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Can someone explain to me the advantages and disadvantages for a relation database such as MySQL compared to a graph database such as Neo4j?

In SQL you have multiple tables with various ids linking them. Then you have to join to connect the tables. From the perspective of a newbie why would you design the database to require a join rather than having the connections explicit as edges from the start as with a graph database. Conceptually it would make no sense to a newbie. Presumably there is a very technical but non-conceptual reason for this?

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up vote 47 down vote accepted

There actually is conceptual reasoning behind both styles. Wikipedia on the relational model and graph databases gives good overviews of this.

The primary difference is that in a graph database, the relationships are stored at the individual record level, while in a relational database, the structure is defined at a higher level (the table definitions).

This has important ramifications:

  • A relational database is much faster when operating on huge numbers of records. In a graph database, each record has to be examined individually during a query in order to determine the structure of the data, while this is known ahead of time in a relational database.
  • Relational databases use less storage space, because they don't have to store all of those relationships.

Storing all of the relationships at the individual-record level only makes sense if there is going to be a lot of variation in the relationships; otherwise you are just duplicating the same things over and over. This means that graph databases are well-suited to irregular, complex structures. But in the real world, most databases require regular, relatively simple structures. This is why relational databases predominate.

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Storing relationships at the record level makes sense in other cases as well, as it provides index-free adjacency. That is, graph traversals can be performed with no index lookups leading to much better performance. And it's not duplication, as you store the actual relationships, which differ. – nawroth Jul 30 '13 at 9:48
You say: "In a graph database, each record has to be examined individually during a query in order to determine the structure of the data". Is this a universal property of graph databases or more or less true in general? How about OrientDb which supports full schema for vertices and edges? – Lodewijk Bogaards Sep 20 '14 at 10:15

Dan1111 has already given an answer flagged as correct. A couple of additional points are worth noting in passing.

First, in almost every implementation of graph databases, the records are "pinned" because there are an unknown number of pointers pointing at the record in its current location. This means that a record cannot be shuffled to a new location without either leaving a forwarding address at the old location or breaking an unknown number of pointers.

Theoretically, one could shuffle all the records at once and figure out a way to locate and repair all the pointers. In practice this is an operation that could take weeks on a large graph database, during which time the database would have to be off the air. It's just not feasible.

By contrast, in a relational database, records can be reshuffled on a fairly large scale, and the only thing that has to be done is to rebuild any indexes that have been affected. This is a fairly large operation, but nowhere near as large as the equivalent for a graph database.

The second point worth noting in passing is that the world wide web can be seen as a gigantic graph database. Web pages contain hyperlinks, and hyperlinks reference, among other things, other web pages. The reference is via URLs, which function like pointers.

When a web page is moved to a different URL without leaving a forwarding address at the old URL, an unknown number of hyperlinks will become broken. These broken links then give rise to the dreaded, "Error 404: page not found" message that interrupts the pleasure of so many surfers.

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Only that most graph databases have integrity rules that don't allow for broken links. – Michael Hunger Jul 30 '13 at 9:36
If the DBMS pins the target, this will obviously prevent link breakage due to moving the target of the link. I don't know of any graph databases that don't pin records that might be targets of links. – Walter Mitty Jul 30 '13 at 20:31
Are graph databases usually schema-less because a schema change would be a very heavy operation because of the need to rewrite all pointers? Can the reshuffling problem not be circumvented by simply storing virtual pointers, which go through a lookup table? This would still perform at O(1) right? – Lodewijk Bogaards Sep 20 '14 at 10:28
I've been operating under a definition of graph databases that would include pre-relational databases such as hierarchical or network ones. Some of these databases had schemas, albeit not relational schemas. I'm not sure whether or not my operational definition agrees with the standard definition. – Walter Mitty Sep 20 '14 at 16:03
A data structure that provides a mapping between virtual pointers and physical pointers is essentially the same thing as an index, with about the same costs. You might as well go ahead and use a relational database. – Walter Mitty Sep 20 '14 at 16:05

The key difference between a graph and relational database is that relational databases work with sets while graph databases work with paths.

This manifests itself in unexpected and unhelpful ways for a RDBMS user. For example when trying to emulate path operations (e.g. friends of friends) by recursively joining in a relational database, query latency grows unpredictably and massively as does memory usage, not to mention that it tortures SQL to express those kinds of operations. More data means slower in a set-based database, even if you can delay the pain through judicious indexing.

As Dan1111 hinted at, most graph databases don't suffer this kind of join pain because they express relationships at a fundamental level. That is, relationships physically exist on disk and they are named, directed, and can be themselves decorated with properties (this is called the property graph model, see: This means if you chose to, you could look at the relationships on disk and see how they "join" entities. Relationships are therefore first-class entities in a graph database and are semantically far stronger than those implied relationships reified at runtime in a relational store.

So why should you care? For two reasons:

  1. Graph databases are much faster than relational databases for connected data - a strength of the underlying model. A consequence of this is that query latency in a graph database is proportional to how much of the graph you choose to explore in a query, and is not proportional to the amount of data stored, thus defusing the join bomb.
  2. Graph databases make modelling and querying much more pleasant meaning faster development and fewer WTF moments. For example expressing friend-of-friend for a typical social network in Neo4j's Cypher query language is just MATCH (me)-[:FRIEND]->()-[:FRIEND]->(foaf) RETURN foaf.

For a more thorough appraisal of the strengths of graph databases versus relational stores, there's a (free!) O'Reilly ebook called Graph Databases (caveat: I am one of the book's authors) available at It won't be free forever since it's a proper O'Reilly book, but we have permission from the publisher give away quite a few, so get one now.

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"Relationships are therefore first-class entities in a graph database". The same is typically true in a relational database: entities are mapped to tuples in relations, as are many-many relationships. Is the distinction you describe for the one-many relationships, which are often merged into entity relationships? – beldaz Oct 26 '15 at 0:16
This comparison seems a little biased. What about drawbacks? – Kurren Nov 9 '15 at 11:09

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