We're considering using UUID values as primary keys for our MySQL database. The data being inserted is generated from dozens, hundreds, or even thousands of remote computers and being inserted at a rate of 100-40,000 inserts per second, and we'll never do any updates.

The database itself will typically get to around 50M records before we start to cull data, so not a massive database, but not tiny either. We're also planing to run on InnoDB, though we are open to changing that if there is a better engine for what we're doing.

We were ready to go with Java's Type 4 UUID, but in testing have been seeing some strange behavior. For one, we're storing as varchar(36) and I now realize we'd be better off using binary(16) - though how much better off I'm not sure.

The bigger question is: how badly does this random data screw up the index when we have 50M records? Would we be better off if we used, for example, a type-1 UUID where the leftmost bits were timestamped? Or maybe we should ditch UUIDs entirely and consider auto_increment primary keys?

I'm looking for general thoughts/tips on the performance of different types of UUIDs when they are stored as an index/primary key in MySQL. Thanks!

  • 2
    one important detail is missing: are the primary keys to be generated by the logging server or by the client machines themselves?
    – user3850
    Mar 2, 2010 at 19:19
  • 1
    @hop they are being generated by the 10-1000 clients that insert the data Mar 2, 2010 at 19:30
  • Where do you need the universal uniqueness in your scenario? My advice is to stick to auto_increment and use a separate field to describe the remote computer that sends the data. No need to reinvent the wheel here. Jul 20, 2011 at 14:04
  • More discussion of performance pitfalls in UUIDs
    – Rick James
    Mar 31, 2022 at 22:24

11 Answers 11


At my job, we use UUID as PKs. What I can tell you from experience is DO NOT USE THEM as PKs (SQL Server by the way).

It's one of those things that when you have fewer than 1000 records, it's ok, but when you have millions, it's the worst thing you can do. Why? Because UUID are not sequential, so everytime a new record is inserted, MSSQL needs to go look at the correct page to insert the record in, and then insert the record. The really ugly consequence with this is that the pages end up all in different sizes and they end up fragmented, so now we have to do de-fragmentation periodic.

When you use an autoincrement, MSSQL will always go to the last page, and you end up with equally sized pages (in theory), so the performance to select those records is much better (also because the INSERTs will not block the table/page for so long).

However, the big advantage of using UUID as PKs is that if we have clusters of DBs, there will not be conflicts when merging.

I would recommend the following model:

  1. PK INT Identity
  2. Additional column automatically generated as UUID.

This way, the merge process is possible (UUID would be your REAL key, while the PK would just be something temporary that gives you good performance).

NOTE: That the best solution is to use NEWSEQUENTIALID (like I was saying in the comments), but for legacy app with not much time to refactor (and even worse, not controlling all inserts), it is not possible to do. But indeed as of 2017, I'd say the best solution here is NEWSEQUENTIALID or doing Guid.Comb with NHibernate.

  • I dont really know what those terms mean, but the fact is that the indexes need to be reindexed every month. If what you mention eliminates the reindexing task, I don't know but I can ask. Jul 6, 2012 at 0:50
  • 3
    Something that I've been thinking is that this may not work that well for parent-child relationships. In this case, I think you have to add in the child table: parent-pk, parent-guid. Otherwise you could lose references between databases. I haven't thought of this too much, nor done any example, but this may be needed Jul 11, 2013 at 15:17
  • 4
    @KatLimRuiz in sql server you can use the NEWSEQUENTIALID() technet.microsoft.com/en-us/library/ms189786.aspx to avoid the performance issue
    – giammin
    Aug 29, 2013 at 16:09
  • Indeed, but NEWSEQUENTIALID only works as DEFAULT. So you need to design your whole DAL around this, which is ok for new projects but not so easy for big legacy Aug 30, 2013 at 3:58
  • @KatLimRuiz genius. That's a great compromise
    – jmgunn87
    Oct 14, 2014 at 16:21

A UUID is a Universally Unique ID. It's the universally part that you should be considering here.

Do you really need the IDs to be universally unique? If so, then UUIDs may be your only choice.

I would strongly suggest that if you do use UUIDs, you store them as a number and not as a string. If you have 50M+ records, then the saving in storage space will improve your performance (although I couldn't say by how much).

