set the additional entity type parameter to the natural key.
  • Use a natural key as an entity type, which means you don't need a primary key.
  • In most instances, SCD tables don't have a logically usable primary key because natural keys map to multiple rows.

Implementation

Here are some guidelines to follow when implementing SCD Type II tables:

  • The SCD table must have valid_to and valid_from time dimensions, which are logical constructs.
  • The valid_from and valid_to properties must be specified exactly once per SCD table configuration.
  • The valid_from and valid_to properties shouldn't be used or specified on the same time dimension.
  • The valid_from and valid_to time dimensions must cover a non-overlapping period where one row matches each natural key value (meaning they must not overlap and should be distinct).
  • We recommend defining the underlying dbt model with dbt snapshots. This supports the SCD Type II table layout and ensures that the table is updated with the latest data.

This is an example of SQL code that shows how a sample metric called num_events is joined with versioned dimensions data (stored in a table called scd_dimensions) using a primary key made up of the entity_key and timestamp columns.

select metric_time, dimensions_1, sum(1) as num_events
from events a
left outer join scd_dimensions b
on
a.entity_key = b.entity_key
and a.metric_time >= b.valid_from
and (a.metric_time < b. valid_to or b.valid_to is null)
group by 1, 2

SCD examples

The following are examples of how to use SCD Type II tables in a semantic model:

 SCD dimensions for sales tiers and the time length of that tier.
 SCD dimensions with sales tiers and group transactions by month when tiers are missing
0