Using a Lookup Component in SSIS for Surrogate Keys in a Fact table

by Jul 26, 2016

There are many suggestions for loading a data warehouse using SQL Server integration Services (SSIS). Once you get started, you find a pattern to repeat for facts and dimensions. This might be because the consistency Dimensional Modeling suggests for the design of fact and dimension tables. The SSIS Lookup component provides options to divert handling of non-conformed data or you can use your T-SQL skills up front where a diversion is not necessary.

The most common use of a Lookup component is to find the Dimension surrogate key for one or more rows in a fact table. The CustomerKey from the Customer dimension will be used in the Sales Fact table in order to join to customer hierarchies and attributes like the following T-SQL:

SELECT c.CommuteDistance, Sum([OrderQuantity]) AS OrdQty

    , Sum([SalesAmount]) AS SalesAmt

  FROM [dbo].[FactInternetSales] fis

    INNER JOIN dbo.DimCustomer c ON c.CustomerKey = fis.CustomerKey

  GROUP BY c.CommuteDistance

 

CommuteDistance

OrdQty

SalesAmt

5-10 Miles

10615

4893148.0413

2-5 Miles

10084

4965514.4362

1-2 Miles

10170

4541608.1498

0-1 Miles

21307

11207592.2248

10+ Miles

8222

3750814.3686

Table 1: Sales Amount and Order Qty sums for Commute Distance

 

Once you get the source data for the Sales fact in an SSIS package, the Lookup component can be used to get the surrogate from the customer dimension. In Figure 1, the object LU – Customer Key lookup in the flow of populating this fact table.

 

Figure 1: Loading the FactInternetSales table from the AdventureWorksDW Database

The options for Lookups vary based on some properties. In Figure 2, we can see some of these options.

 

Figure 2: General Lookup properties

Most lookups for dimensions can use the Full Cache mode because there is not a lot of dimension rows. But, if you come across large dimensions in a data warehouse, sometime should be spent seeing if a Partial Cache or No Cache will help with loading speed as well as using a Cache connection manager. The Full Cache option will load all the data from the dimension table into memory before any flow starts in the package. This is why it is good not to SELECT all the columns in the dimension table for a lookup.

 

Figure 3: Connection properties

Figure 3 shows the connection using a T-SQL statement to only get the CustomerKey and CustomerAlternateKey from the DimCustomer table. The CustomerAlternateKey is the business key that matches customer to rows in the source data for FactInternetSales. If you use the option “Use a table or a view”, the generated query will select all columns from the source.

Let’s go back to the General properties to look at “Specify how to handle rows with no matching entries”. Figure 4 shows the different options available.

 

Figure 4: General properties

The “Fail component” option will stop processing of the import if no match is found in the lookup table. This is not a good option for loading data into a fact table. Most systems would want the import to continue for the customer surrogate keys that are found.

  1. Ignore Failure – Null will replace lookup values selected. Those rows with no match are streamed to the normal flow in package with the Null value in match columns selected.
  2. Redirect rows to error output – red line output will show a failure but can pipe the data to any component. Those rows with no match are not streamed to the normal flow in package.
  3. Fail component – the package stops with a failure if no match exists, if all match there is no failure
  4. Redirect rows to no match output – output can be piped to another component and processing continues. Those rows with no match are not streamed to the normal flow in package.

So, the two other options I use most are “Redirect rows to no match output” or “Ignore Failure”. The redirect rows… option can be used to stage the rows that have problems and get someone to look at them before the next import. The Ignore Failure option can be used to substitute a Null value in the CustomerKey column.

Now, this will not work if importing to a fact table with foreign keys and a Not Null property on the CustomerKey column, but what I do most often is change the Null value to -1 and have an entry in the DimCustomer table for the Unknown possibility like this example.

CustomerKey

GeographyKey

CustomerAlternateKey

FirstName

LastName

MaritalStatus

Gender

-1

-1

-1

Unknown

Unknown

U

U

 

  

Figure 5: Derived Column component

Figure 5 shows what can been done to convert the Null value in the CustomerKey column to -1. This way with the -1 row in the customer dimension table, we will be able to insert the row into the fact table without having to process the rows outside of this package.

 

Figure 6: Selected Lookup Columns and names

Figure 6 shows the Columns tab Properties. Here is where we match the Source fact column for customer to the Business Key in the Customer Dimension. We also select the CustomerKey from the Available Lookup Columns list in order to get the surrogate key for the fact table. The selected CustomerKey is where the Null value will be located if no match if found.

This process also indicates that another process needs to be implement to determine why existing fact rows have business keys for the customer source table that are not imported into the Customer dimension. This one tip can go a long way and patterns developed to help with this situation. It also indicates the power and flexibility SSIS provides data warehouse architects in implementing an ETL solution for its business.