I’m going to deliver MySQL Training next week (May 21-24) in London.
This is a rare opportunity as I do not personally deliver a lot of Training, especially outside of US. There are still some places left if you want to sign up.

You will also get a signed copy of High Performance MySQL 3rd edition as an attendee.

I have been working for a customer benchmarking insert performance on Amazon EC2, and I have some interesting results that I wanted to share. I used a nice and effective tool iiBench which has been developed by Tokutek. Though the “1 billion row insert challenge” for which this tool was originally built is long over, but still the tool serves well for benchmark purposes.

OK, let’s start off with the configuration details.

Configuration

First of all let me describe the EC2 instance type that I used.

EC2 Configuration

I chose m2.4xlarge instance as that’s the instance type with highest memory available, and memory is what really really matters.

High-Memory Quadruple Extra Large Instance
68.4 GB of memory
26 EC2 Compute Units (8 virtual cores with 3.25 EC2 Compute Units each)
1690 GB of instance storage
64-bit platform
I/O Performance: High
API name: m2.4xlarge

As for the IO configuration I chose 8 x 200G EBS volumes in software RAID 10.

Now let’s come to the MySQL configuration.

MySQL Configuration

I used Percona Server 5.5.22-55 for the tests. Following is the configuration that I used:

## InnoDB options
innodb_buffer_pool_size         = 55G
innodb_log_file_size            = 1G
innodb_log_files_in_group       = 4
innodb_buffer_pool_instances    = 4
innodb_adaptive_flushing        = 1
innodb_adaptive_flushing_method = estimate
innodb_flush_log_at_trx_commit  = 2
innodb_flush_method             = O_DIRECT
innodb_max_dirty_pages_pct      = 50
innodb_io_capacity              = 800
innodb_read_io_threads          = 8
innodb_write_io_threads         = 4
innodb_file_per_table           = 1

## Disabling query cache
query_cache_size                = 0
query_cache_type                = 0

You can see that the buffer pool is sized at 55G and I am using 4 buffer pool instances to reduce the contention caused by buffer pool mutexes. Another important configuration that I am using is that I am using “estimate” flushing method available only on Percona Server. The “estimate” method reduces the impact of traditional InnoDB log flushing, which can cause downward spikes in performance. Other then that, I have also disabled query cache to avoid contention caused by query cache on write heavy workload.

OK, so that was all about the configuration of the EC2 instance and MySQL.

Now as far as the benchmark itself is concerned, I made no code changes to iiBench, and used the version available here. But I changed the table to use range partitioning. I defined a partitioning scheme such that every partition would hold 100 million rows.

Table Structure

The table structure of the table with no secondary indexes is as follows:

CREATE TABLE `purchases_noindex` (
  `transactionid` int(11) NOT NULL AUTO_INCREMENT,
  `dateandtime` datetime DEFAULT NULL,
  `cashregisterid` int(11) NOT NULL,
  `customerid` int(11) NOT NULL,
  `productid` int(11) NOT NULL,
  `price` float NOT NULL,
  PRIMARY KEY (`transactionid`)
) ENGINE=InnoDB DEFAULT CHARSET=latin1
/*!50100 PARTITION BY RANGE (transactionid)
(PARTITION p0 VALUES LESS THAN (100000000) ENGINE = InnoDB,
 PARTITION p1 VALUES LESS THAN (200000000) ENGINE = InnoDB,
 PARTITION p2 VALUES LESS THAN (300000000) ENGINE = InnoDB,
 PARTITION p3 VALUES LESS THAN (400000000) ENGINE = InnoDB,
 PARTITION p4 VALUES LESS THAN (500000000) ENGINE = InnoDB,
 PARTITION p5 VALUES LESS THAN (600000000) ENGINE = InnoDB,
 PARTITION p6 VALUES LESS THAN (700000000) ENGINE = InnoDB,
 PARTITION p7 VALUES LESS THAN (800000000) ENGINE = InnoDB,
 PARTITION p8 VALUES LESS THAN (900000000) ENGINE = InnoDB,
 PARTITION p9 VALUES LESS THAN (1000000000) ENGINE = InnoDB,
 PARTITION p10 VALUES LESS THAN MAXVALUE ENGINE = InnoDB) */

While the structure of the table with secondary indexes is as follows:

