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I've read several topics, but I'm lost. I'm quite new to this. I want to store huge sparse matrix and have several idea's but can choose between them. Here's my needs:

  1. Adjacency matrix of approx. 50 million vertices.
  2. Maximum amount of neighbors per one vertex - approx. 10 000.
  3. Average amount of neighbors per one vertex - approx. 200-300.
  4. Fast row query - vector will be multiplied by this matrix.
  5. O(1) complexity to add edge.
  6. Most probably, edges will not be deleted.
  7. Enumeration of the vertices adjacent to v - as fast as possible.
  8. Portability - there must be a way to transfer base from one computer to another.

So, here's my ideas:

  1. Huge table with pairs (row, col). Very simple, but enumeration of vertices will be at least O(log N), where N - size of table. It's quite slow as I think. Also, it must be indexed. Every RDBMS will be good for what.
  2. Enormous amount of lists: one list per vertex. Very fast enumeration, but wouldn't it take much resources to storage this? Also, I'm not sure about which DBMS to use in this case: maybe some NoSql?
  3. Huge table (row | set of cols). Combination of two above. I'm not sure is there any RDBMS to support arbitrary sets. Do you know any? Maybe NoSql will be useful here?
  4. Collection of adjacency lists. Any RDBMS will be suitable for that, and costs in terms of complexity are good, but they can be killed by multiple request to DB for one vertex.
  5. HDF5 - I think it will be slow due to I/O.
  6. Neo4j - As far as I understand, it storages data in double-linked lists, so it will be practically the same as №4, am i right?

Please, help me to choose or offer a better decision.

If I'm wrong with estimates somewhere, please correct me.

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2 Answers 2

A hybrid neo4j / hbase approach may work well in which neo4j optimizes the graph processing aspects while hbase does the heavy lifting scalability wise - e.g for storing lots of extra attributes.

neo4j contains the nodes and relationships. It may well be enough scalability wise . My investigation on the web on independent non-neo4j sites claim up to several billion nodes/relationships on a single machine with couple of orders of magnitude better performance on traversal than RDBMS.

But.. in case more scalability were needed, you can bring in the hbase big iron to store non-relationship/node identifier extra attributes. Then simply add the hbase rowkey into the neo4j node info for lookup purposes when needed by application.

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up vote 0 down vote accepted

In the end, I've implemented solution number one.

I used PostgreSQL with two tables: one for edges with two columns - start/end, and another for vertices with unique serial for vertex number and some columns for vertex description.

I've implemented upsert based on pg_advisory_xact_lock. It was a bit slow, but it was enough for me.

Also, it's a pain to delete vertex from this configuration.

To speed up multiplication, I've exported edges table to file. It can even be placed in RAM on x64 machine.

To be fair, the amount of data was less than I expected. Instead of 50 million vertices and average 200-300 edges for 1 vertex there were only 7 million vertices and 160 million edges total.

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Yes you changed the basic premise of the requirements - the scalability aspect. Your solution would not satisfy your original requirements. Maybe at least upvote my solution as the only 'viable' one addressing the criteria from the OP. –  javadba Jan 24 '14 at 10:19
    
The scalability was not the question. Why do you thought so? Due to large amounts of data? In the end, my solution satisfied me, though it worked quite slow as I thought. Did you test your solution? Why do you think it is the only viable one? –  Chelovek Chelovechnii Jan 24 '14 at 12:44
    
From your own requirements: Adjacency matrix of approx. 50 million vertices. 200-300 neighbors each. Your solution on postrgres does not support that, in your own admission. –  javadba Jan 24 '14 at 12:47
    
Yes, you are right, but, again, there is no requirement for horizontal scalability in OP. Maybe I misunderstand you. Could you be more specific, please? –  Chelovek Chelovechnii Jan 24 '14 at 13:16
    
My comment is : your solution is probably fine - for the updated requirements of 160Meg rows . Given the OP was 10 Billion edges then the horizontal scalability does come into play and then another solution is likely required. If you change the parameters to the OP (160Meg vs 10 Billion Meg) maybe consider giving credit to answers that address the OP. –  javadba Jan 24 '14 at 13:24

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