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We have a big table about 40gb table (MYD + MYI file total), with all the indexable column indexed, including composite indexes of commonly joined columns, but the query performance is still excruciatingly slow. What else can I do to improve the query performance? Our server is hyperthreaded quad core with 8gb ram running linux. Thanks a lot in advance.

here is a simple query using the table:

select sq.sq_search_id, count(ssh.sq_search_hit_id)
from sq_search sq
inner join sq_search_hit ssh 
use index(by_sq_search_id) on sq.sq_search_id = ssh.sq_search_id
where sq.search_ts >= '2011-09-07'group by sq.sq_search_id

here is the explain result:

  1. 1, 'SIMPLE', 'ssh', 'ALL', 'by_sq_search_id', '', '', '', 149683523, 'Using temporary; Using filesort'
  2. 1, 'SIMPLE', 'sq', 'eq_ref', 'PRIMARY', 'PRIMARY', '4', 'lims.ssh.sq_search_id', 1, 'Using where'

224 rows found. Duration for 1 query: 359.754 sec


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manual sharding is always an option if the data scheme allows it.. but that means you have to refactor all your existing clients. en.wikipedia.org/wiki/Shard_(database_architecture) –  Karoly Horvath Sep 13 '11 at 18:03

2 Answers 2

With that much information we cannot really give you advices, just very basic ones:

  • More RAM
  • Use SSD
  • Shard the database if possible
  • If the DB is read heavy use Master-Slave configuration.


1, 'SIMPLE', 'ssh', 'ALL', 'by_sq_search_id'

That's a full table scan right there, I hope I don't have to explain how bad that is.

Is it faster if you remove the index hint? Is that the right index? Have you tried to qualify the table name for it?

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what information do you need? I can provide the info, thanks! –  David Zhao Sep 13 '11 at 18:32
what's the bottleneck? CPU or disk? cpustat/mpstat/iostat. do you have unused indexes? is sharding possible? –  Karoly Horvath Sep 13 '11 at 19:07
bottleneck could be disk. I do have unused indices, and sharding probably won't be an option. –  David Zhao Sep 14 '11 at 23:12
the performance overall is good, only when there is a join using that big table. Are you saying the unused indices could also be a factor here? –  David Zhao Sep 15 '11 at 15:34
not really.. check update –  Karoly Horvath Sep 15 '11 at 16:18

As said here, you should expand the size of key_buffer_size. Here you have more info:

Index blocks for MyISAM tables are buffered and are shared by all threads. key_buffer_size is the size of the buffer used for index blocks. The key buffer is also known as the key cache.

Try to make all your indexes (key_buffer_size) fit in memory.

Also, is there an index on sq.search_ts and ssh.sq_search_id?

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there isn't an index for sq.search_ts, there is one for ssh.sq_search_id. but even with this query: select sq.sq_search_id, count(ssh.sq_search_hit_id), sq.search_ts, sq.peptideid_sample_run_id from sq_search sq inner join sq_search_hit ssh on sq.sq_search_id = ssh.sq_search_id where sq.sq_search_id >= 47000 group by sq.sq_search_id the results returned in 12 seconds. currently, key_buffer size is set to 1G, with 8GB RAM installed, but the MYI file itself is about 20GB –  David Zhao Sep 15 '11 at 22:26
Wow, that's a big index file. Anyway, create an index on sq.search_ts It's on the where clause, it will be used. Check this article for table_cache, maybe you can improve something:mysqlperformanceblog.com/2006/09/29/… –  santiagobasulto Sep 16 '11 at 16:16

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