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Line 5: The [[relational model\|relational]] data model became popular after its publication by [[Edgar F. Codd]] in 1970. Due to increasing requirements for [[Scalability#Horizontal and vertical scaling\|horizontal scalability]] and [[fault tolerance]], [[NoSQL]] databases became prominent after 2009. NoSQL databases use a variety of data models, with [[Document-oriented database\|document]], [[Graph database\|graph]], and key–value models being popular.<ref name="rise">[http://www.infoworld.com/article/2861579/database/the-rise-of-the-multimodel-database.html Infoworld, "The Rise of the Multi-Model Database"]</ref> A ~~Multi~~multi-model database is a database that can store, index and query data in more than one model. For some time, databases have primarily supported only one model, such as: [[relational database]], [[document-oriented database]], [[graph database]] or [[triplestore]]. A database that combines many of these is multi-model. For some time, it was all but forgotten (or considered irrelevant) that there were any other database models besides ~~Relational~~relational. The ~~Relational~~relational model and notion of [[third normal form]] were the default standard for all data storage. However, prior to the dominance of ~~Relational~~relational data modeling, from about 1980 to 2005, the [[hierarchical database model]] was commonly used. Since 2000 or 2010, many [[NoSQL]] models that are non-relational, including documents, triples, key–value stores and graphs are popular. Arguably, geospatial data, temporal data, and text data are also separate models, though indexed, queryable text data is generally termed a "[[search engine]]" rather than a database.{{Citation needed\|date=March 2021}} The first time the word "multi-model" has been associated to the databases was on May 30, 2012 in Cologne, Germany, during the [[Luca Garulli]]'s key note "''NoSQL Adoption – What’s the Next Step?''".<ref>{{Cite web\|date=2012-06-01\|title=Multi-Model storage 1/2 one product\|url=http://www.slideshare.net/lvca/no-sql-matters2012keynote/47-MultiModel_storage_12_one_product}}</ref><ref>{{Cite web\|url=https://2012.nosql-matters.org/cgn/wp-content/uploads/2012/06/KeyNote-Luca-Garulli.pdf\|title=Nosql Matters Conference 2012 {{!}} NoSQL Matters CGN 2012\|website=2012.nosql-matters.org\|access-date=2017-01-12}}</ref> Luca Garulli envisioned the evolution of the 1st generation NoSQL products into new products with more features able to be used by multiple use cases. The idea of multi-model databases can be traced back to [[object–relational database\|Object–Relational Data Management Systems (ORDBMS)]] in the early 1990s and in a more broader scope even to federated and integrated DBMSs in the early 1980s. An ORDBMS system manages different types of data such as relational, object, text and spatial by plugging ___domain specific data types, functions and index implementations into the DBMS kernels. A ~~Multi~~multi-model database is most directly a response to the "[[polyglot persistence]]" approach of knitting together multiple database products, each handing a different model, to achieve a multi-model capability as described by Martin Fowler.<ref name="polyglot">[http://martinfowler.com/bliki/PolyglotPersistence.html Polyglot Persistence]</ref> This strategy has two major disadvantages: it leads to a significant increase in operational complexity, and there is no support for maintaining data consistency across the separate data stores, so multi-model databases have begun to fill in this gap. Multi-model databases are intended to offer the data modeling advantages of polyglot persistence,<ref name="polyglot"/> without its disadvantages. Operational complexity, in particular, is reduced through the use of a single data store.<ref name="rise"/>

Multi-model database: Difference between revisions