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I'm working on a projects which involves a lot of database writes, I'd say (70% inserts and 30% reads). This ratio would also include updates which I consider to be one read and one write. The reads can be dirty (e.g. I don't need 100% accurate information at the time of read).
The task in question will be doing over 1 million database transactions an hour.

I've read a bunch of stuff on the web about the differences between MyISAM and InnoDB, and MyISAM seems like the obvious choice to me for the particular database/tables that I'll be using for this task. From what I seem to be reading, InnoDB is good if transactions are needed since row level locking is supported.

Does anybody have any experience with this type of load (or higher)? Is MyISAM the way to go?

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The MySQL Performance Blog is a great resource for this type of thing. –  ceejayoz Aug 21 '08 at 14:56
This would depend a bit on whether you're system is OLTP or more datawarehouse oriented(where most of the writes are bulk loading). –  nos Aug 20 '10 at 22:18
MyISAM doesn't support row-locking, transactions, it doesn't even support foreign keys... hell, since it can't provide ACID, it can hardly even be considered a proper database! This is why InnoDB has been the default engine since MySQL 5.5... but, for whatever reason, MyISAM continues to be the default engine for tables created within PhpMyAdmin, so a lot of amateur databases since run on MyISAM. –  BlueRaja - Danny Pflughoeft Jan 15 '13 at 22:43
see this rackspace.com/knowledge_center/article/… –  krishna Sep 4 '13 at 11:14
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22 Answers

I have briefly discuss this matter by table so you can conclude which has to be chosen either innodb or MyISAM. http://developer99.blogspot.com/2011/07/mysql-innodb-vs-myisam.html

Here is a small overview of which type you should use in which situation:

                                             My ISAM    InnoDB
Required full text Search                      Yes       5.6+
Require Transactions                                     Yes
frequent select queries                        Yes      
frequent insert,update,delete                            Yes
Row Locking (multi processing on single table)           Yes
Relational base design                                   Yes

To summarize:

Frequent reading, almost no writing   => MyISAM
Full text search in MySQL <= 5.5      => MyISAM

In all other circumstances, InnoDB is usually the best way to go.

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InnoDB has full text indexes in MySQL 5.6, but so far, they aren't really ready for production use. –  Bill Karwin Jul 17 '13 at 17:39
Accord to 12.9. Full-Text Search Functions, “Full-text indexes can be used only with InnoDB or MyISAM tables”. Seems OK for MySQL >= 5.6, however the same page for MySQL 5.5, still says “Full-text indexes can be used only with MyISAM tables”. The table above could be updated to says how it differs with MySQL versions. Unfortunately, so far, MySQL 5.5 seems to be the standard. –  Hibou57 Aug 18 '13 at 15:50
MySQL 5.6.10 was released GA in 2013-02-05. Yes, it's pretty ordinary for the market to migrate slowly to a new database (or other component of their stack). Usually people need an incentive to upgrade, for example to take advantage of a specific new feature they need, like InnoDB FT indexes. –  Bill Karwin Nov 19 '13 at 16:50
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I'm not a database expert, and I do not speak from experience. However:

MyISAM tables use table-level locking. Based on your traffic estimates, you have close to 200 writes per second. With MyISAM, only one of these could be in progress at any time. You have to make sure that your hardware can keep up with these transaction to avoid being overrun, i.e., a single query can take no more than 5ms.

That suggests to me you would need a storage engine which supports row-level locking, i.e., InnoDB.

On the other hand, it should be fairly trivial to write a few simple scripts to simulate the load with each storage engine, then compare the results.

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Close to 200? If his average transaction makes 2.5 queries, that's [(2.5*1M)/3600s =] closer to 700. –  Ozzy Apr 17 '12 at 13:40
I also disagree with a single query can take no more than 5ms because you made 2 unlikely assumptions; A: all queries needed the same table & B: there was only 1 connection available! I should inform you that a Linux & MySQL 5.5 set-up with high RAM can support as many as 10,000 simultaneous connections (See: dev.mysql.com/doc/refman//5.5/en/too-many-connections.html) –  Ozzy Apr 17 '12 at 13:53
When a table is table locked, only one query can run against it at one time. It doesn't matter if the server supports 10000 simultaneous connections, each will back up while the table is locked. –  Ryaner Sep 5 '12 at 10:15
Also it might be helpful to know that MyISAM supports spatial index while InnoDB does not. And MyISAM do not seem to use foreign keys even though it doesn't prevent creating one. –  kriver Sep 12 '12 at 14:59
@kriver: You can't have foreign keys in MyISAM tables. You can include FK definitions in the CREATE TABLE statements but they (the definitions) are simply ignored. –  ypercube Sep 18 '12 at 18:31
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I've worked on a high-volume system using MySQL and I've tried both MyISAM and InnoDB.

