Small. Fast. Reliable.
Choose any three.

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SQLite is different from most other SQL database engines in that its primary design goal is to be simple:

  • Simple to administer
  • Simple to operate
  • Simple to use in a program
  • Simple to maintain and customize

Many people like SQLite because it is small and fast. But those qualities are just happy accidents. Users also find that SQLite is very reliable. Reliability is a consequence of simplicity. With less complication, there is less to go wrong. So, yes, SQLite is small, fast, and reliable, but first and foremost, SQLite strives to be simple.

Simplicity in a database engine can be either a strength or a weakness, depending on what you are trying to do. In order to achieve simplicity, SQLite has had to sacrifice other characteristics that some people find useful, such as high concurrancy, fine-grained access control, a rich set of built-in functions, stored procedures, esoteric SQL language features, XML and/or Java extensions, tera- or peta-byte scalability, and so forth. If you need these kinds of features and don't mind the added complexity that they bring, then SQLite is probably not the database for you. SQLite is not intended to be an enterprise database engine. It not designed to compete with Oracle or PostgreSQL.

The basic rule of thumb for when it is appropriate to use SQLite is this: Use SQLite in situations where simplicity of administration, implementation, and maintenance are more important than the countless complex features that enterprise database engines provide. As it turns out, situations where simplicity is the better choice are more common that many people realize.

Situations Where SQLite Works Well

  • Websites

    SQLite usually will work great as the database engine for low to medium traffic websites (which is to say, 99.9% of all websites). The amount of web traffic that SQLite can handle depends, of course, on how heavily the website uses its database. Generally speaking, any site that gets fewer than a 100000 hits/day should work fine. The 100000 hits/day figure is a conservative estimate, not a hard upper bound. SQLite has been demonstrated to work with 10 times that amount of traffic.

  • Embedded devices and applications

    Because an SQLite database requires little or no administration, SQLite is a good choice for devices or services that must work unattended and without human support. SQLite is a good fit for use in cellphones, PDAs, set-top boxes, and/or appliances. It also works well as an embedded database in downloadable consumer applications.

  • Application File Format

    SQLite has been used with great success as the on-disk file format for desktop applications such as financial analysis tools, CAD packages, record keeping programs, and so forth. The traditional File/Open operation does an sqlite_open() and executes a BEGIN TRANSACTION to get exclusive access to the content. File/Save does a COMMIT followed by another BEGIN TRANSACTION. The use of transactions guarantees that updates to the application file are atomic, durable, isolated, and consistent.

    Temporary triggers can be added to the database to record all changes into a (temporary) undo/redo log table. These changes can then be played back when the user presses the Undo and Redo buttons. Using this technique, a unlimited depth undo/redo implementation can be written in surprising little code.

  • Replacement for ad hoc disk files

    Many programs use fopen(), fread(), and fwrite() to create and manage files of data in home-grown formats. SQLite works well as a replacement for these ad hoc data files.

  • Internal or temporary databases

    For programs that have a lot of data that must be sifted and sorted in diverse ways, it is often easier and quicker to load the data into an in-memory SQLite database and use query with joins and ORDER BY clauses to extract the data in the form and order needed rather than to try to code the same operations manually. Using an SQL database internally in this way also gives the program greater flexibility since new columns and indices can be added without having to recode every query.

  • Command-line dataset analysis tool

    Experienced SQL users can employ the command-line sqlite program to analyze miscellaneous datasets. Raw data can be imported using the COPY command, then that data can be sliced and diced to generate a myriad of summary reports. Possible uses include website log analysis, sports statistics analysis, compilation of programming metrics, and analysis of experimental results.

    You can also do the same thing with a enterprise client/server database, of course. The advantages to using SQLite in this situation are that SQLite is much easier to set up and the resulting database is a single file that you can store on a floppy disk or email to a colleague.

  • Stand-in for an enterprise database during demos or testing

    If you are writting a client application for an enterprise database engine, it makes sense to use a generic database backend that allows you to connect to many different kinds of SQL database engines. It makes even better sense to go ahead and include SQLite in the mix of supported database and to statically link the SQLite engine in with the client. That way the client program can be used standalone with an SQLite data file for testing or for demonstrations.

  • Database Pedagogy

    Because it is simple to setup and use (installation is trivial: just copy the sqlite or sqlite.exe executable to the target machine and run it) SQLite makes a good database engine for use in teaching SQL. Students can easily create as many databases as they like and can email databases to the instructor for comments or grading. For more advanced students who are interested in studying how an RDBMS is implemented, the modular and well-commented and documented SQLite code can serve as a good basis. This is not to say that SQLite is an accurate model of how other database engines are implemented, but rather a student who understands how SQLite works can more quickly comprehend the operational principles of other systems.

  • Experimental SQL language extensions

    The simple, modular design of SQLite makes it a good platform for prototyping new, experimental database language features or ideas.

Situations Where Another RDBMS May Work Better

  • Client/Server Applications

    If you have many client programs access a common database over a network, you should consider using a client/server database engine instead of SQLite. SQLite will work over a network filesystem, but because of the latency associated with most network filesystems, performance will not be great. Also, the file locking logic of many network filesystems implementation contains bugs (on both Unix and windows). If file locking does not work like it should, it might be possible for two or more client programs to modify the same part of the same database at the same time, resulting in database corruption. Because this problem results from bugs in the underlying filesystem implementation, there is nothing SQLite can do to prevent it.

    A good rule of thumb is that you should avoid using SQLite in situations where the same database will be accessed simultenously from many computers over a network filesystem.

  • High-volume Websites

    SQLite will normally work fine as the database backend to a website. But if you website is so busy that your are thinking of splitted the database component off onto a separate machine, then you should definitely consider using an enterprise-class client/server database engine instead of SQLite.

  • Very large datasets

    When you start a transaction in SQLite (which happens automatically before any write operation that is not within an explicit BEGIN...COMMIT) the engine has to allocate a bitmap of dirty pages in the disk file to help it manage its rollback journal. SQLite needs 256 bytes of RAM for every 1MB of database. For smaller databases, the amount of memory required is not a problem, but when database begin to grow into the multi-gigabyte range, the size of the bitmap can get quite large. If you need to store and modify more than a few dozen GB of data, you should consider using a different database engine.

  • High Concurrency

    SQLite uses reader/writer locks on the entire database file. That means if any process is reading from any part of the database, all other processes are prevented from writing any other part of the database. Similarly, if any one process is writing to any part of the database, all other processes are prevented from reading any other part of the database. For many situations, this is not a problem. Each application does its database work quickly and moves on, and no lock lasts for more than a few dozen milliseconds. But there are some problems that require more concurrancy, and those problems will need to seek a different solution.