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I'm currently working on a project that requires working with gigabytes of scientific data sets. The data sets are in the form of very large arrays (30,000 elements) of integers and floating point numbers. The problem here is that they are too large too fit into memory, so I need an on disk solution for storing and working with them. To make this problem even more fun, I am restricted to using a 32-bit architecture (as this is for work) and I need to try to maximize performance for this solution.

So far, I've worked with HDF5, which worked okay, but I found it a little too complicated to work with. So, I thought the next best thing would be to try a NoSQL database, but I couldn't find a good way to store the arrays in the database short of casting them to character arrays and storing them like that, which caused a lot of bad pointer headaches.

So, I'd like to know what you guys recommend. Maybe you have a less painful way of working with HDF5 while at the same time maximizing performance. Or maybe you know of a NoSQL database that works well for storing this type of data. Or maybe I'm going in the totally wrong direction with this and you'd like to smack some sense into me.

Anyway, I'd appreciate any words of wisdom you guys can offer me :)

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30,000 elements might not have (quite) fit in the memory of an Apple II, but certainly ought to fit in the memory of anything even reasonably modern and capable. –  Jerry Coffin Oct 6 '13 at 15:07
Yes, you are correct, but the arrays correspond to one element in the dataset, there would be millions of these arrays, so it would be more like 30,000 *1,000,000, which would be a lot harder to store in memory –  Andrewziac Oct 6 '13 at 15:51

3 Answers 3

up vote 2 down vote accepted

Assuming your data sets really are large enough to merit (e.g., instead of 30,000 elements, a 30,000x30,000 array of doubles), you might want to consider STXXL. It provides interfaces that are intended to (and largely succeed at) imitate those of the collections in the C++ standard library, but are intended to work with data too large to fit in memory.

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Yes, my data sets are of this caliber (30,000 * 1,000,000), should have specified, my bad :) in any case, I have tried STXXL as a matter of fact, but was having trouble with bad_alloc errors which I understand occur when trying to write to memory that doesn't exist (I think...) To make my needs a little clearer, in an stxxl perspective, I need about 20 maps to hold integer keys and pairs of int arrays and float arrays as values, I was getting the bad alloc errors when declaring the maps, but only after declaring a certain number (17 or 18 I believe) any advice? –  Andrewziac Oct 6 '13 at 16:10
Your problem seems to be just a misuse of the library, perhaps if you share some code we might help you detect whats going wrong. –  Havenard Oct 6 '13 at 19:07
Sorry for getting back to you so late. Actually, I seem to have solved my bad_alloc problem, but my real problem now is getting a boost::noncopyable error... Using this statement to construct a map: stxxl::map<int, mapData, CmpIntGreater, 4096, 4096> node_map((stxxl::unsigned_type)(4096 * 4), (stxxl::unsigned_type)(4096 * 3)); I get this error: error C2248: 'boost::noncopyable_::noncopyable::noncopyable' : cannot access private member declared in class 'boost::noncopyable_::noncopyable' I'd really appreciate your input :) –  Andrewziac Oct 7 '13 at 19:53
@Andrewziac: I don't recall ever running into such an error message, so I don't immediately have a great idea of how to fix it. –  Jerry Coffin Oct 7 '13 at 19:58

Smack some sense into yourself and use a production-grade library such as HDF5. So you found it too complicated, but did you find its high-level APIs ?

If you don't like that answer, try one of the emerging array databases such as SciDB, rasdaman or MonetDB. I suspect though, that if you have baulked at HDF5 you'll baulk at any of these.

In my view, and experience, it is worth the effort to learn how to properly use a tool such as HDF5 if you are going to be working with large scientific data sets for any length of time. If you pick up a tool such as a NoSQL database, which was not designed for the task at hand, then, while it may initially be easier to use, eventually (before very long would be my guess) it will lack features you need or want and you will find yourself having to program around its deficiencies.

Pick one of the right tools for the job and learn how to use it properly.

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Thanks for the advice, but I guess misspoke a bit, sorry hehe... It's not so much that HDF5 is too complicated to use, it's that to optimize it sufficiently, it would require much more work (as far as I can tell). I can add all my arrays to the h5 file and read it fine, but the speed is not there. I'm aware there are methods of arranging your data in memory and various other features one can use to improve performance, but the way I see it is if I can get similar or better performance with a less complicated library, I'll be saving myself from future headaches –  Andrewziac Oct 7 '13 at 19:59

I have been working on scientific computing for years, and I think HDF5 or NetCDF is a good data format for you to work with. It can provide efficient parallel read/wirte, which is important for dealing with big data.

An alternate solution is to use array database, like SciDB, MonetDB, or RasDaMan. However, it will be kinda painful if you try to load HDF5 data into an array database. I once tried to load HDF5 data into SciDB, but it requires a series of data transformations. You need to know if you will query the data often or not. If not often, then the time-consuming loading may be unworthy.

You may be interested in this paper: http://www.cse.ohio-state.edu/~wayi/papers/HDF5_SQL.pdf It can allow you to query the HDF5 data directly by using SQL.

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