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I'm wondering what's exact cause that makes insert queries on mysql/innodb to last at least 40ms on machine with fairly strong cpu. "Equivalent" query runs <10ms on same MyISAM table (tables are without any foreign keys). Timings are from MySQL console.

This is "as simple as possible" db structure for reproduction.

CREATE TABLE `test_table_innodb` (
  `int_column` int NOT NULL,
  PRIMARY KEY (`id`)

CREATE TABLE `test_table_myisam` (
  `int_column` int NOT NULL,
  PRIMARY KEY (`id`)

I'm running same query from mysql console (which auto-commits transactions in case of InnoDB). No other queries are executed on machine at the time and the results are:

 mysql> insert into test_table_myisam (int_column) values (5);
 Query OK, 1 row affected (0.00 sec)

 mysql> insert into test_table_innodb (int_column) values (5);
 Query OK, 1 row affected (0.06 sec)

Is transaction overhead making query to run that longer against InnoDB table? Or?

share|improve this question
ms = milli seconds or minutes? – Fahim Parkar Jul 16 '12 at 18:09
ms = miliseconds – Jox Jul 16 '12 at 18:23
How many rows are in the table now, and are you appending to the end of the clustered index or inserting somewhere in the middle? – Marcus Adams Jul 16 '12 at 18:31
Tables are empty prior to test. Freshly created tables and given insert queries gives these timings... – Jox Jul 16 '12 at 19:25
up vote 2 down vote accepted

There are three aspects that to be considered with each auto-committed INSERT

ASPECT #1. Overhead

InnoDB supports MVCC and Transaction Isolation as an ACID-compliant storage engine. In order to accommodate this, a copy of a row before changes are committed is written into the Undo Tablespace section of the System Tablespace file ibdata1. What would be written if you are running an INSERT? A copy of a blank row. That way, a rollback simply removes the attempt to INSERT. When an INSERT in committed, the copy of the blank in the Undo Tablespace is expunged.

ASPECT #2. Clustered Index

For every InnoDB table, there exists an internal default row index called gen_clust_index. This is created regardless of the presence or absence of a PRIMARY KEY. Since your table has a PRIMARY KEY of id, the gen_clust_index is constructed to be associated with the row containing a unique id field.

ASPECT #3. Configuration

Believe it or not, there are times when MySQL 4.1 out-of-the-box is faster than MySQL 5.5. Sounds shocking, doesn't it? Percona actually benchmarked several versions of MySQL and found this to be the case.

I wrote about this in DBA StackExchange before

share|improve this answer
ok, so 40ms is what I should expect in this case? Also, even when I have few insert/update queries within one transaction, timing stays almost the same. – Jox Jul 16 '12 at 18:32
That would depend on if MySQL is simply out-of-the-box or fully configured. With such a small table, it would be hard to tell. – RolandoMySQLDBA Jul 16 '12 at 18:35
it's fully out-of-the-box :) – Jox Jul 16 '12 at 19:02
I updated my answer with a third aspect of InnoDB – RolandoMySQLDBA Jul 16 '12 at 19:06
I saw the edit, thanks for useful info. But, I'm still under impression that maximum rate of 25 of these inserts per sec even for out-of-the-box MySQL server is ridiculously low. Even if by optimal configuration I get 50% better performance, it's still seeming low... – Jox Jul 16 '12 at 19:16

The CPU is not the factor here. The factor is the disk . In innodb the command need to be write to log , so if the log disk is the same disk or disk is not fragment or disk is slow than you will have a big difference.

share|improve this answer
Makes sense. I'll try today later same thing on SSD (this was on rather slow 5k4 hdd). – Jox Jul 17 '12 at 6:53
I've just tested with SSD and confirmed that bigger factor in query time is disk. With modest SSD, but still with much lower access latency, INSERT query time is significantly lower (~10ms). – Jox Jul 17 '12 at 11:42

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