Manual:Performance tuning

This page provides a quick overview of ways to improve the performance of MediaWiki. See also.

For the impatient
Most of the tweaks have been collected in the and  files; if you install puppet, you can make them all at once with a single command.

Opcode caching

 * See Manual:Cache and PHP configuration

Opcode caches store the compiled output of PHP scripts, greatly reducing the amount of time needed to run a script multiple times. Supported opcode caches are APC, mmTurck, WinCache and XCache; see.

memcached

 * See

The user interface text and other expensive objects can be cached by the opcode user cache or memcached, as will logins and partially completed pages.

If you have enough available RAM, you should use memcached, which will require at least 80MB or more of RAM, about 60MB for code plus whatever you need for cache. If you balance your load across multiple webservers, you should use a dedicated memcached (cluster).

Output caching

 * See for instructions on enabling and configuring rendered page caching

MediaWiki pages can be computationally expensive to render. MediaWiki has an optional file caching system that stores the output of rendered pages. For larger sites, using an external cache like Squid or Varnish is preferable to using the file cache.

HTTP caching proxies and HTTP acceleration

 * See and

Simply put, HTTP accelerators/caching proxies (such as Squid and Varnish) store copies of pages sent out by the web server. When a cached page is requested, the accelerator serves up the copy instead of passing the response on to the web server. This can tremendously reduce the load on the web server. When a page is updated, the copy is removed from the accelerator's cache.

See also this article for instructions on using Apache's mod_cache_disk with MediaWiki.

Other web server tuning

 * SPDY protocol can help, even with ResourceLoader.
 * HTTP/2 will replace SPDY.

Configuration settings
Large sites running MediaWiki 1.6 or later should set to a low number, say 0.01. See for more information.

Composer
MediaWiki uses composer for solving dependensies. By default it search all packages in /vendor folder for classes need autoload. It`s a realtime operation and it supports caching only at bytecode level. But you can set composer for using static list of autoload classes, which will make your wiki faster.

Open console in /vendor dir and simply enter: composer update

But you should repeat that procedure on every vendor library update.

mbstring
Although MediaWiki can work without the mbstring PHP library, it is highly recommended for performance reasons (note: mbstring.func-overload configuration option must be off).

Can have great impact in some cases, probably never harms.

HHVM
HipHop Virtual Machine is a JIT for PHP developed by and used in production at Facebook. HHVM is not a magic bullet, but has favorable performance characteristics compared to Zend. HHVM support isn't complete in MediaWiki, and should not be attempted by the faint hearted (some brave attempts can be found at ).

MySQL
For a heavy concurrent write load, InnoDB is essential. In MediaWiki 1.24 and earlier, set  to reduce lock contention, at the expense of introducing occasional inconsistencies. Use memcached, not the default MySQL-based object cache.

See below for some DB configuration tricks. You can also try and run the mysql-tuning-primer script to get some quick statistics and suggestions.

Multiple servers
The database software and web server software will start to fight over RAM on busy MediaWiki installations that are hosted on a single server. If your wiki has a consistent traffic, a logical step, once other performance optimizations have been made (and cache serves most of the content), is to put the database and web server on separate servers (or, in some cases, multiple separate servers, starting with a slave.) Also:


 * check that MySQL has query cache enabled and enough memory;
 * give most memory to innodb_buffer_pool;
 * add cores for MySQL if maxed out at peak times;
 * give memcached even more RAM for in-memory cache.

Benchmarking
Some tools can help quickly evaluate the effects of performance tuning.


 * http://webpagetest.org is "real life" testing, commanded in your browser.
 * http://fannon.de/p/mediawiki-benchmark is a web based benchmarker, that uses the API but real browser requests
 * ab is a command line tool which quickly produces some nice stats.
 * PageSpeed