I would like to create a copy of a database with approximately 40 InnoDB tables and around 1.5GB of data with mysqldump and MySQL 5.1.

What are the best parameters (ie: --single-transaction) that will result in the quickest dump and load of the data?

As well, when loading the data into the second DB, is it quicker to:

1) pipe the results directly to the second MySQL server instance and use the --compress option


2) load it from a text file (ie: mysql < my_sql_dump.sql)

6 Answers 6


QUICKLY dumping a quiesced database:

Using the "-T " option with mysqldump results in lots of .sql and .txt files in the specified directory. This is ~50% faster for dumping large tables than a single .sql file with INSERT statements (takes 1/3 less wall-clock time).

Additionally, there is a huge benefit when restoring if you can load multiple tables in parallel, and saturate multiple cores. On an 8-core box, this could be as much as an 8X difference in wall-clock time to restore the dump, on top of the efficiency improvements provided by "-T". Because "-T" causes each table to be stored in a separate file, loading them in parallel is easier than splitting apart a massive .sql file.

Taking the strategies above to their logical extreme, one could create a script to dump a database widely in parallel. Well, that's exactly what the Maakit mk-parallel-dump (see http://www.maatkit.org/doc/mk-parallel-dump.html) and mk-parallel-restore tools are; perl scripts that make multiple calls to the underlying mysqldump program. However, when I tried to use these, I had trouble getting the restore to complete without duplicate key errors that didn't occur with vanilla dumps, so keep in mind that your milage may vary.

Dumping data from a LIVE database (w/o service interruption):

The --single-transaction switch is very useful for taking a dump of a live database without having to quiesce it or taking a dump of a slave database without having to stop slaving.

Sadly, -T is not compatible with --single-transaction, so you only get one.

Usually, taking the dump is much faster than restoring it. There is still room for a tool that take the incoming monolithic dump file and breaks it into multiple pieces to be loaded in parallel. To my knowledge, such a tool does not yet exist.

Transferring the dump over the Network is usually a win

To listen for an incoming dump on one host run:

nc -l 7878 > mysql-dump.sql

Then on your DB host, run

mysqldump $OPTS | nc myhost.mydomain.com 7878

This reduces contention for the disk spindles on the master from writing the dump to disk slightly speeding up your dump (assuming the network is fast enough to keep up, a fairly safe assumption for two hosts in the same datacenter). Plus, if you are building out a new slave, this saves the step of having to transfer the dump file after it is finished.

Caveats - obviously, you need to have enough network bandwidth not to slow things down unbearably, and if the TCP session breaks, you have to start all over, but for most dumps this is not a major concern.

Lastly, I want to clear up one point of common confusion.

Despite how often you see these flags in mysqldump examples and tutorials, they are superfluous because they are turned ON by default:

  • --opt
  • --add-drop-table
  • --add-locks
  • --create-options
  • --disable-keys
  • --extended-insert
  • --lock-tables
  • --quick
  • --set-charset.

From http://dev.mysql.com/doc/refman/5.1/en/mysqldump.html:

Use of --opt is the same as specifying --add-drop-table, --add-locks, --create-options, --disable-keys, --extended-insert, --lock-tables, --quick, and --set-charset. All of the options that --opt stands for also are on by default because --opt is on by default.

Of those behaviors, "--quick" is one of the most important (skips caching the entire result set in mysqld before transmitting the first row), and can be with "mysql" (which does NOT turn --quick on by default) to dramatically speed up queries that return a large result set (eg dumping all the rows of a big table).


Pipe it directly to another instance, to avoid disk overhead. Don't bother with --compress unless you're running over a slow network, since on a fast LAN or loopback the network overhead doesn't matter.


i think it will be a lot faster and save you disk space if you tried database replication as opposed to using mysqldump. personally i use sqlyog enterprise for my really heavy lifting but there also a number of other tools that can provide the same services. unless of course you would like to use only mysqldump.

  • 2
    When you set up a new slave, you typically need to start it off with a nice dumpfile ... else it has to replay every transaction from the dawn of time. Sep 2, 2012 at 20:34

For innodb, --order-by-primary --extended-insert is usually the best combo. If your after every last bit of performance and the target box has many CPU cores, you might want to split the resulting dumpfile and do parallel inserts in many threads, up to innodb_thread_concurrency/2.

Also, tweak the innodb_buffer_pool_size on the target to the max you can afford, and increase innodb_log_file_size to 128 or 256 MB (careful with this, you need to remove the old logfiles before restarting the mysql daemon otherwise it won't restart)


mydumper is a good choice, with paralel export, even paralell threads per table, and compressed files, see:


Use mk-parallel-dump tool from Maatkit.

At least that would probably be faster. I'd trust mysqldump more.

How often are you doing this? Is it really an application performance problem? Perhaps you should design a way of doing this which doesn't need to dump the whole data (replication?)

On the other hand, 1.5G is quite a small database so it probably won't be much of a problem.

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