CREATE TABLE `purchases_index` (
  `transactionid` int(11) NOT NULL AUTO_INCREMENT,
  `dateandtime` datetime DEFAULT NULL,
  `cashregisterid` int(11) NOT NULL,
  `customerid` int(11) NOT NULL,
  `productid` int(11) NOT NULL,
  `price` float NOT NULL,
  PRIMARY KEY (`transactionid`),
  KEY `marketsegment` (`price`,`customerid`),
  KEY `registersegment` (`cashregisterid`,`price`,`customerid`),
  KEY `pdc` (`price`,`dateandtime`,`customerid`)
) ENGINE=InnoDB AUTO_INCREMENT=11073789 DEFAULT CHARSET=latin1
/*!50100 PARTITION BY RANGE (transactionid)
(PARTITION p0 VALUES LESS THAN (100000000) ENGINE = InnoDB,
 PARTITION p1 VALUES LESS THAN (200000000) ENGINE = InnoDB,
 PARTITION p2 VALUES LESS THAN (300000000) ENGINE = InnoDB,
 PARTITION p3 VALUES LESS THAN (400000000) ENGINE = InnoDB,
 PARTITION p4 V

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Percona is glad to announce the release of Percona Server 5.5.23-25.3 on May 16, 2012 (Downloads are available here and from the Percona Software Repositories).

Based on MySQL 5.5.23, including all the bug fixes in it, Percona Server 5.5.23-25.3 is now the current stable release in the 5.5 series. All of Percona‘s software is open-source and free, all the details of the release can be found in the 5.5.23-25.3 milestone at Launchpad.

Bugs Fixed:

• Percona Server would crash on a DDL statement if an XtraDB internal SYS_STATS table was corrupted or overwritten. This is now fixed by detecting the corruption and creating a new SYS_STATS table. Bug fixed #978036 (Laurynas Biveinis).

Release notes for Percona Server 5.5.23-25.3 are available in our online documentation.

The explain statement can be an important tool for understanding how a query is being executed and what you can do to make it run better.  Although the output of EXPLAIN is relatively straightforward it can be confusing to inexperienced users or can be mangled by terminal wrapping.

To help with these problems as well as provide a pastebin for MariaDB developers to share explains during development we created The MariaDB/MySQL Explain Analyzer. This tool:

1. Helps unmangle explains (both vertical and tabular format)
2. Displays explains in an easy-to-read format.
3. Highlights and provides explanations for some terms.
4. Links to KB articles for different optimization techniques.
5. (Optionally) Allows you to save the explain for sharing.

This is the first release so there are still improvements to make. If you have any suggestions, feature requests or bug reports please let us know.

For more information, please see this KB article.

 

Our previous GA release of Percona XtraDB Cluster caused a lot of interest and feedback. I am happy to announce next version Percona XtraDB Cluster 5.5.23, which comes with bug fixes and improvements.

List of changes:

• Fixes merged from upstream (Codership-mysql)
• Support for MyISAM, now changes to MyISAM tables are replicated to other nodes
• Improvements to XtraBackup SST methods, better error handling
• New SST wsrep_sst_method=skip, useful when you start all nodes from the same sources (i.e. backup)
• Ability to pass list of IP addresses for a new node, it will connect to the first available

Binaries are available from downloads area or from our repositories.

For this release we will provides binaries for Ubuntu 12.04, they are coming soon.

If you want to know more how to migrate to XtraDB Cluster, we will be giving a free webinar on June 6th.

This is an General Availability release. We did our best to eliminate bugs and problems during alpha and beta testing release, but this is a software, so bugs are expected. If you encounter them, please report to our bug tracking system.

Links:

• We provide tar.gz and RPM binaries for RedHat (CentOS, Oracle Linux) 5 and 6, and Debian packages.
  Downloads: http://www.percona.com/downloads/Percona-XtraDB-Cluster/
• Documentation
  Codership Wiki
• General Discussion group
• Launchpad project
• Bug reports

In this post I describe what happens when a slave's Foreign Key setup is different from that of the master. I'm in particular interested in a setup where the slave has a subset of the master's foreign keys, or no foreign keys at all. I wish to observe whether integrity holds.

