People often want to know how Xapian will scale. The short answer is "very well" - an early version of the software powered the (now defunct) Webtop search engine, which offered a search over around 500 million web pages (around 1.5 terabytes of database files). Searches took less than a second.

In terms of current deployments, gmane indexes and searches nearly 100 million mail messages on a single server at the time of writing (2012), and we've had user reports of systems with more than 250 million documents.


One effect to be aware of when designing benchmarks is that queries will be a lot slower when nothing is cached. So the first few queries on a database which hasn't been searched recently will be unrepresentatively slow compared to the typical case.

In real use, pretty much all the non-leaf blocks from the B-trees being used for the search will be cached pretty quickly, as well as many commonly used leaf blocks.

General Scalability Considerations

In a large search application, I/O will end up being the limiting factor. So you want a RAID setup optimised for fast reading, lots of RAM in the box so the OS can cache lots of disk blocks (the access patterns typically mean that you only need to cache a few percent of the database to eliminate most disk cache misses).

It also means that reducing the database size is usually a win. Xapian's disk-based databases compress the information in the tables in ways which work well given the nature of the data but aren't too expensive to unpack (e.g. lists of sorted docids are stored as differences with smaller values encoded in fewer bytes). There is further potential for improving the encodings used.

Another way to reduce disk I/O is to run databases through xapian-compact. The Btree manager usually leaves some spare space in each block so that updates are more efficient (though there are heuristics which will fill blocks fuller when they detect a long sequence of sequential insertions, which means adding documents to the end of an empty database will produce fairly compact tables, apart from the postlist table). Compacting makes all blocks as full as possible, and so reduces the size of the database. It also produces a database with revision 1 which is inherently faster to search. The penalty is that updates will be slow for a while, as they'll result in a lot of block splitting when all blocks are full.

Splitting the data over several databases is generally a good strategy. Once each has finished being updated, compact it to make it small and faster to search.

A multiple-database scheme works particularly well if you want a rolling web index where the contents of the oldest database can be rechecked and live links put back into a new database which, once built, replaces the oldest database. It's also good for a news-type application where older documents should expire from the index.

Size Limits in Xapian

The glass backend (which is currently the default and recommended backend) stores the indexes in several files containing Btree tables. If you're indexing with positional information (for phrase searching) the term positions table is usually the largest.

The current limits are:

If you've further questions about scalability, ask on the mailing lists - people using Xapian to search large databases may be able to make further suggestions.