Appendix K. PostgreSQL Limits
Table K.1 describes various hard limits of PostgreSQL. However, practical limits, such as performance limitations or available disk space may apply before absolute hard limits are reached.
Table K.1. PostgreSQL Limitations
|number of databases||4,294,950,911|
|relations per database||1,431,650,303|
|relation size||32 TB||with the default |
|rows per table||limited by the number of tuples that can fit onto 4,294,967,295 pages|
|columns per table||1600||further limited by tuple size fitting on a single page; see note below|
|field size||1 GB|
|identifier length||63 bytes||can be increased by recompiling PostgreSQL|
|indexes per table||unlimited||constrained by maximum relations per database|
|columns per index||32||can be increased by recompiling PostgreSQL|
|partition keys||32||can be increased by recompiling PostgreSQL|
The maximum number of columns for a table is further reduced as the tuple
being stored must fit in a single 8192-byte heap page. For example,
excluding the tuple header, a tuple made up of 1600
would consume 6400 bytes and could be stored in a heap page, but a tuple of
bigint columns would consume 12800 bytes and would
therefore not fit inside a heap page.
Variable-length fields of
types such as
can have their values stored out of line in the table's TOAST table when the
values are large enough to require it. Only an 18-byte pointer must remain
inside the tuple in the table's heap. For shorter length variable-length
fields, either a 4-byte or 1-byte field header is used and the value is
stored inside the heap tuple.
Columns that have been dropped from the table also contribute to the maximum column limit. Moreover, although the dropped column values for newly created tuples are internally marked as null in the tuple's null bitmap, the null bitmap also occupies space.