I'm working on a hobby project involving a rather CPU-intensive calculation. The problem is embarrassingly parallel. This calculation will need to happen on a large number of nodes (say 1000-10000). Each node can do its work almost completely independently of the others. However, the entire system will need to answer queries from outside the system. Approximately 100000 such queries per second will have to be answered. To answer the queries, the system needs some state that is sometimes shared between two nodes. The nodes need at most 128MB RAM for their calculations.
Obviously, I'm probably not going to afford to actually build this system in the scale described above, but I'm still interested in the engineering challenge of it, and thought I'd set up a small number of nodes as proof-of-concept.
I was thinking about using something like Cassandra and CouchDB to have scalable persistent state across all nodes. If I run a distributed database server on each node, it would be very lightly loaded, but it would be very nice from an ops perspective to have all nodes be identical.
Now to my question:
Can anyone suggest a distributed database implementation that would be a good fit for a cluster of a large number of nodes, each with very little RAM?
Cassandra seems to do what I want, but http://wiki.apache.org/cassandra/CassandraHardware talks about recommending at least 4G RAM for each node.
I haven't found a figure for the memory requirements of CouchDB, but given that it is implemented in Erlang, I figure maybe it isn't so bad?
Anyway, recommendation, hints, suggestions, opinions are welcome!