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I am currently evaluating neo4j in terms of inserting big amounts of nodes/relationships into the graph. It is not about initial inserts which could be achieved with batch inserts. It is about inserts that are processed frequently during runtime in a java application that uses neo4j in embedded mode (currently version 1.8.1 as it is shipped with spring-data-neo4j 2.2.2.RELEASE).

These inserts are usually nodes that follow the star schema. One single node (the root node of the imported dataset) has up to 1000000 (one million!) connected child nodes. The child nodes normally have relationships to other additional nodes, too. But those relationships are not covered by this test so far. The overall goal is to import that amount of data in at most five minutes!

To simulate such kind of inserts I wrote a small junit test that uses the Neo4jTemplate for creating the nodes and relationships. Each inserted leaf has a key associated for later processing:

public void generateUngroupedNode()
        long numberOfLeafs = 1000000;
        Node root = this.template.createNode(map(NAME, UNGROUPED));
        String groupingKey = null;
        for (long index = 0; index < numberOfLeafs; index++)
            // Just a sample division of leafs to possible groups
            // Creates keys to be grouped by to groups containing 2 leafs each
            if (index % 2 == 0)
                groupingKey = UUID.randomUUID().toString();
            Node leaf = this.template.createNode(map(GROUPING_KEY, groupingKey, NAME, LEAF));
            this.template.createRelationshipBetween(root, leaf, Relationships.LEAF.name(),

For this test I use the gcr cache to avoid Garbage Collector issues:


Additionally I set my MAVEN_OPTS to:

export MAVEN_OPTS="-Xmx4096m -Xms2046m -XX:PermSize=256m -XX:MaxPermSize=512m -XX:+UseConcMarkSweepGC -XX:-UseGCOverheadLimit"

But anyway when running that test I always get a Java heap space error:

java.lang.OutOfMemoryError: Java heap space
    at java.lang.Class.getDeclaredMethods0(Native Method)
    at java.lang.Class.privateGetDeclaredMethods(Class.java:2427)
    at java.lang.Class.getMethod0(Class.java:2670)
    at java.lang.Class.getMethod(Class.java:1603)
    at org.apache.commons.logging.LogFactory.directGetContextClassLoader(LogFactory.java:896)
    at org.apache.commons.logging.LogFactory$1.run(LogFactory.java:862)
    at java.security.AccessController.doPrivileged(Native Method)
    at org.apache.commons.logging.LogFactory.getContextClassLoaderInternal(LogFactory.java:859)
    at org.apache.commons.logging.LogFactory.getFactory(LogFactory.java:423)
    at org.apache.commons.logging.LogFactory.getLog(LogFactory.java:685)
    at org.springframework.transaction.support.TransactionTemplate.<init>(TransactionTemplate.java:67)
    at org.springframework.data.neo4j.support.Neo4jTemplate.exec(Neo4jTemplate.java:403)
    at org.springframework.data.neo4j.support.Neo4jTemplate.createRelationshipBetween(Neo4jTemplate.java:367)

I did some tests with fewer amounts of data which result into the following outcomes. 1 node connected to:

  • 50000 leafs: 3035ms
  • 100000 leafs: 4290ms
  • 200000 leafs: 10268ms
  • 400000 leafs: 20913ms
  • 800000 leafs: Java heap space

Here is a screenshot of the system monitor during those operations:

System Monitor

To get a better impression on what exactly is running and is stored in the heap I ran the JProfiler with the last test (800000 leafs). Here are some screenshots:

Heap usage:


CPU usage:


The big question for me is: Is neo4j not designed for using that kind of huge amount of data? Or are there some other ways to achieve those kind of inserts (and later operations)? On the official neo4j website and various screencasts I found the information that neo4j is able to run with billions of nodes and relationships (e.g. http://docs.neo4j.org/chunked/stable/capabilities-capacity.html). I didn't find any functionalities like flush() and clean() methods that are available e.g. in JPA to keep the heap clean manually.

