Basically, I will need to combine product data from multiple vendors into a single database (it's more complex than that, of course) which has several tables that will need to be joined together for most OLTP operations.

I was going to stick with the default and use an auto-incrementing integer as the primary key, but while one vendor supplies their own "ProductiD" field, the rest do not and I would have to do a lot of manual mapping to the other tables then to load the data (as I would have to first load it into the Products table, then pull the ID out and add that along with the other information I need to the other tables).

Alternatively, I could use the product's SKU as it's primary key since the SKU is unique for a single product, and all of the vendors supply a SKU in their data feeds. If I use the SKU as the PK then I could easily load the data feeds as everything is based off of the SKU, which is how it works in the real world. However the SKU is alphanumeric and will probably be slightly less efficient than an integer-based key.

Any ideas on which I should look at?

10 Answers 10


This is a choice between surrogate and natural primary keys.

IMHO always favour surrogate primary keys. Primary keys shouldn't have meaning because that meaning can change. Even country names can change and countries can come into existence and disappear, let alone products. Changing primary keys is definitely not advised, which can happen with natural keys.

More on surrogate vs primary keys:

So surrogate keys win right? Well, let’s review and see if any of the con’s of natural key’s apply to surrogate keys:

  • Con 1: Primary key size – Surrogate keys generally don't have problems with index size since they're usually a single column of type int. That's about as small as it gets.
  • Con 2: Foreign key size - They don't have foreign key or foreign index size problems either for the same reason as Con 1.
  • Con 3: Asthetics - Well, it’s an eye of the beholder type thing, but they certainly don’t involve writing as much code as with compound natural keys.
  • Con 4 & 5: Optionality & Applicability – Surrogate keys have no problems with people or things not wanting to or not being able to provide the data.
  • Con 6: Uniqueness - They are 100% guaranteed to be unique. That’s a relief.
  • Con 7: Privacy - They have no privacy concerns should an unscrupulous person obtain them.
  • Con 8: Accidental Denormalization – You can’t accidentally denormalize non-business data.
  • Con 9: Cascading Updates - Surrogate keys don't change, so no worries about how to cascade them on update.
  • Con 10: Varchar join speed - They're generally int's, so they're generally as fast to join over as you can get.

And there's also Surrogate Keys vs Natural Keys for Primary Key?

  • +1 for cutting directly to the fundamental issue -- surrogate vs. natural keys.
    – ashes999
    Nov 10, 2010 at 16:37
  • 1
    Good post, I agree but with a small caveat. I always use a surrogate except where there is an existing "standard" that is sensible to use in the context of the problem you are trying to solve. examples are currency codes - which conform to the ISO 4216 standard and can avoid the need for a join altogether e.g most of the world understands what USD,GBP,EUR mean. ISO 3166 defines Country codes. Yes these can change - but typically you would want the history in a database or audit record and ISO just deprecates the old codes e.g. TRL > TRY. Social security number on the other hand I would not use
    – Chris
    Feb 13, 2013 at 9:15
  • One use case I would give to natural keys: if no other tables reference the table's PK then a surrogate key is not necessary. You'll likely create a unique key on the natural key anyway, so making it the PK of a standalone table should be fine. One benefit is the NK is more intuitive than a surrogate key on a childless table.
    – FistOfFury
    May 16, 2018 at 20:59

In all but the simplest internal situations, I recommend always going for the surrogate key. It gives you options in the future, and protects you from unknowns.

There's no reason why additional keys, like an SKU, couldn't be made non-null to enforce them, but at least by removing your reliance on third-parties you're giving yourself the option to choose, rather than having it taken from you and enduring a painful rewrite at a later stage.

Whether you go for the auto-incremented integer or determine the next primary key yourself, there will be complications. With the auto-incremented method, you can insert the record easily and let it assign its own key, but you may have trouble identifying exactly what key your record was given (and getting the max key isn't guaranteed to return yours).

I tend to go for the self-assigned key because you have more control and, in sql server, you can retrieve your key from a central keys table and ensure nobody else gets the same key, all in one statement:


UPDATE  KeyTable
WITH    (rowlock)
SET @Key = LastKey = LastKey + 1
WHERE   KeyType = 'Product'

The table records the last key used. The sql above increments that key directly in the table and returns the new key, ensuring its uniqueness.

