# Is it possible to create a float array of 10^13 elements in C?

I am writing a program in C to solve an optimisation problem, for which I need to create an array of type float with an order of 1013 elements. Is it practically possible to do so on a machine with 20GB memory.

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Not unless you have 40TB of memory hanging around. You might be better off describing your actual problem. –  Groo Jun 15 '12 at 13:14
Must all this fit into RAM or are you allowed to page stuff in and out? But C itself would not prohibit you from creating such a big array. The OS on the other hand might have its problems with it. –  RedX Jun 15 '12 at 13:17
You can't have 40TB RAM on a pc, maybe on a supercomputer.It's possible if you have enough disk space to page it, but it's probably going to make the code slower that it's without this "optimization" –  lazy_banana Jun 15 '12 at 13:19
@lazy_banana Work out how long it's going to take to access all that memory. A linear algorithm that can fully process 1 billion items per second (fast!) will take nearly 3 hours. I'd be really surprised if any non-trivial optimization problem was linear though, or able to deliver that speed for real even on a supercomputer. –  Donal Fellows Jun 15 '12 at 14:24

A `float` in C occupies 4 bytes (assuming IEEE floating point arithmetic, which is pretty close to universal nowadays). That means 1013 elements are naïvely going to require 4×1013 bytes of space. That's quite a bit (40 TB, a.k.a. quite a lot of disk for a desktop system, and rather more than most people can afford when it comes to RAM) so you need to find another approach.

Is the data sparse (i.e., mostly zeroes)? If it is, you can try using a hash table or tree to store only the values which are anything else; if your data is sufficiently sparse, that'll let you fit everything in. Also be aware that processing 1013 elements will take a very long time. Even if you could process a billion items a second (very fast, even now) it would still take 104 seconds (several hours) and I'd be willing to bet that in any non-trivial situation you'll not be able to get anything near that speed. Can you find some way to make not just the data storage sparse but also the processing, so that you can leave that massive bulk of zeroes alone?

Of course, if the data is non-sparse then you're doomed. In that case, you might need to find a smaller, more tractable problem instead.

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