I found that the table-level locking in MyISAM caused serious performance problems for our workload which sounds similar to yours. Unfortunately I also found that performance under InnoDB was also worse than I'd hoped.

In the end I resolved the contention issue by fragmenting the data such that inserts went into a "hot" table and selects never queried the hot table.

This also allowed deletes (the data was time-sensitive and we only retained X days worth) to occur on "stale" tables that again weren't touched by select queries. InnoDB seems to have poor performance on bulk deletes so if you're planning on purging data you might want to structure it in such a way that the old data is in a stale table which can simply be dropped instead of running deletes on it.

Of course I have no idea what your application is but hopefully this gives you some insight into some of the issues with MyISAM and InnoDB.

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'In the end I resolved the contention issue by fragmenting the data such that inserts went into a "hot" table and selects never queried the hot table." - isn't that essentially what a buffer pool is for? –  BlueRaja - Danny Pflughoeft Jan 15 '13 at 22:36
Danny - No, not really. Tuning server settings is important, but in no way a substitute for thoughtful structuring of your schema. If you have a DB much, much larger than available RAM and access patterns that touch data randomly all throughout the DB then all the buffer pool tuning in the world won't help you. If you understand the data and the access patterns then you can mitigate much of the pain through careful design. –  idontwanttortfm Jan 24 '13 at 5:26
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For a load with more writes and reads, you will benefit from InnoDB. Because InnoDB provides row-locking rather than table-locking, your SELECTs can be concurrent, not just with each other but also with many INSERTs. However, unless you are intending to use SQL transactions, set the InnoDB commit flush to 2 (innodb_flush_log_at_trx_commit). This gives you back a lot of raw performance that you would otherwise lose when moving tables from MyISAM to InnoDB.

Also, consider adding replication. This gives you some read scaling and since you stated your reads don't have to be up-to-date, you can let the replication fall behind a little. Just be sure that it can catch up under anything but the heaviest traffic or it will always be behind and will never catch up. If you go this way, however, I strongly recommend you isolate reading from the slaves and replication lag management to your database handler. It is so much simpler if the application code does not know about this.

Finally, be aware of different table loads. You will not have the same read/write ratio on all tables. Some smaller tables with near 100% reads could afford to stay MyISAM. Likewise, if you have some tables that are near 100% write, you may benefit from INSERT DELAYED, but that is only supported in MyISAM (the DELAYED clause is ignored for an InnoDB table).

But benchmark to be sure.

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Is the "InnoDB commit flush" you refer to innodb_flush_log_at_trx_commit? –  ceejayoz Jul 5 '10 at 15:55
I found your post very useful - thanks. Currently evaluating when to use MyISAM/InnoDB for my tables and your post was helpful. Cheers. –  starmonkey Nov 25 '10 at 23:23
dev.mysql.com/doc/refman/5.5/en/insert-delayed.html states: For MyISAM tables, if there are no free blocks in the middle of the data file, concurrent SELECT and INSERT statements are supported. Under these circumstances, you very seldom need to use INSERT DELAYED with MyISAM. –  Tymek Sep 16 '11 at 6:20
Very informative post. I had the same question as the op's and I have to say that your post has put me at ease about my database engine decision. Thanks! ++ –  Joe Majewski Sep 9 '12 at 6:06
Quick note: delayed is no longer supported in 5.7. You may want to test with LOW_PRIORITY instead. –  webmat Feb 5 at 4:28
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People often talk about performance, reads vs. writes, foreign keys, etc. but there's one other must-have feature for a storage engine in my opinion: atomic updates.

Try this:

  1. Issue an UPDATE against your MyISAM table that takes 5 seconds.
  2. While the UPDATE is in progress, say 2.5 seconds in, hit Ctrl-C to interrupt it.
  3. Observe the effects on the table. How many rows were updated? How many were not updated? Is the table even readable, or was it corrupted when you hit Ctrl-C?
  4. Try the same experiment with UPDATE against an InnoDB table, interrupting the query in progress.
  5. Observe the InnoDB table. Zero rows were updated. InnoDB has assured you have atomic updates, and if the full update could not be committed, it rolls back the whole change. Also, the table is not corrupt. This works even if you use killall -9 mysqld to simulate a crash.