If your IDs do not need to be universally unique, then I don't think that you can do much better then just using auto_increment, which guarantees that IDs will be unique within a table (since the value will increment each time)

  • Our reason for considering UUIDs is because in some situations we will have 1000+ machines dumping data in, and I didn't want us getting blocked on central ID generation - though perhaps I'm being pennywise, pound foolish :) Mar 2, 2010 at 17:23
  • 2
    Interesting point; this would parallelize the generation of the keys. I believe that this would increase the performance of key generation. However, you're choosing INSERT performance over SELECT performance if you use VARCHAR for storing the UUID. You most definitely should choose VARBINARY for storing to ensure SELECT performance. The extra step may impact INSERT performance, but you'll be paid off with the SELECT performance improvement.
    – Dancrumb
    Mar 2, 2010 at 17:40
  • 12
    We ended up doing some benchmarking on real data and GUIDs w/o keys was pretty fast, GUIDs w/ keys was horrible (even when stored as BINARY), and int w/ AUTO_COMPLETE was the fastest. I think in our case, we were indeed missing the forest from the trees, as the sequence generation seemed inconsequential compared to the cost of storing more data + having a really crappy BTREE due to the randomness of the GUIDs Mar 6, 2010 at 14:15
  • 1
    store as a number means storing in binary format? but binary format is unreadable for human. It is slow because large bytes of uuid primary key? If it's, then I could store auto-increment with another column for uuid. Then, performance won't suffer. Am i right?
    – Chamnap
    Jun 7, 2012 at 14:19
  • 4
    Strictly speaking, UUID is universally unique, meaning that it will never appear anywhere else in the world. You only need this if you're sharing your data publically. As for storing a UUID as a number, I don't mean in binary format. I mean as a 128 bit number, rather than a 288 bit string. For instance, the word 'hello' in ASCII is 68 65 6C 6C 6F, which is the number 448,378,203,247. Storing the string '68656C6C6F' requires 10 bytes. The number 448,378,203,247 requires only 5. All in all, unless you really need the first U in UUID, you can't do much better than auto_increment
    – Dancrumb
    Jun 7, 2012 at 14:37

Something to take into consideration is that Autoincrements are generated one at a time and cannot be solved using a parallel solution. The fight for using UUIDs eventually comes down to what you want to achieve versus what you potentially sacrifice.

On performance, briefly:

A UUID like the one above is 36 characters long, including dashes. If you store this VARCHAR(36), you're going to decrease compare performance dramatically. This is your primary key, you don't want it to be slow.

At its bit level, a UUID is 128 bits, which means it will fit into 16 bytes, note this is not very human readable, but it will keep storage low, and is only 4 times larger than a 32-bit int, or 2 times larger than a 64-bit int. I will use a VARBINARY(16) Theoretically, this can work without a lot of overhead.

I recommend reading the following two posts:

I reckon between the two, they answer your question.

  • 2
    Actually, I read both those articles prior to posting this question, and I still didn't have a good answer here. For example, neither talk about type 1 vs type 4 UUIDS :( Mar 2, 2010 at 17:27
  • Fair that, I updated my answer a touch. I don't think it provides too much extra insight however. Mar 2, 2010 at 17:30
  • @Patrick: you put too many different topics into your question.
    – user3850
    Mar 2, 2010 at 18:02
  • 1
    9 years later, but it should also be noted for posterity that unlike integer IDs, apps can generate UUIDs safely, removing the generation from the database entirely. Manipulation of the UUIDs for performance optimization (timestamp-based but modified so that they can be naively sorted) is notably easier in just about any language other than SQL. Luckily almost all databases today (MySQL included) handle UUID primary keys much better than they used to.
    – Miles Elam
    Dec 5, 2019 at 0:42

I tend to avoid UUID simply because it is a pain to store and a pain to use as a primary key but there are advantages. The main one is they are UNIQUE.

I usually solve the problem and avoid UUID by using dual key fields.



This offers me two things. Speed of auto-inc fields and uniqueness of data being stored in a central location after it is collected and grouped together. I also know while browsing the data where it was collected which is often quite important for my needs.

