Dimensions that change over time are called Slowly Changing Dimensions. For instance, a product price changes over time; People change their names for some reason; Country and State names may change over time. These are a few examples of Slowly Changing Dimensions since some changes are happening to them over a period of time.
Slowly Changing Dimensions are often categorized into three types namely Type1, Type2 and Type3. The following section deals with how to capture and handling these changes over time.
The “Product” table mentioned below contains a product named, Product1 with Product ID being the primary key. In the year 2004, the price of Product1 was $150 and over the time, Product1’s price changes from $150 to $350. With this information, let us explain the three types of Slowly Changing Dimensions.
Product ID(PK) | Year | Product Name | Product Price |
---|---|---|---|
1 | 2004 | Product1 | $150 |
In the year 2005, if the price of the product changes to $250, then the old values of the columns “Year” and “Product Price” have to be updated and replaced with the new values. In this Type 1, there is no way to find out the old value of the product “Product1” in year 2004 since the table now contains only the new price and year information.
Product ID(PK) | Year | Product Name | Product Price |
---|---|---|---|
1 | 2005 | Product1 | $250 |
In this Type 2, the old values will not be replaced but a new row containing the new values will be added to the product table. So at any point of time, the difference between the old values and new values can be retrieved and easily be compared. This would be very useful for reporting purposes.
Product ID(PK) | Year | Product Name | Product Price |
---|---|---|---|
1 | 2004 | Product1 | $150 |
1 | 2005 | Product1 | $250 |
The problem with the above mentioned data structure is “Product ID” cannot store duplicate values of Product1 since “Product ID” is the primary key. Also, the current data structure doesn’t clearly specify the effective date and expiry date of Product1 like when the change to its price happened. So, it would be better to change the current data structure to overcome the above primary key violation.
Product ID(PK) | Effective DateTime(PK) | Year | Product Name | Product Price | Expiry DateTime |
---|---|---|---|---|---|
1 | 01-01-2004 12.00AM | 2004 | Product1 | $150 | 12-31-2004 11.59PM |
1 | 01-01-2005 12.00AM | 2005 | Product1 | $250 |
In the changed Product table’s Data structure, “Product ID” and “Effective DateTime” are composite primary keys. So there would be no violation of primary key constraint. Addition of new columns, “Effective DateTime” and “Expiry DateTime” provides the information about the product’s effective date and expiry date which adds more clarity and enhances the scope of this table. Type2 approach may need additional space in the data base, since for every changed record, an additional row has to be stored. Since dimensions are not that big in the real world, additional space is negligible.
In this Type 3, the latest update to the changed values can be seen. Example mentioned below illustrates how to add new columns and keep track of the changes. From that, we are able to see the current price and the previous price of the product, Product1.
Product ID(PK) | Current Year | Product Name | Current Product Price | Old Product Price | Old Year |
---|---|---|---|---|---|
1 | 2005 | Product1 | $250 | $150 | 2004 |
The problem with the Type 3 approach, is over years, if the product price continuously changes, then the complete history may not be stored, only the latest change will be stored. For example, in year 2006, if the product1’s price changes to $350, then we would not be able to see the complete history of 2004 prices, since the old values would have been updated with 2005 product information.
Product ID(PK) | Year | Product Name | Product Price | Old Product Price | Old Year |
---|---|---|---|---|---|
1 | 2006 | Product1 | $350 | $250 | 2005 |
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