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I have a procedure which will construct a matrix using the given list of values! and the list starts growing bigger like 100 thousand or million values in a list, which in turn, will result in million x million size matrix.

in the procedure, i am doing some add/sub/div/multiply operations on the matrix, either based on the row, the column or just the element.


since the matrix is so big that i don`t think doing the whole manipulation in the memory would work.


therefore, my question would be: how should i manipulate this huge matrix and the huge value list? like, where to store it, how to read it etc, so that i could carry out my operations on the matrix and the computer won`t stuck or anything.

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That's incredibly bad idea — Python is not designed for this. Consider using for example, C++ with STXXL. –  hamstergene May 17 '12 at 8:51
That's not going to work. Tell us about the calculations. Is the matrix dense? What does the matrix describe? –  David Heffernan May 17 '12 at 8:53
If it's numeric data, don't use Python lists. Use a proper numerical array type, like numpy.array. Further, if your data is largely zeroes, use a sparse matrix. –  Li-aung Yip May 17 '12 at 8:55
Is it a sparse matrix? –  Joel Cornett May 17 '12 at 8:58
Are you using numpy? –  Marcin May 17 '12 at 9:06

4 Answers 4

up vote 1 down vote accepted

First and foremost, such matrix would have 10G elements. Considering that for any useful operation you would then need 30G elements, each taking 4-8 bytes, you cannot assume to do this at all on a 32-bit computer using any sort of in-memory technique. To solve this, I would use a) genuine 64-bit machine, b) memory-mapped binary files for storage, and c) ditch python.


And as I calculated below, if you have 2 input matrices and 1 output matrix, 100000 x 100000 32 bit float/integer elements, that is 120 GB (not quite GiB, though) of data. Assume, on a home computer you could achieve constant 100 MB/s I/O bandwidth, every single element of a matrix needs to be accessed for any operation including addition and subtraction, the absolute lower limit for operations would be 120 GB / (100 MB/s) = 1200 seconds, or 20 minutes, for a single matrix operation. Written in C, using the operating system as efficiently as possible, memmapped IO and so forth. For million by million elements, each operation takes 100 times as many time, that is 1.5 days. And as the hard disk is saturated during that time, the computer might just be completely unusable.

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not going to be tractable on a 64 bit machine either –  David Heffernan May 17 '12 at 8:58
Why ditch Python? There are plenty of ways to mmap binary data in Python, as well as libraries for working with sparse matrixes. –  Dietrich Epp May 17 '12 at 8:59
Ok, not ditch python for the entire problem domain, just that this that was asked should not be done in python. –  Antti Haapala May 17 '12 at 9:04
It shouldn't be done in any language, on current hardware. –  Dietrich Epp May 17 '12 at 9:07
No, I did not say. Anyhow, if you read carefully, he wants to manipulate 10G element matrices "without causing the computer to hang" etc etc, I think I sense a troll :D –  Antti Haapala May 17 '12 at 9:10

I suggest using NumPy. It's quite fast on arithmetic operations.

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I will definitely switch to numpy! :P –  phoenixbai May 17 '12 at 15:26

Have you considered using a dictionary? If the matrix is very sparse it might be feasible to store it as

matrix = {
 (101, 10213) : "value1",
 (1099, 78933) : "value2"
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Are you talking about doing matrix multiplication/addition? Or just operations on individual elements? If matrix ... have you look at scipy.sparse? –  Maria Zverina May 17 '12 at 8:59

Your data structure is not possible with arrays, it is too large. If the matrix is for instance a binary matrix you could look at representations for its storage like hashing larger blocks of zeros together to the same bucket.

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