Partition (database)
A partition is a division of a logical database or its constituent elements into distinct independent parts. Database partitioning is normally done for manageability, performance or availability reasons, as for load balancing.
Benefits of multiple partitions
A popular and favourable application of partitioning is in a distributed database management system. Each partition may be spread over multiple nodes, and users at the node can perform local transactions on the partition. This increases performance for sites that have regular transactions involving certain views of data, whilst maintaining availability and security.
Partitioning criteria
Current high end relational database management systems provide for different criteria to split the database. They take a partitioning key and assign a partition based on certain criteria. Common criteria are:
- Range partitioning
- Selects a partition by determining if the partitioning key is inside a certain range. An example could be a partition for all rows where the column
zipcode
has a value between70000
and79999
. It distributes tuples based on the value intervals (ranges) of some attribute. In addition to supporting exact-match queries (as in hashing), it is well-suited for range queries. For instance, a query with a predicate “A between A1 and A2” may be processed by the only node(s) containing tuples.
- List partitioning
- A partition is assigned a list of values. If the partitioning key has one of these values, the partition is chosen. For example, all rows where the column
Country
is eitherIceland
,Norway
,Sweden
,Finland
orDenmark
could build a partition for the Nordic countries.
- Composite partitioning
- Allows for certain combinations of the above partitioning schemes, by for example first applying a range partitioning and then a hash partitioning. Consistent hashing could be considered a composite of hash and list partitioning where the hash reduces the key space to a size that can be listed.
- Round-robin partitioning
- The simplest strategy, it ensures uniform data distribution. With
n
partitions, thei
th tuple in insertion order is assigned to partition(i mod n)
. This strategy enables the sequential access to a relation to be done in parallel. However, the direct access to individual tuples, based on a predicate, requires accessing the entire relation.
- Hash partitioning
- Applies a hash function to some attribute that yields the partition number. This strategy allows exact-match queries on the selection attribute to be processed by exactly one node and all other queries to be processed by all the nodes in parallel.
Partitioning methods
The partitioning can be done by either building separate smaller databases (each with its own tables, indices, and transaction logs), or by splitting selected elements, for example just one table.
Horizontal partitioning (also see shard) involves putting different rows into different tables. For example, customers with ZIP codes less than 50000 are stored in CustomersEast, while customers with ZIP codes greater than or equal to 50000 are stored in CustomersWest. The two partition tables are then CustomersEast and CustomersWest, while a view with a union might be created over both of them to provide a complete view of all customers.
Vertical partitioning involves creating tables with fewer columns and using additional tables to store the remaining columns.[1] Normalization also involves this splitting of columns across tables, but vertical partitioning goes beyond that and partitions columns even when already normalized. Different physical storage might be used to realize vertical partitioning as well; storing infrequently used or very wide columns on a different device, for example, is a method of vertical partitioning. Done explicitly or implicitly, this type of partitioning is called "row splitting" (the row is split by its columns). A common form of vertical partitioning is to split dynamic data (slow to find) from static data (fast to find) in a table where the dynamic data is not used as often as the static. Creating a view across the two newly created tables restores the original table with a performance penalty, however performance will increase when accessing the static data e.g. for statistical analysis.
See also
References
- ↑ Vertical Partitioning Algorithms for Database Design, by Shamkant Navathe, Stefano Ceri, Gio Wiederhold, and Jinglie Dou, Stanford University 1984
External links
- IBM DB2 partitioning
- MySQL partitioning
- Oracle partitioning
- SQL Server partitions
- PostgreSQL partitioning
- Sybase ASE 15.0 partitioning
- MongoDB partitioning
- ScimoreDB partitioning
- VoltDB partitioning