There's a healthy debate out there between surrogate and natural keys:

SO Post 1

SO Post 2

My opinion, which seems to be in line with the majority (it's a slim majority), is that you should use surrogate keys unless a natural key is completely obvious and guaranteed not to change. Then you should enforce uniqueness on the natural key. Which means surrogate keys almost all of the time.

Example of the two approaches, starting with a Company table:

1: Surrogate key: Table has an ID field which is the PK (and an identity). Company names are required to be unique by state, so there's a unique constraint there.

2: Natural key: Table uses CompanyName and State as the PK -- satisfies both the PK and uniqueness.

Let's say that the Company PK is used in 10 other tables. My hypothesis, with no numbers to back it up, is that the surrogate key approach would be much faster here.

The only convincing argument I've seen for natural key is for a many to many table that uses the two foreign keys as a natural key. I think in that case it makes sense. But you can get into trouble if you need to refactor; that's out of scope of this post I think.

Has anyone seen an article that compares performance differences on a set of tables that use surrogate keys vs. the same set of tables using natural keys? Looking around on SO and Google hasn't yielded anything worthwhile, just a lot of theorycrafting.

Important Update: I've started building a set of test tables that answer this question. It looks like this:

  • PartNatural - parts table that uses the unique PartNumber as a PK
  • PartSurrogate - parts table that uses an ID (int, identity) as PK and has a unique index on the PartNumber
  • Plant - ID (int, identity) as PK
  • Engineer - ID (int, identity) as PK

Every part is joined to a plant and every instance of a part at a plant is joined to an engineer. If anyone has an issue with this testbed, now's the time.

  • It probably depends on the data type of the surrogate and natural keys, and how they're indexed, etc., etc. – John Saunders Aug 4 '09 at 18:39
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    Given that people use surrogate keys because they are logically necessary, the performance differences between then and natural keys (should such differences exist) nust be immaterial - you can't replace one with the other. – anon Aug 4 '09 at 18:42
  • I think natural keys usually involve varchar fields and surrogate keys are almost always ints. You're right though, but I hope that whatever mythical study/whitepaper I'm searching for will address this. – jcollum Aug 4 '09 at 18:42
  • Natural keys involve whatever's natural. surrogate keys may be ints, bigints, GUID, etc. – John Saunders Aug 4 '09 at 18:46
  • @Neil: I'm not sure I agree with the logically necessary part. From what I've read, many people use surrogate keys even when a natural key might be available, for a variety of reasons. – jcollum Aug 4 '09 at 18:56

Use both! Natural Keys prevent database corruption (inconsistency might be a better word). When the "right" natural key, (to eliminate duplicate rows) would perform badly because of length, or number of columns involved, for performance purposes, a surrogate key can be added as well to be used as foreign keys in other tables instead of the natural key... But the natural key should remain as an alternate key or unique index to prevent data corruption and enforece database consistency...

Much of the hoohah (in the "debate" on this issue), may be due to what is a false assumption - that you have to use the Primary Key for joins and Foreign Keys in other tables. THIS IS FALSE. You can use ANY key as the target for foreign keys in other tables. It can be the Primary Key, an alternate Key, or any unique index or unique constraint. And as for joins, you can use anything at all for a join condition, it doesn't even have to be a key, or an idex, or even unique !! ( although if it is not unique you will get multiple rows in the Cartesian product it creates).

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    I think you are misusing the term "corruption" here (which implies random values being scribbled over the database data) - you really just mean "consistency". – anon Aug 4 '09 at 19:56
  • Perhaps, w/o picking at nits, I guess I (mis?)use the word corruption in a broader sense than I should... If there are two rows in a Transaction table that actually represent the same transaction, is that corrupt data or inconsistent data? And I have thought inconsistency specifically meant when some invariant was not satisifed, like, for e.g., if the totalAmount column in an Invoice row was not equal to the sum of the Invoice Line item row amounts. – Charles Bretana Aug 4 '09 at 21:22

Natural keys differ from surrogate keys in value, not type.

Any type can be used for a surrogate key, like a VARCHAR for the system-generated slug or something else.

However, most used types for surrogate keys are INTEGER and RAW(16) (or whatever type your RDBMS does use for GUID's),

Comparing surrogate integers and natural integers (like SSN) takes exactly same time.

Comparing VARCHARs make take collation into account and they are generally longer than integers, that making them less efficient.

Comparing a set of two INTEGER is probably also less efficient than comparing a single INTEGER.

On datatypes small in size this difference is probably percents of percents of the time required to fetch pages, traverse indexes, acquite database latches etc.

And here are the numbers (in MySQL):

CREATE TABLE adouble (id1 INT NOT NULL, id2 INT NOT NULL, value VARCHAR(100), PRIMARY KEY (id1, id2));

INTO    aint
SELECT  id, RPAD('', FLOOR(RAND(20090804) * 100), '*')
FROM    t_source;

INTO    bint
SELECT  id, id
FROM    aint;

INTO    adouble
SELECT  id, id, value
FROM    aint;

INTO    bdouble
SELECT  id, id, id
FROM    aint;

FROM    bint b
JOIN    aint a
ON      a.id = b.aid;

FROM    bdouble b
JOIN    adouble a
ON      (a.id1, a.id2) = (b.aid1, b.aid2);

t_source is just a dummy table with 1,000,000 rows.

aint and adouble, bint and bdouble contain exactly same data, except that aint has an integer as a PRIMARY KEY, while adouble has a pair of two identical integers.

On my machine, both queries run for 14.5 seconds, +/- 0.1 second

Performance difference, if any, is within the fluctuations range.

  • The example that I see most often of a surrogate vs natural key is States (in the US). Surrogate key on that table would be an int, but the natural key would be a char(2). – jcollum Aug 4 '09 at 18:48
  • (in case you're wondering, I didn't downvote you) – jcollum Aug 4 '09 at 18:50
  • I wonder if SSN will change from an INT to a CHAR when the US goes past 1B people. It's not too far off really. – jcollum Aug 4 '09 at 18:53
  • oops, apparently the US's growth rate isn't even close to that of the world, we've got a way (in years) to go to hit 1B people. – jcollum Aug 4 '09 at 18:59
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    @jcollum: when I asked you of the real world problems yesterday you answered me that it's not relevant since we are speaking about concepts, not real world problems. Now, when I give you a concept, you are starting to speak about real-world usage and change the subject of discussion. You didn't answer my question. Aren't the keys in the example above surrogate and natural, respectively? Don't they differ only by value, not by type? If they are and they do, what was that you disagree with? Please answer. Thank you. – Quassnoi Aug 4 '09 at 23:14

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