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Let me first explain what I want to model using neo4j (v2)

Let assume a n-dimensional dataset on the form:

val1Dim1, ... , val1Dimn, classValue1
val2Dim2, ... , val2Dimn, classValue2
....

Each dimension is provided with a hierarchy (let say a tree). The total number of "dimensions nodes" is around 1K or slightly higher depending on the dataset.

A data mining approach (link to the scientific paper) is run over the dataset and a huge number of patterns is extracted out of the dataset.

Basically, each pattern is on the form:

{a set of value of Dim1} {a set of value of Dim2} ... {a set of class values}

There are at least around 11M mined patterns.

My design choice

2 types of nodes (labels):

  • DATA (for instance val1Dim1 is a DATA node) => around 1K nodes. These nodes have three properties: LABEL (the value itself), the dimension id,DIMENSION, and a built property, KEY, that is "DIMENSION_LABEL". An index has been defined on KEY.

  • PATTERN (one per pattern) => at least 11M nodes

2 type of relationship:

  • IS_A to represent the generalization/specialization relationship to navigate through hierarchies

  • COMPOSED_BY to link a pattern to each of its member (for instance if P={val1dim1,val2Dim1} {val1Dim2} is a pattern, then 3 relationships, i.e., P->va11Dim1, P->val2Dim1 and val1Dim1, are created.

Here is a toy graphDb to make my design choices clear enter image description here

Data insertion and specifications

I have used batch inserter and its works pretty fast (around 40 minutes). The size of the DB is around 50Gb and is composed by around 11M nodes and 1B (!!) relationships. For now, I am running code on my machine (8GB of RAM, Intel i7 and 500GB of SSD HD). I am using Java.

What I'd like to do

Given a value per dimension, I would like to know what are the patterns such that all the dimension values are involved in the pattern.

Currently, assuming 2 dimensions the query I am using is to achieve my goal is:

match (n:DATA {KEY:'X'})-[r:COMPOSED_BY]-(p:PATTERN)-[r2:COMPOSED_BY]-(m:DATA {KEY:'Y'}) 
return p;

For now, it is very very slow... And the memory usage of the java process is 2GB (maximum)

My questions

  1. Do you think a graphDb is appropriated for such a scenario?
  2. Are my design choices ok?
  3. What about indexes? Do I need to define some more?
  4. Is the way to query the db ok?
  5. Is there some configuration tricks to speed up the query phase?
  6. What would be the server specifications that will suit my application needs?

Thanks in advance

Yoann

share|improve this question
    
Can you post a dummy diagram of your graph so that I can visualize better your model before putting in comments? –  Sumeet Sharma Jan 24 '14 at 6:03
    
@SumeetSharma I have edited my post. Thanks. –  Yoann Pitarch Jan 24 '14 at 6:54

1 Answer 1

I have few suggestions. You can use Node Labels (not as property of node) . For knowing more about node labels see here

So if you use labels, all the labels of a particular dimension will automatically be classified under one set(ie the label). Hence you will reduce the number of relations that you maintain as IS_A . And as relationships are more expensive space wise, you can reduce the size of your database. Moreover indexed searches on Labels are also available and fast than searching for keys in the entire index.

In the model below under each dimension node(DATA) I have added two attributes key and value , you can rather keep only one of them as key and then simply index over it. So when you would need the value just parse the key.(Just a suggestion dont know about the kind of usecases you are going to have)

Suggestions and comments are welcome.

comment back if you need more info.


Edit after comment

As per your comment, in order to reduce the number of pattern nodes you can link the DATA nodes itself by creating unique relationshipTypes naming them according to the PATTERNS . See the updated diagram for more clarification

Model I would suggest

share|improve this answer
    
Thanks for your suggestions. The point is I am already using labels to distinguish data node (in white) and patterns nodes (in gray). Actually, there is not so much IS_A relationships (around 1K). My main issue is the number of patterns (11M) and thus the number of COMPOSED_BY relationships (200M). The typical query I want to run is "given some data nodes N what are the patterns p such that it exists a COMPOSED_BY relationship between p and every data nodes in N". –  Yoann Pitarch Jan 24 '14 at 8:03
    
Also the labels you are using are DATA.. I was suggesting that instead of using DATA as label , use A/DIM1 or B/DIM2 as Label that will segregate your set of nodes in a dimension under individual sets. Instead of creating a pattern node, create unique relationshiptype named patterns p1, p2 interlinking the set of nodes in a pattern –  Sumeet Sharma Jan 24 '14 at 8:56
    
Your idea looks very interesting. I will investigate it right now and keep you informed about the impact on performances. Also, do you think auto-indexing relationships would speed up significantly the queries? –  Yoann Pitarch Jan 24 '14 at 9:53
    
Autoindexing on relationships you will be able to use if you have any property in the relationships . Say if you have an attribute name say p1 on relaionshiptype p1 then you can autoindex on relationship name attribute. But in what I suggested you are creating a new relationshiptype with relevant label so that would be enough for cypher to match patterns . So when you actually query your graph you will just need to match a pattern in ur graph with relationshiptype specific to ur pattern which will be faster . –  Sumeet Sharma Jan 24 '14 at 10:45
    
I'd like to do exactly the contrary say what are the patterns where val1, val2,...,valn (where vali are key values) are all together. Looks like index on nodes (key) are preferable, isn't it? –  Yoann Pitarch Jan 24 '14 at 10:46

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