Making the changes

Which foreign keys do we have and how do we drop them? If you want to do this by hand, well, good luck! Fortunately, common_schema provides with quite a few handy views and routines to assist us. Consider viewing the existing foreign keys on sakila:

master> SELECT create_statement FROM common_schema.sql_foreign_keys WHERE TABLE_SCHEMA='sakila';
+-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
| create_statement                                                                                                                                                                                |
+-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
| ALTER TABLE `sakila`.`address` ADD CONSTRAINT `fk_address_city` FOREIGN KEY (`city_id`) REFERENCES `sakila`.`city` (`city_id`) ON DELETE RESTRICT ON UPDATE CASCADE                             |
| ALTER TABLE `sakila`.`city` ADD CONSTRAINT `fk_city_country` FOREIGN KEY (`country_id`) REFERENCES `sakila`.`country` (`country_id`) ON DELETE RESTRICT ON UPDATE CASCADE                       |
| ALTER TABLE `sakila`.`customer` ADD CONSTRAINT `fk_customer_address` FOREIGN KEY (`address_id`) REFERENCES `sakila`.`address` (`address_id`) ON DELETE RESTRICT ON UPDATE CASCADE               |
| ALTER TABLE `sakila`.`customer` ADD CONSTRAINT `fk_customer_store` FOREIGN KEY (`store_id`) REFERENCES `sakila`.`store` (`store_id`) ON DELETE RESTRICT ON UPDATE CASCADE                       |
| ALTER TABLE `sakila`.`film` ADD CONSTRAINT `fk_film_language` FOREIGN KEY (`language_id`) REFERENCES `sakila`.`language` (`language_id`) ON DELETE RESTRICT ON UPDATE CASCADE                   |
| ALTER TABLE `sakila`.`film` ADD CONSTRAINT `fk_film_language_original` FOREIGN KEY (`original_language_id`) REFERENCES `sakila`.`language` (`language_id`) ON DELETE RESTRICT ON UPDATE CASCADE |
| ALTER TABLE `sakila`.`film_actor` ADD CONSTRAINT `fk_film_actor_actor` FOREIGN KEY (`actor_id`) REFERENCES `sakila`.`actor` (`actor_id`) ON DELETE RESTRICT ON UPDATE CASCADE                   |
| ALTER TABLE `sakila`.`film_actor` ADD CONSTRAINT `fk_film_actor_film` FOREIGN KEY (`film_id`) REFERENCES `sakila`.`film` (`film_id`) ON DELETE RESTRICT ON UPDATE CASCADE                       |
| ALTER TABLE `sakila`.`film_category` ADD CONSTRAINT `fk_film_category_category` FOREIGN KEY (`category_id`) REFERENCES `sakila`.`category` (`category_id`) ON DELETE RESTRICT ON UPDATE CASCADE |
| ALTER TABLE `sakila`.`film_category` ADD CONSTRAINT `fk_film_category_film` FOREIGN KEY (`film_id`) REFERENCES `sakila`.`film` (`film_id`) ON DELETE RESTRICT ON UPDATE CASCADE                 |
| ALTER TABLE `sakila`.`inventory` ADD CONSTRAINT `fk_inventory_film` FOREIGN KEY (`film_id`) REFERENCES `sakila`.`film` (`film_id`) ON DELETE RESTRICT ON UPDATE CASCADE                         |
| ALTER TABLE `sakila`.`inventory` ADD CONSTRAINT `fk_inventory_store` FOREIGN KEY (`store_id`) REFERENCES `sakila`.`store` (`store_id`) ON DELETE RESTRICT ON UPDATE CASCADE                     |
| ALTER TABLE `sakila`.`payment` ADD CONSTRAINT `fk_payment_customer` FOREIGN KEY (`customer_id`) REFERENCES `sakila`.`customer` (`customer_id`) ON DELETE RESTRICT ON UPDATE CASCADE             |
| ALTER TABLE `sakila`.`payment` ADD CONSTRAINT `fk_payment_rental` FOREIGN KEY (`rental_id`) REFERENCES `sakila`.`rental` (`rental_id`) ON DELETE SET NULL ON UPDATE CASCADE                     |
| ALTER TABLE `sakila`.`payment` ADD CONSTRAINT `fk_payment_staff` FOREIGN KEY (`staff_id`) REFERENCES `sakila`.`staff` (`staff_id`) ON DELETE RESTRICT ON UPDATE CASCADE                         |
| ALTER TABLE `sakila`.`rental` ADD CONSTRAINT `fk_rental_customer` FOREIGN KEY (`customer_id`) REFERENCES `sakila`.`customer` (`customer_id`) ON DELETE RESTRICT ON UPDATE CASCADE               |
| ALTER TABLE `sakila`.`rental` ADD

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I was lucky enough to get my hands on new Fusion-io ioDrive2 Duo card. So I decided to run the same series of tests I did for other Flash devices. This is ioDrive2 Duo 2.4TB card and it is visible to OS as two devices (1.2TB each), which can be connected together via software RAID. So I tested in two modes: single drive, and software RAID-0 over two drives.

