In our data model, which is derived from the Teradata industry models, we observe a common pattern, where the superclass and subclass relationships in the logical data model are transformed into one-to-one relationships between the parent and the child table.

I know you can roll-up or roll-down the attributes to end up with a single table but we are not using this option overall. At the end what we have is a model like this:

enter image description here

Where City Id references a Geographical Area Id.

I am struggling with a good strategy to load the records in these tables.

Option 1: I could select the max(Geographical Area Id) and calculate the next Ids for a batch insert and reuse them for the City Table.

Option 2: I could use an Identity column in the Geographical Area Table and retrieve it after I insert every record in order to use it for the City table.

Any other options?

I need to assess the solution in terms of performance, reliability and maintenance.

Any comment will be appreciated.

Kind regards,


  • 2
    Never calculate the ID for yourself. Always use auto-increment – juergen d Jan 18 '18 at 11:11
  • Search the web for premature optimisation – MatBailie Jan 18 '18 at 11:18
  • Use auto-increment would be my first choice but some Teradata users reported problems like identity values are not sequentially generated, but I guess I can get the record Id after performing an insert. – Playing With BI Jan 18 '18 at 12:16
  • About premature optimization, if I know ahead of time, that an operation could not be performed in batches, it will be soon or later a performance bottleneck. The option to perform something in batches is from my point of view a requirement and not premature optimization. – Playing With BI Jan 18 '18 at 12:27
  • 3
    identity values on Teradata will not be sequential, but that should be completely irrelevant. It's not something you would want to min, max, etc. It's just a surrogate key. – Andrew Jan 18 '18 at 21:04

When you say "load the records into these tables", are you talking about a one-time data migration or a function that creates records for new Geographical Area/City?

If you are looking for a surrogate key and are OK with gaps in your ID values, then use an IDENTITY column and specify the NO CYCLE clause, so it doesn't repeat any numbers. Then just pass NULL for the value and let TD handle it.

If you do need sequential IDs, then you can just maintain a separate "NextId" table and use that to generate ID values. This is the most flexible way and would make it easier for you to manage your BATCH operations. It requires more code/maintenance on your part, but is more efficient than doing a MAX() + 1 on your data table to get your next ID value. Here's the basic idea:


  • Get the "next" ID from a lookup table
  • Use that value to generate new ID values for your next record(s)
  • Create your new records
  • Update the "next" ID value in the lookup table and increment it by the # rows newly inserted (you can capture this by storing the value in the ACTIVITY_COUNT value variable directly after executing your INSERT/MERGE statement)
  • Make sure to LOCK the lookup table at the beginning of your transaction so it can't be modified until your transaction completes


Here is an example from Postgres, that you can adapt to TD:


INSERT INTO Users(UserId, UserType)
        src.UserId, -- Use UserId if provided (i.e. update existing user)
        (id.NextValue - 1) -- Use newly generated UserId (i.e. create new user)
    AS UserIdFinal,
    -- Bulk Upsert (get source rows from JSON parameter)
    SELECT src.FirstName, src.UserId, src.UserType
    FROM JSONB_TO_RECORDSET(pUserDataJSON->'users') AS src(FirstName VARCHAR(100), UserId INTEGER, UserType CHAR(1))
) src
    -- Get next ID value to use
    SELECT NextValue
    FROM NextId 
    WHERE IdType = 'User'
    FOR UPDATE -- Use "Update" row-lock so it is not read by any other queries also using "Update" row-lock
) id
UserType = EXCLUDED.UserType;

-- Increment UserId value
SET NextValue = NextValue + COALESCE(NewUserCount,0)
WHERE IdType = 'User'

Just change the locking statement to Teradata syntax (LOCK TABLE NextId FOR WRITE) and add an ACTIVITY_COUNT variable after your INSERT/MERGE to capture the # rows affected. This assumes you're doing all this inside a stored procedure.

Let me know how it goes...

  • Hi, thanks for your answer. Your solution is a kind of combination of the solutions I have figured out. Why do you thing is better to use an Identity Column instead of generate the Ids with the application, and why is better to maintain a second table for the "NextValue" instead of dynamically calculate it with a SQL query? I tested the pieces of your solution and it worked. Now I have to either translate it into a Talend package or create a stored procedure and call it from Talend. – Playing With BI Jan 19 '18 at 13:32
  • 1
    You're welcome. The advantages of using an IDENTITY column is you don't have to maintain (i.e. retrieve/increment) the values yourself, worry about uniqueness, or an extra table lock. It's easier. If you want to manage the ID values yourself, it really depends on your preference. If it's a small application, performance isn't a huge priority, etc...then you can dynamically calculate the ID's if you want. The reason to keep a "NextId" table is to avoid the performance hit of doing an aggregation each time you want to INSERT. To get your next ID, it's a single-row UPI join...very fast. – ravioli Jan 19 '18 at 14:19

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.