Performance is desirable of course, but not losing data should trump that.

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It is really nice.. helped me to understand the real difference.. thanks.. –  Dilip Rajkumar Aug 16 '13 at 7:00
To the point. All people needed to say in their rambling above is one word - Atomic. –  wired00 Dec 21 '13 at 11:32
For the record, the other characteristics of an ACID database - Consistency, Isolation, and Durability - are not supported by MyISAM either. –  Bill Karwin Mar 6 at 16:12
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Slightly off-topic, but for documentation purposes and completeness, I would like to add the following.

In general using InnoDB will result in a much LESS complex application, probably also more bug-free. Because you can put all referential integrity (Foreign Key-constraints) into the datamodel, you don't need anywhere near as much application code as you will need with MyISAM.

Every time you insert, delete or replace a record, you will HAVE to check and maintain the relationships. E.g. if you delete a parent, all children should be deleted too. For instance, even in a simple blogging system, if you delete a blogposting record, you will have to delete the comment records, the likes, etc. In InnoDB this is done automatically by the database engine (if you specified the contraints in the model) and requires no application code. In MyISAM this will have to be coded into the application, which is very difficult in web-servers. Web-servers are by nature very concurrent / parallel and because these actions should be atomical and MyISAM supports no real transactions, using MyISAM for web-servers is risky / error-prone.

Also in most general cases, InnoDB will perform much better, for a multiple of reasons, one them being able to use record level locking as opposed to table-level locking. Not only in a situation where writes are more frequent than reads, also in situations with complex joins on large datasets. We noticed a 3 fold performance increase just by using InnoDB tables over MyISAM tables for very large joins (taking several minutes).

I would say that in general InnoDB (using a 3NF datamodel complete with referential integrity) should be the default choice when using MySQL. MyISAM should only be used in very specific cases. It will most likely perform less, result in a bigger and more buggy application.

Having said this. Datamodelling is an art seldom found among webdesigners / -programmers. No offence, but it does explain MyISAM being used so much.

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InnoDB offers:

ACID transactions
row-level locking
foreign key constraints
automatic crash recovery
table compression (read/write)
spatial data types (no spatial indexes)

In InnoDB all data in a row except for TEXT and BLOB can occupy 8,000 bytes at most. No full text indexing is available for InnoDB. In InnoDB the COUNT(*)s (when WHERE, GROUP BY, or JOIN is not used) execute slower than in MyISAM because the row count is not stored internally. InnoDB stores both data and indexes in one file. InnoDB uses a buffer pool to cache both data and indexes.

MyISAM offers:

fast COUNT(*)s (when WHERE, GROUP BY, or JOIN is not used)
full text indexing
smaller disk footprint
very high table compression (read only)
spatial data types and indexes (R-tree)

MyISAM has table-level locking, but no row-level locking. No transactions. No automatic crash recovery, but it does offer repair table functionality. No foreign key constraints. MyISAM tables are generally more compact in size on disk when compared to InnoDB tables. MyISAM tables could be further highly reduced in size by compressing with myisampack if needed, but become read-only. MyISAM stores indexes in one file and data in another. MyISAM uses key buffers for caching indexes and leaves the data caching management to the operating system.

Overall I would recommend InnoDB for most purposes and MyISAM for specialized uses only. InnoDB is now the default engine in new MySQL versions.

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fwiw, VARCHAR in InnoDB can also go to overflow pages, like BLOB and TEXT do. All these data types are stored similarly internally. –  Bill Karwin Jul 17 '13 at 17:41
Good to know, @BillKarwin! We make heavy use of VARCHAR in our app and having VARCHAR contribute to this ~8kB limit was a bit concerning. –  rinogo Nov 4 '13 at 16:54
See mysqlperformanceblog.com/2010/02/09/blob-storage-in-innodb for more details. –  Bill Karwin Nov 4 '13 at 16:59
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If you use MyISAM, you won't be doing any transactions per hour, unless you consider each DML statement to be a transaction (which in any case, won't be durable or atomic in the event of a crash).

Therefore I think you have to use InnoDB.

