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I am wondering what is more efficient and faster in perfomance:
Having an index on one big table or multiple smaller tables without indexes?

Since this is a pretty abstract problem let me make it more practical:
I have one table with statistics about users (20,000 users and about 30 million rows overall). The table has about 10 columns including the user_id, actions, timestamps, etc.
Most common applications are: Inserting data by user_id and retrieving data by user_id (SELECT statements never include multiple user_id's).

Now so far I have an INDEX on the user_id and the query looks something like this

SELECT * FROM statistics WHERE user_id = 1

Now, with more and more rows the table gets slower and slower. INSERT statements slow down because the INDEX gets bigger and bigger; SELECT statements slow down, well, because there are more rows to search through.

Now I was wondering why not have one statistics table for each user and change the query syntax to something like this instead:

SELECT * FROM statistics_1

where 1 represents the user_id obviously.
This way, no INDEX is needed and there is far less data in each table, so INSERT and SELECT statements should be much faster.

Now my questions again:
Are there any real world disadvantages to handle so many tables (in my case 20,000) instead of using of using one table with an INDEX?
Would my approach actually speed things up or might the lookup for the table eventually slow down things more than everything?

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3  
That's a terrible idea. Are you sure your index is set up right? The primary key (i.e. clustered index) of statistics should include user_id. –  τεκ May 23 '13 at 19:06
    
Yep, the index is set up right and the queries aren't slow either. I'm just wondering if this - different - architecture would improve performance or not. –  Horen May 24 '13 at 13:13

4 Answers 4

up vote 47 down vote accepted
+100

Creating 20,000 tables is a bad idea. You'll need 40,000 tables before long, and then more.

I called this syndrome Metadata Tribbles in my book SQL Antipatterns. You see this happen every time you plan to create a "table per X" or a "column per X".

This does cause real performance problems when you have tens of thousands of tables. Each table requires MySQL to maintain internal data structures, file descriptors, a data dictionary, etc.

There are also practical operational consequences. Do you really want to create a system that requires you to create a new table every time a new user signs up?

Instead, I'd recommend you use MySQL Partitioning.

Here's an example of partitioning the table:

CREATE TABLE statistics (
  id INT AUTO_INCREMENT NOT NULL,
  user_id INT NOT NULL,
  PRIMARY KEY (id, user_id)
) PARTITION BY HASH(user_id) PARTITIONS 101;

This gives you the benefit of defining one logical table, while also dividing the table into many physical tables for faster access when you query for a specific value of the partition key.

For example, When you run a query like your example, MySQL accesses only the correct partition containing the specific user_id:

mysql> EXPLAIN PARTITIONS SELECT * FROM statistics WHERE user_id = 1\G
*************************** 1. row ***************************
           id: 1
  select_type: SIMPLE
        table: statistics
   partitions: p1    <--- this shows it touches only one partition 
         type: index
possible_keys: NULL
          key: PRIMARY
      key_len: 8
          ref: NULL
         rows: 2
        Extra: Using where; Using index

The HASH method of partitioning means that the rows are placed in a partition by a modulus of the integer partition key. This does mean that many user_id's map to the same partition, but each partition would have only 1/Nth as many rows on average (where N is the number of partitions). And you define the table with a constant number of partitions, so you don't have to expand it every time you get a new user.

You can choose any number of partitions up to 1024 (or 8192 in MySQL 5.6), but some people have reported performance problems when they go that high.

It is recommended to use a prime number of partitions. In case your user_id values follow a pattern (like using only even numbers), using a prime number of partitions helps distribute the data more evenly.


Re your questions in comment:

How could I determine a resonable number of partitions?

For HASH partitioning, if you use 101 partitions like I show in the example above, then any given partition has about 1% of your rows on average. You said your statistics table has 30 million rows, so if you use this partitioning, you would have only 300k rows per partition. That is much easier for MySQL to read through. You can (and should) use indexes as well -- each partition will have its own index, and it will be only 1% as large as the index on the whole unpartitioned table would be.

So the answer to how can you determine a reasonable number of partitions is: how big is your whole table, and how big do you want the partitions to be on average?

Shouldn't the amount of partitions grow over time? If so: How can I automate that?

The number of partitions doesn't necessarily need to grow if you use HASH partitioning. Eventually you may have 30 billion rows total, but I have found that when your data volume grows by orders of magnitude, that demands a new architecture anyway. If your data grow that large, you probably need sharding over multiple servers as well as partitioning into multiple tables.

That said, you can re-partition a table with ALTER TABLE:

ALTER TABLE statistics PARTITION BY HASH(user_id) PARTITIONS 401;

This has to restructure the table (like most ALTER TABLE changes), so expect it to take a while.

You may want to monitor the size of data and indexes in partitions:

SELECT table_schema, table_name, table_rows, data_length, index_length
FROM INFORMATION_SCHEMA.PARTITIONS
WHERE partition_method IS NOT NULL;

Like with any table, you want the total size of active indexes to fit in your buffer pool, because if MySQL has to swap parts of indexes in and out of the buffer pool during SELECT queries, performance suffers.

If you use RANGE or LIST partitioning, then adding, dropping, merging, and splitting partitions is much more common. See http://dev.mysql.com/doc/refman/5.6/en/partitioning-management-range-list.html

I encourage you to read the manual section on partitioning, and also check out this nice presentation: Boost Performance With MySQL 5.1 Partitions.

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Thanks for your useful answer. However: How could I determine a resonable number of partitions? And: Shouldn't the amount of partitions grow over time? If so: How can I automate that? –  Horen May 27 '13 at 15:35
    
+1 for the prime number of partitions trick :D BTW if you alter the table and add more partitions does mysql know to redistribute the data automatically ? –  Stephan May 28 '13 at 6:49
1  
@Stephan, yes, the ALTER TABLE rebuilds the whole table according to the new partitioning scheme. –  Bill Karwin May 28 '13 at 8:01
    
thx for clearing that up for me –  Stephan May 28 '13 at 8:07
    
@BillKarwin Great answer - thanks for answering the additional questions! –  Horen May 29 '13 at 13:02

It probably depends on the type of queries you plan on making often, and the best way to know for sure is to just implement a prototype of both and do some performance tests.

With that said, I would expect that a single (large) table with an index will do better overall because most DBMS systems are heavily optimized to deal with the exact situation of finding and inserting data into large tables. If you try to make many little tables in hopes of improving performance, you're kindof fighting the optimizer (which is usually better).

Also, keep in mind that one table is probably more practical for the future. What if you want to get some aggregate statistics over all users? Having 20 000 tables would make this very hard and inefficient to execute. It's worth considering the flexibility of these schemas as well. If you partition your tables like that, you might be designing yourself into a corner for the future.

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There is little to add to Bill Karwins answer. But one hint is: check if all the data for the user is needed in complete detail over all the time.

If you want to give usage statistics or number of visits or those things, you usually will get not a granularity of single actions and seconds for, say, the year 2009 from todays view. So you could build aggregation tables and a archive-table (not engine archive, of course) to have the recent data on action- base and an overview over the older actions.

Old actions don't change, I think.

And you still can go into detail from the aggregation with a week_id in the archive-table for example.

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Intead of going from 1 table to 1 table per user, you can use partitioning to hit a number of tables/table size ratio somewhere in the middle.

You can also keep stats on users to try to move 'active' users into 1 table to reduce the number of tables that you have to access over time.

The bottom line is that there is a lot you can do, but largely you have to build prototypes and tests and just evaluate the performance impacts of various changes you are making.

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