I have seen many cases while dealing with other data sets for clients where they have decided to use UUID but then still have a field for where the data was collected which really is a waste of effort. Simply using two (or more if needed) fields as your key really helps.

I have just seen too many performance hits using UUID. They feel like a cheat...

  • 1
    This is actually a pretty neat, and sort of sounds obvious once its mentioned. The question is, how expensive is that dual key when used in big joins or whatever.
    – Shayne
    Jun 6, 2022 at 13:40

Instead of centrally generating unique keys for each insertion, how about allocating blocks of keys to individual servers? When they run out of keys, they can request a new block. Then you solve the problem of overhead by connecting for each insert.

Keyserver maintains next available id

  • Server 1 requests id block.
  • Keyserver returns (1,1000)
    Server 1 can insert a 1000 records until it needs to request a new block
  • Server 2 requests index block.
  • Keyserver returns (1001,2000)
  • etc...

You could come up with a more sophisticated version where a server could request the number of needed keys, or return unused blocks to the keyserver, which would then of course need to maintain a map of used/unused blocks.

  • Interesting suggestion in theory. This would be complex to manage in practice. A more practical solution would probably be the answer posed by schworak.
    – Simon East
    Oct 28, 2017 at 21:24

I realize this question is rather old but I did hit upon it in my research. Since than a number of things happened (SSD are ubiquitous InnoDB got updates etc).

In my research I found this rather interesting post on performance:

claiming that due to the randomness of a GUID/UUID index trees can get rather unbalanced. in the MariaDB KB I found another post suggested a solution. But since than the new UUID_TO_BIN takes care of this. This function is only available in MySQL (tested version 8.0.18) and not in MariaDB (version 10.4.10)

TL;DR: Store UUID as converted/optimized BINARY(16) values.


I would assign each server a numeric ID in a transactional manner. Then, each record inserted will just autoincrement its own counter. Combination of ServerID and RecordID will be unique. ServerID field can be indexed and future select performance based on ServerID (if needed) may be much better.


The short answer is that many databases have performance problems (in particular with high INSERT volumes) due to a conflict between their indexing method and UUIDs' deliberate entropy in the high-order bits. There are several common hacks:

  • choose a different index type (e.g. nonclustered on MSSQL) that doesn't mind it
  • munge the data to move the entropy to lower-order bits (e.g. reordering bytes of V1 UUIDs on MySQL)
  • make the UUID a secondary key with an auto-increment int primary key

... but these are all hacks--and probably fragile ones at that.

The best answer, but unfortunately the slowest one, is to demand your vendor improve their product so it can deal with UUIDs as primary keys just like any other type. They shouldn't be forcing you to roll your own half-baked hack to make up for their failure to solve what has become a common use case and will only continue to grow.


What about some hand crafted UID? Give each of the thousands of servers an ID and make primary key a combo key of autoincrement,MachineID ???

  • I've thought about that and might need to run some benchmarks. Even a temporary local sequence on each of the 1000 machines, combined with timestamp, might be a enough. Ex: machine_id + temp_seq + timestamp Mar 2, 2010 at 18:11
  • Is it possible to have a temp_sequence that resets every timestamp tick? I'm not sure. Mar 2, 2010 at 18:45

Since the primary key is generated decentralised, you don't have the option of using an auto_increment anyway.

If you don't have to hide the identity of the remote machines, use Type 1 UUIDs instead of UUIDs. They are easier to generate and can at least not hurt the performance of the database.

The same goes for varchar (char, really) vs. binary: it can only help matters. Is it really important, how much performance is improved?


The main case where UUIDs cause miserable performance is ...

When the INDEX is too big to be cached in the buffer_pool, each lookup tends to be a disk hit. For HDD, this can slow down the access by 10x or worse. (No, that is not a typo for "10%".) With SSDs, the slowdown is less, but still significant.

This applies to any "hash" (MD5, SHA256, etc), with one exception: A type-1 UUID with its bits rearranged.

Background and manual optimization: UUIDs

MySQL 8.0: see UUID_TO_BIN() and BIN_TO_UUID()

MariaDB 10.7 carries this further with its UUID datatype.

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