300 transactions per second sounds like quite a lot. If you absolutely need these transactions to be durable across power failure make sure your I/O subsystem can handle this many writes per second easily. You will need at least a RAID controller with battery backed cache.

If you can take a small durability hit, you could use InnoDB with innodb_flush_log_at_trx_commit set to 0 or 2 (see docs for details), you can improve performance.

There are a number of patches which can increase concurrency from Google and others - these may be of interest if you still can't get enough performance without them.

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I think this is an excellent article on explaining the differences and when you should use one over the other: http://tag1consulting.com/MySQL_Engines_MyISAM_vs_InnoDB

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Also check out some drop-in replacements for MySQL itself:



MariaDB is a database server that offers drop-in replacement functionality for MySQL. MariaDB is built by some of the original authors of MySQL, with assistance from the broader community of Free and open source software developers. In addition to the core functionality of MySQL, MariaDB offers a rich set of feature enhancements including alternate storage engines, server optimizations, and patches.

Percona Server


An enhanced drop-in replacement for MySQL, with better performance, improved diagnostics, and added features.

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I am using both of them (Percona in production, Maria on windows-development). they ar faster and works perefectly. –  Moshe L May 4 '12 at 9:30
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Please note that my formal education and experience is with Oracle, while my work with MySQL has been entirely personal and on my own time, so if I say things that are true for Oracle but are not true for MySQL, I apologize. While the two systems share a lot, the relational theory/algebra is the same, and relational databases are still relational databases, there are still plenty of differences!!

I particularly like (as well as row-level locking) that InnoDB is transaction-based, meaning that you may be updating/inserting/creating/altering/dropping/etc several times for one "operation" of your web application. The problem that arises is that if only some of those changes/operations end up being committed, but others do not, you will most times (depending on the specific design of the database) end up with a database with conflicting data/structure.

Note: With Oracle, create/alter/drop statements are called "DDL" (Data Definition) statements, and implicitly trigger a commit. Insert/update/delete statements, called "DML" (Data Manipulation), are not committed automatically, but only when a DDL, commit, or exit/quit is performed (or if you set your session to "auto-commit", or if your client auto-commits). It's imperative to be aware of that when working with Oracle, but I am not sure how MySQL handles the two types of statements. Because of this, I want to make it clear that I'm not sure of this when it comes to MySQL; only with Oracle.

An example of when transaction-based engines excel:

Let's say that I or you are on a web-page to sign up to attend a free event, and one of the main purposes of the system is to only allow up to 100 people to sign up, since that is the limit of the seating for the event. Once 100 sign-ups are reached, the system would disable further signups, at least until others cancel.

In this case, there may be a table for guests (name, phone, email, etc.), and a second table which tracks the number of guests that have signed up. We thus have two operations for one "transaction". Now suppose that after the guest info is added to the GUESTS table, there is a connection loss, or an error with the same impact. The GUESTS table was updated (inserted into), but the connection was lost before the "available seats" could be updated.

Now we have a guest added to the guest table, but the number of available seats is now incorrect (for example, value is 85 when it's actually 84).

Of course there are many ways to handle this, such as tracking available seats with "100 minus number of rows in guests table," or some code that checks that the info is consistent, etc.... But with a transaction-based database engine such as InnoDB, either ALL of the operations are committed, or NONE of them are. This can be helpful in many cases, but like I said, it's not the ONLY way to be safe, no (a nice way, however, handled by the database, not the programmer/script-writer).

That's all "transaction-based" essentially means in this context, unless I'm missing something -- that either the whole transaction succeeds as it should, or nothing is changed, since making only partial changes could make a minor to SEVERE mess of the database, perhaps even corrupting it...

But I'll say it one more time, it's not the only way to avoid making a mess. But it is one of the methods that the engine itself handles, leaving you to code/script with only needing to worry about "was the transaction successful or not, and what do I do if not (such as retry)," instead of manually writing code to check it "manually" from outside of the database, and doing a lot more work for such events.

Lastly, a note about table-locking vs row-locking:

DISCLAIMER: I may be wrong in all that follows in regard to MySQL, and the hypothetical/example situations are things to look into, but I may be wrong in what exactly is possible to cause corruption with MySQL. The examples are however very real in general programming, even if MySQL has more mechanisms to avoid such things...

