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I'm trying to find out if my table will get less performant if I change the primary key to BIGINT(20). At the moment, I'm using INT(7) and have about 300.000 entries already with large IDs (7 or 8 digits). I searched a lot already but only found out that it uses more disk-space (which is obvious).

All of my IDs have 7 digits right now, but my customer wants to change to 8 digits. I won't be able to easily change the software in the future, so I thought about using BIGINT(20) now just in case. Would it be less performant if I use BIGINT even though I don't need to yet?

Does anyone with experience doing this have suggestions regarding speed and performance?

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To answer your question: yes it'll get less performant. Obviously, the bigger the type, the bigger the table, the slower the queries (more I/O, bigger indexes, longer access time, result less likely to fit in the various caches, and so on). So as a rule of thumb: always use the smallest type that fits you need.

That being said, performance doesn't matter. Why? Because when you reach a point where you overflow an INT, then BIGINT is the only solution and you'll have to live with it. Also at that point (considering you're using an auto increment PK, you'll be over 4 billions rows), you'll have bigger performance issues, and the overhead of a BIGINT compared to a INT will be the least of your concerns.

So, consider the following points:

  • Use UNSIGNED if you don't need negative values, that'll double the limit.
  • UNSIGNED INT max value is 4.294.967.295. If you're using an auto increment PK, and you only have 300.000 entries, you really don't need to worry. You could even use a MEDIUMINT at the moment, unless you're planning for really really fast growth. (see http://dev.mysql.com/doc/refman/5.1/en/integer-types.html)
  • The number in parenthesis after the type doesn't impact the max value of the type. INT(7) is the same as INT(8) or INT(32). It's used to indicate the maximum display width. (see http://dev.mysql.com/doc/refman/5.1/en/numeric-type-overview.html)
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2  
This says everything I was about to. You have practically no chance of hitting the limit on an INT field unless you're dealing with a LOT of data (which 300,000 entries is NOT). Also as mentioned here the (7) doesn't really do anything to limit what the field stores. You've still got a limit of 4.3 billion (assuming you make it UNSIGNED) – Simon at mso.net Feb 21 '12 at 11:54
    
i know about the sizes of int(7) and so on. but i dont use auto-increment in that table, cause the numbers are imported from another database, and they are much longer than 2 characters – rubo77 Feb 21 '12 at 11:57
    
    
The fact that it's imported doesn't prevent you from using AUTO_INCREMENT - the AI value is automatically set the max value of the PK after a series of insert (and if not you can use ALTER to change it). Now if you do need BIGINT because you can have numbers over 10 digits long (this happens with serial numbers for example), then yes, it'll be slightly less efficient. If you're really really worried and have a huge trafic, you could use a separate (small) auto increment PK and store your BIGINT as a UNIQUE INDEX (but frankly I don't think it's worth the troubles) – rlanvin Feb 21 '12 at 12:03
1  
Yes I think in this case the overhead is marginal and you won't notice it. (I'm working with tables with over 40 millions rows using BIGINT for the PK with no problem) – rlanvin Feb 21 '12 at 12:17
up vote -1 down vote accepted

As I stated:

  • I dont use auto-increment in that table (cause the numbers are imported from another database) and these numbers all have 8 digits right now (but it would be future-compatible, if I already could use BIGINT)
  • also see the documentation: dev.mysql.com/doc/refman/5.1/en/numeric-type-overview.html

So although rlanvin's answer has a lot of important information, the answer here only is inside the comments:

This is the right answer to my question:

since 300,000 entries is NOT a lot of data, the overhead is marginal and you won't notice it. (I'm working with tables with over 40 millions rows using BIGINT for the PK with no problem) – rlanvin

(so votes and credits go to rlavin for his answer )

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So: did anyone actually tested it somewhere? The performance with "only" 300.000 entries and a sub-optimal field-type? – rubo77 Jan 19 '13 at 7:56
7  
@rlanvin should have the accepted answer. I'm not sure why you made an answer to your own question, only to reiterate what was already said. – Chris Bornhoft Jul 25 '14 at 14:07
    
@ChrisBornhoft: rlanvin gets the credits, but the answer for me is not inside his answer, only inside one of his comments, which makes it really unclear that the answer really is: "the overhead is marginal". (If someone edits the Answer, then I will accept it) – rubo77 Jul 25 '14 at 14:30
    
marginal * 10 = marginal? The definition of marginal is relative. The quote you have pasted is not answering your question correctly but is part of the right answer. Small part. – ninjabber Jan 22 '15 at 14:04

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