It would be great to be able to use neo4j with those amounts of data. Already with 200000 leafs stored in the graph I noticed a performance improvment of factor 10 and more compared to an embedded classic RDBMS. I don't want to give up the nice way of data modeling and querying those data like neo4j provides.

share|improve this question
Don't use Spring Data Neo4j for highly performant inserts, it is not made for that, use the Neo4j core API with large enough transactions (30-50k elements per tx). –  Michael Hunger Sep 2 '13 at 21:11
template.createRelationshipBetween checks for duplicate relationships, so it is destined to be O(n) of the existing nodes. Also make sure to batch your tx. –  Michael Hunger Sep 2 '13 at 21:13
btw. what causes your heap space to explode is that you keep all transaction state, of 1M nodes + 1M rels in your heap instead of partitioning them into suitable chunks. See also the explanation about transaction sizes here: jexp.de/blog/2013/05/on-importing-data-in-neo4j-blog-series –  Michael Hunger Sep 2 '13 at 21:27

2 Answers 2

up vote 2 down vote accepted

By just using the Neo4j core API it takes between 18 and 26 seconds to create the children, without any optimizations on my MacBook Air:

Output: import of 1000000 children took 26 seconds.

public class CreateManyRelationships {

    public static final int COUNT = 1000 * 1000;
    public static final DynamicRelationshipType CHILD = DynamicRelationshipType.withName("CHILD");
    public static final File DIRECTORY = new File("target/test.db");

    public static void main(String[] args) throws IOException {
        GraphDatabaseService gdb = new GraphDatabaseFactory().newEmbeddedDatabase(DIRECTORY.getAbsolutePath());
        long time=System.currentTimeMillis();
        Transaction tx = gdb.beginTx();
        Node root = gdb.createNode();
        for (int i=1;i<= COUNT;i++) {
            Node child = gdb.createNode();
            root.createRelationshipTo(child, CHILD);
            if (i % 50000 == 0) {
                tx = gdb.beginTx();
        time = System.currentTimeMillis()-time;
        System.out.println("import of "+COUNT+" children took " + time/1000 + " seconds.");

And Spring Data Neo4j docs state, that it is not made for this type of task

share|improve this answer
Thanks a lot for your reply. Somehow I was thinking that using the Neo4jTemplate instead of the ORM way means using the core API... I now changed the code to use the GraphDatabaseService instead. And I also removed the @Transactional annotation and handled transactions manually with smaller chunk sizes. Now it runs in ~40s which is a big improvement. But anyway: in real world scenarios I would need to re-use an existing transaction which an upper service layer would create by using Spring @Transactional. So handling transactions here manually would not be an option for me so far. –  h3nrik Sep 3 '13 at 7:31
Unfortuntately that's the way Neo4j transactions currently work, they build up the tx-state in memory. Some time in the future there is the option of offloading that tx-state to disk. –  Michael Hunger Sep 3 '13 at 15:46

If you are connecting 800K child nodes to one node, you are effectively creating a dense node, a.k.a. Key-Value like structure. Neo4j right now is not optimized to handle these structures effectively as all connected relationships are loaded into memory upon traversal of a node. This will be addressed by Neo4j 2.1 with configurable optimizations if you only want to load parts of relationships when touching these structures.

For the time being, I would recommend either putting these structures into indexes instead and do a lookup for the connected nodes, or balancing the dense structure along one value (e.g. build a subtree with say 100 subcategories along one of the properties on the relationships, e.g. time, see http://docs.neo4j.org/chunked/snapshot/cypher-cookbook-path-tree.html for instance.

Would that help?

share|improve this answer
Thanks for your reply. What do you mean with putting the structures to an index? In our scenario we do not have one single root node. There could be many of those. Putting the leafs to an index would merge the leafs of different root nodes AFAIK. Or would I need to create a separate index representing a root node? Couldn't that be a performance issue, too? Because then I need to have thousands of those indexes. The idea with the subcategories is also an interesting one. But hard to apply to our real life model, I think. –  h3nrik Sep 3 '13 at 7:46
You would basically create one index per root, if that is what you want to separate, or create one "Structure" index and every Root straucture as a "structure=1,2,3,.. leafName=leaf1" or so, so you search for root/leaf. –  Peter Neubauer Sep 9 '13 at 12:52

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