Anyway, I am fairly confident in agreeing with those who have argued that how many connections are allowed at a time does not work around a locked table. In fact, multiple connections are the entire point of locking a table!! So that other processes/users/apps are not able to corrupt the database by making changes at the same time.

How would two or more connections working on the same row make a REALLY BAD DAY for you?? Suppose there are two processes both want/need to update the same value in the same row, let's say because the row is a record of a bus tour, and each of the two processes simultaneously want to update the "riders" or "available_seats" field as "the current value plus 1."

Let's do this hypothetically, step by step:

  1. Process one reads the current value, let's say it's empty, thus '0' so far.
  2. Process two reads the current value as well, which is still 0.
  3. Process one writes (current + 1) which is 1.
  4. Process two should be writing 2, but since it read the current value before process one write the new value, it too writes 1 to the table.

I'm not certain that two connections could intermingle like that, both reading before the first one writes... But if not, then I would still see a problem with:

  1. Process one reads the current value, which is 0.
  2. Process one writes (current + 1), which is 1.
  3. Process two reads the current value now. But while process one DID write (update), it has not committed the data, thus only that same process can read the new value that it updated, while all others see the older value, until there is a commit.

Also, at least with Oracle databases, there are isolation levels, which I will not waste our time trying to paraphrase. Here is a good article on that subject, and each isolation level having it's pros and cons, which would go along with how important transaction-based engines may be in a database...

Lastly, there may likely be different safeguards in place within MyISAM, instead of foreign-keys and transaction-based interaction. Well, for one, there is the fact that an entire table is locked, which makes it less likely that transactions/FKs are needed.

And alas, if you are aware of these concurrency issues, yes you can play it less safe and just write your applications, set up your systems so that such errors are not possible (your code is then responsible, rather than the database itself). However, in my opinion, I would say that it is always best to use as many safeguards as possible, programming defensively, and always being aware that human error is impossible to completely avoid. It happens to everyone, and anyone who says they are immune to it must be lying, or hasn't done more than write a "Hello World" application/script. ;-)

I hope that SOME of that is helpful to some one, and even more-so, I hope that I have not just now been a culprit of assumptions and being a human in error!! My apologies if so, but the examples are good to think about, research the risk of, and so on, even if they are not potential in this specific context.

Feel free to correct me, edit this "answer," even vote it down. Just please try to improve, rather than correcting a bad assumption of mine with another. ;-)

This is my first response, so please forgive the length due to all the disclaimers, etc... I just don't want to sound arrogant when I am not absolutely certain!

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I tried to run insertion of random data into MyISAM and InnoDB tables. The result was quite shocking. MyISAM needed a few seconds less for inserting 1 million rows than InnoDB for just 10 thousand!

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You will get the same performance, if you use transaction and turn off autocommit for InnoDB engine. –  stanleyxu2005 Sep 26 '12 at 4:19
IDK if the same performance, but that's what I do in more complex applicatinos and it does speed it up. –  user965748 Sep 27 '12 at 7:19
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In my experience, MyISAM was a better choice as long as you don't do DELETEs, UPDATEs, a whole lot of single INSERT, transactions, and full-text indexing. BTW, CHECK TABLE is horrible. As the table gets older in terms of the number of rows, you don't know when it will end.

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Full-text indexing is only possible with MyISAM, not with InnoDB. –  Pixel Elephant Nov 19 '12 at 15:10
@PixelElephant, that's starting to change in MySQL 5.6. InnoDB has a fulltext index type, but so far it's kind of not ready for production use IMHO. –  Bill Karwin Jul 17 '13 at 17:42
“Full-text indexing is only possible with MyISAM, not with InnoDB”: no more true since MySQL >= 5.6. See dev.mysql.com/doc/refman/5.6/en/fulltext-search.html . –  Hibou57 Aug 18 '13 at 15:57
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I've figure out that even though Myisam has locking contention, it's still faster than InnoDb in most scenarios because of the rapid lock acquisition scheme it uses. I've tried several times Innodb and always fall back to MyIsam for one reason or the other. Also InnoDB can be very CPU intensive in huge write loads.

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Every application has it's own performance profile for using a database, and chances are it will change over time.

The best thing you can do is to test your options. Switching between MyISAM and InnoDB is trivial, so load some test data and fire jmeter against your site and see what happens.

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The MyISAM engine is the default engine in most MySQL installations and is a derivative of the original ISAM engine type supported in the early versions of the MySQL system. The engine provides the best combination of performance and functionality, although it lacks transaction capabilities (use the InnoDB or BDB engines) and uses table-level locking.

