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I have the following scenario: In a MySQL database, I have 2 MyISAM tables, one with 4.2 million rows, and another with 320 million rows. The following is the schema for the tables:

Table1 (4.2M rows)

f2 varchar(40)
f3 varchar(40)
f4 varchar(40)
f5 varchar(40)
f6 smallint(6)
f7 smallint(6)
f8 varchar(40)
f9 varchar(40)
f10 smallint(6)
f11 varchar(10)
f12 tinyint(4)
f13 smallint(6)
f14 text

Table2 (320M rows)


Table2 is in a different database but I am using a stored procedure which queries the two tables. The relation between the two tables is that for Table1.F1 there may be up to approx. 100 rows in Table2.F1 (foreign key) which match, and the value for Table2.f2 will be returned for these matched keys. I have an index IX1(f2(15),f3(10)) on Table1 and an index IX2(F1,f2) and IX3(f2) in Table 2

The queries I am running are the following:

FROM DB1.Table1 g 
INNER JOIN DB2.Table2 gp ON g.F1 = gp.F1 
WHERE (gp.f2 = 452677825) AND
(g.f2 = 'A string value') LIMIT 0,56

This query is sometimes very fast (<1s) but changing the string value that g.F2 is compared to leads to queries which take even over 11 and sometimes even 30 seconds. I cannot understand why this is so. The following is the output of the EXPLAIN on the SELECT that is executed.

1, 'SIMPLE', 'g', 'ref', 'PRIMARY,IX1', 'IX1', '17', 'const', 901, 'Using where'
1, 'SIMPLE', 'gp', 'ref', 'IX3,IX2', 'IX2', '8', 'DB1.g.F1,const', 1, 'Using index'

which seems to be quite a good execution plan. The number of rows in the top row of the explain goes to 2000 at most, but I do not see why this should take any longer than a fraction of a second to return results. I also ran profiler on the query and noticed that the queries are spending 99.9% of the time on the "Sending data" stage. Can anyone please explain why this is so, and what can be done to optimise the query?

Thanks in advance, Tim

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Do the queries that perform slower also tend to be those that return more data? –  Will A Aug 16 '10 at 22:27
Hi Will. Thanks for your comment. The queries will all return at most 56 rows as I am LIMITing the statement. However, as a general rule, the more rows that are in the top row of the EXPLAIN, the longer it takes, but this is not always the case. –  Tim Aug 16 '10 at 22:33
Does increasing the size of the number of chars included from f2 in IX1 on Table1 have any effect on the performance? Specifically, does increasing this to 40 improve things at all? –  Will A Aug 16 '10 at 22:35
I have not tried this, but is there a specific reason why this would be the case? I have other queries which use this index and I would have thought that shortening the length of the field indexed would be better. And f2 is pretty unique after 15 characters (it is a surname). –  Tim Aug 16 '10 at 22:54

3 Answers 3

The relation between the two tables is that for Table1.F1 there may be up to approx. 100 rows in Table2.F1

To clarify, is the relationship between Table1.F1 and Table2.F1 one-to-one, or one to many? To me, this statement implies one-to-many, but from the schema, each of the fields are primary (i.e. unique) keys.

At any rate, I suspect that the uniform of g.f2(15) is not uniform, and that when the statistical outliers are hit, performance degrades accordingly.

Do the results of

SELECT f2(15) AS f2_15, COUNT(*) AS cnt
FROM Table1
GROUP BY f2(15) 

show some significant outliers?

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If you are able to you may want to try tweaking your my.cnf, the property you want to play with is key_buffer_size. MyISAM indexes are stored in .MYI files if you locate these and total up the file sizes (e.g. ls -lh /var/lib/mysql/dbname/*.MYI) you can roughly estimate how big the key buffer needs to be to fit all of your indexes in. The MySQL docs does recommend not to exceed 25% of system memory though.

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I'm not an expert in this area, but here are a few thoughts:

Query speed taking longer when g.F2 changes is because of caching. MySQL will save the results for each query (until the cache is full), but new queries are run on an empty cache, so they take longer. You shouldn't optimize based on this. (See How to measure accurately)

I can't tell from your information whether the g or gp table has greater specificity (seems like gp?) in the where clause, but you may want to try a subquery instead. (See How to force the inner query to execute first)

Regarding profiling, it's possible you're hitting a physical threshold like exceeding ram allocation (using swap is disastrous for performance) that would not be obvious from explain, or whether explain is just wrong in this case.

share|improve this answer
Hi, Thanks for your comment. Right now I have changed the above query to use IN instead of a join, as you suggested. The query now looks as follows: SELECT g.F1 FROM (SELECT g.F1 FROM DB1.Table1 g WHERE (g.f2 = 'abc')) AS A WHERE A.F1 IN (SELECT gp.F1 FROM DB2.Table2 gp WHERE (gp.f2 = 452677825)) LIMIT 0,56 and the query runs a lot faster (~1s, 2s max). My mission is to try and reduce this even further if possible! –  Tim Aug 17 '10 at 19:52

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