I should note that to run this card you need to have an external power, by the same reason I mentioned in the previous post: PCIe slot can provide only 25W power, which is not enough for ioDrive2 Duo to provide full performance. I mention this, as it may be challenge for some servers: some models may not have connector for external power, and for some you may need special “power kit”. So you need to make sure you have compatible hardware before getting Duo card. I personally ended up with setup like this: I use a separate power supply.

Fusion-io ioDrive2 Firmware v6.0.0, rev 107004 Public, Fusion-io driver version: 3.1.1.

Now to the results.
For this test I also use Cisco UCS C250 server, and on the graph I show the results for both single card and raid (Duo).

Random writes, async:

We see stable and predictable write performance, with throughput: 660 MiB/s for single, and 1300 MiB/s for Duo

Random reads:

Again both modes provides stable level of throughput. 1350 MiB/s for single and 2300 MiB/s for Duo.

Now with separation per thread for random read synchronous IO:

There is also excellent response time characteristics. 0.25ms and 0.19ms for 8 threads, single and Duo cases.

In general ioDrive2 seems to provide better and more stable performance results comparing to previous generation ioDrive.

Follow @VadimTk
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Sysbench has three distribution for random numbers: uniform, special and gaussian. I mostly use uniform and special, and I feel that both do not fully reflect my needs when I run benchmarks. Uniform is stupidly simple: for a table with 1 mln rows, each row gets equal amount of hits. This barely reflects real system, it also does not allow effectively test caching solution, each row can be equally put into cache or removed. That’s why there is special distribution, which is better, but to other extreme – it is skewed to very small percentage of rows, which makes this distribution good to test cache, but it is hard to emulate high IO load.

That’s why I was looking for alternatives, and Zipfian distribution seems decent one. This distribution has a parameter θ (theta), which defines how skewed the distribution is. A physical sense of this parameter, if to apply to database tables, is following: say row 1 accessed N, then row 2 is accessed 2^θ less times, row 3 is accessed 3^θ less, …, row X is accessed X^θ less times.
Say θ=1.1, then if row 1 accessed 1,000,000 times, then row 2 is : 1,000,000/(2^1.1)=466,516 times, row 3: 1,000,000/(2^1.1)=298,652 times, …, row id=10000 : 1,000,000/(10,000^1.1) = 39 times.

Obviously with θ=0 we are getting uniform distribution – each row is accessed equal times ( for row X: 1/(X^0) ).

There is a research that shows that user behavior can be described by this distribution: Zipf, Power-laws, and Pareto – a ranking tutorial

To see distribution on graphs, I took tables with 1mln rows and run row lookup 1 million times.

There are histograms on how many times each row selected for different θ: 0.5, 0.9, 1.1:

The curve is very skewed, so I zoomed graphs to show only 0-100k level:

I implemented Zipf for sysbench, right now it is in a separate tree https://code.launchpad.net/~vadim-tk/sysbench/zipf-distribution, you are welcome to try if it sounds interesting.

I am going to run couple incoming benchmarks with this distribution.

Follow @VadimTk
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These are things I like that I consider differences from last years conference. There are plenty of other things I like that don’t need to be listed here.

• The overall tone and feel of the conference was much less marking and much more technical
• Refreshingly honest keynotes. There was a lot of coming clean about the history of MySQL and the conference.
• Percona is very technical but it is also a business. They are very good about bringing out the technical and not being pushy about the business.
• No ice cream social. A thousand people shaking sticky hands with each other is never a good idea.
• percona.tv
• The conference was busy but never crowded

Now for the dislike:

• Only one song before every session.
• The chairs. Damn the chairs.
• Wifi failed more often than it worked. Most of the time I was tethered to my phone.
• smartcity doesn’t work with ssh port forwarded dns/socks poor man vpn.

Just some things to note and tips for next year

• Classic rock bump in music for the keynotes didn’t really fit.
• Percona folks are usually really good about having information in the slides. So if you have to choose between skipping a Percona talk for some other talk skip the Percona one because you can go back and read the slides.
• There is a secret clean bathroom that usually stays clean until the last day. I’m not saying where this is.
• Monty’s BoF always has black vodka.
• The black vodka is dangerous so be careful.

I was tempted to skip the conference this year because last year was so depressing. I decided to give Percona a chance at hosting it and I’m glad I did. I look forward to attending and maybe presenting next year.

The recording and slides for my webinar on zero-downtime schema changes with MySQL are available now. Don’t miss Vadim’s webinar tomorrow!