Why you should avoid alphanumeric primary keys:

Three main problems: performance, collation and space.

Performance - there is a performance cost though, like Razzie below, I can't quote any numbers, but it is less efficient to index alphanumerics than numbers.

Collation - your developers may create the same key with different collations in different tables (it happens) which leads to constantly using the 'collate' commands when joining these tables in queries and that gets old really quickly.

Space - a nine-character SKU like David's takes nine bytes, but an integer takes only four (2 for smallint, 1 for tinyint). Even a bigint takes only 8 bytes.

  • nice post, almost one year later. +1 for that alone :-)
    – Razzie
    Feb 4, 2010 at 13:44
  • Thanks. I just started on this thing and thought I could offer something to this unanswered question since I was familiar with the topic. :) Feb 4, 2010 at 14:30
  • 1
    about Space: usually you will record the character code in a separate field, if not using it like a key, so no space saving.
    – SysDragon
    Jun 5, 2014 at 14:13

The ever present danger with natural keys is that either your initial assumptions will be proven wrong now or in the future when some change is made outside your control, or at some place you'll need to reference a record where passing a meaningful field is not desired (ex. a web application that uses an employee's social security number as the primary key, and then has to use urls like /employee.php?ssn=xxxxxxx)

From my own personal experience with "unique" SKU's and vendor data feeds - are you absolutely sure they are sending you a feed with complete, unique, well formed SKUs?

I've had to personally deal with all of the following when getting feeds from vendors who have varying levels of IT and clerical competence:

  • Products are missing their SKU entirely ("")
  • Clerks have used placeholder SKUs in their database like 999999999 and 00000000 and never corrected them
  • Those doing the data entry or importation have confused between various product numbers, mixing up things like UPC with SCC, or even finding ways to mangle them together (I've seen SCC codes with impossible check digits at the end, because they just copied the UPC and added 01 or 10, without correcting the check digit)
  • For special reasons, or just incompetence, the vendor has entered the same product twice in their database (for example rev. 1 and rev. 2 of the same motherboard have the same SKU, but exist as 2 records in the vendors database and data feed because rev 2. has new features)

I'd also go with an auto-increment primary key. The performance impact for having an alphanumeric primary key are there, though I don't dare name any numbers. However, if performance is important in your application, all the more reason to go with the autoincrement primary key column.

  • I'm giving this one an up-vote because Razzie makes an excellent point about alphanumeric primary keys. Avoid them like the plague! I'll append my reasons for this to my answer above. Feb 4, 2010 at 10:42
  • PKs have to roll over at some point though which can cause complications Sep 1, 2015 at 3:53

I'd advice on having an autoincremented "meaningless" integer as primary key. Should someone come up with the idea of reorganizing product IDs, at least your DB won't get into trouble.


Pretty similar to my question a few months ago...

Should I have a dedicated primary key field?

I went with an auto-incrementing PK in the end.


Since you're dealing with data from multiple vendors outside of your control, I would use a surrogate key. You don't want to have to rearchitect your database design one day when one of them happens to send you a duplicate.


A surrogate key (auto increment INT field) will uniquely identify a row in the table. On the other hand, a Unique Natural key (productName) will prevent duplicate product data from entering the table.

With a unique Natural key field, two or more rows can never have same data.

With a surrogate key field, Rows can be unique because of the auto increment INT field but data in rows will not be unique because the surrogate key has no relation to the data.

Lets take an example of a User table, the table's Natural key field (userName) will prevent same user from registering twice but the auto increment INT field (userId) will not.

  • And you can't do this with an additional unique index? Mar 6, 2014 at 21:03

If every product will have a SKU and the SKU is unique to each product, I don't see why you wouldn't want to use that for a possible primary key.

  • What if the company gets bought out and the SKU changes? I agree with cletus! Nice example on the country names changing. Mar 6, 2014 at 21:01

You could always take a hash of the SKU which would get rid of the alphas. You'd have to code for possible collisions (which should be very rare) which is an added complication.

I'd use the hash to populate the primary key and make the inital import easy but when using it in the dB always treat it as if it were a random number. That way the primary key will loose it's meaning (and have all the advantages of an auto-incremented key) allowing flexibility in the future.

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