FlashMAX and FlashMAX Connect: Leading the Flash Platform Transformation Download Now Unless you need transactions, there are few databases and applications that cannot effectively be stored using the MyISAM engine. However, very high-performance applications where there are large numbers of data inserts/updates compared to the number of reads can cause performance proboelsm for the MyISAM engine. It was originally designed with the idea that more than 90% of the database access to a MyISAM table would be reads, rather than writes.

With table-level locking, a database with a high number of row inserts or updates becomes a performance bottleneck as the table is locked while data is added. Luckily this limitation also works well within the restrictions of a non-transaction database.

MyISAM Summary

Name -MyISAM

Introduced -v3.23

Default install -Yes

Data limitations -None

Index limitations -64 indexes per table (32 pre 4.1.2); Max 16 columns per index

Transaction support -No

Locking level -Table


The InnoDB Engine is provided by Innobase Oy and supports all of the database functionality (and more) of MyISAM engine and also adds full transaction capabilities (with full ACID (Atomicity, Consistency, Isolation, and Durability) compliance) and row level locking of data.

The key to the InnoDB system is a database, caching and indexing structure where both indexes and data are cached in memory as well as being stored on disk. This enables very fast recovery, and works even on very large data sets. By supporting row level locking, you can add data to an InnoDB table without the engine locking the table with each insert and this speeds up both the recovery and storage of information in the database.

As with MyISAM, there are few data types that cannot effectively be stored in an InnoDB database. In fact, there are no significant reasons why you shouldn't always use an InnoDB database. The management overhead for InnoDB is slightly more onerous, and getting the optimization right for the sizes of in-memory and on disk caches and database files can be complex at first. However, it also means that you get more flexibility over these values and once set, the performance benefits can easily outweigh the initial time spent. Alternatively, you can let MySQL manage this automatically for you.

If you are willing (and able) to configure the InnoDB settings for your server, then I would recommend that you spend the time to optimize your server configuration and then use the InnoDB engine as the default.

InnoDB Summary

Name -InnoDB

Introduced -v3.23 (source only), v4.0 (source and binary)

Default install -No

Data limitations -None

Index limitations -None

Transaction support -Yes (ACID compliant)

Locking level -Row

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myisam is a NOGO for that type of workload (high concurrency writes), i dont have that much experience with innodb (tested it 3 times and found in each case that the performance sucked, but it's been a while since the last test) if you're not forced to run mysql, consider giving postgres a try as it handles concurrent writes MUCH better

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For that ratio of read/writes I would guess InnoDB will perform better. Since you are fine with dirty reads, you might (if you afford) replicate to a slave and let all your reads go to the slave. Also, consider inserting in bulk, rather than one record at a time.

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If it is 70% inserts and 30% reads then it is more like on the InnoDB side.

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bottomline: if you are working offline with selects on large chunks of data, MyISAM will probably give you better (much better) speeds.

there are some situations when MyISAM is infinitely more efficient than InnoDB: when manipulating large data dumps offline (because of table lock).

example: I was converting a csv file (15M records) from NOAA which uses VARCHAR fields as keys. InnoDB was taking forever, even with large chunks of memory available.

this an example of the csv (first and third fields are keys).


since what i need to do is run a batch offline update of observed weather phenomena, i use MyISAM table for receiving data and run JOINS on the keys so that i can clean the incoming file and replace VARCHAR fields with INT keys (which are related to external tables where the original VARCHAR values are stored).

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Almost every time I start a new project I Google this same question to see if I come up with any new answers.

It eventually boils down to - I take the latest version of MySQL and run tests.

I have tables where I want to do key/value lookups... and that's all. I need to get the value (0-512 bytes) for a hash key. There is not a lot of transactions on this DB. The table gets updates occasionally (in it's entirety), but 0 transactions.

So we're not talking about a complex system here, we are talking about a simple lookup,.. and how (other than making the table RAM resident) we can optimize performance.

I also do tests on other databases (ie NoSQL) to see if there is anywhere I can get an advantage. The biggest advantage I have found is in key mapping but as far as the lookup goes, MyISAM is currently topping them all.

Albeit, I wouldn't perform financial transactions with MyISAM tables but for simple lookups, you should test it out.. typically 2x to 5x the queries/sec.

Test it, I welcome debate.

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