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at the moment I am working on a code for numerical simulations in Fortran 95. My platform is WIndows and I take advantage of the MSVC environment with the Intel Fortran compiler. This code, as many in this field, creates a system of equations to be resolved. Numerically, this happen storing a square matrix and a vector of known values. Now, in order to optimize the memory, the matrices are stored in convenient form, like the compressed sparse rows format (CSR) or analogous, so the zero values are not stored.

Given this brief introduction, here there are my doubts. Since at compiling time I do not know the dimension of my arrays, I just declare them as:


and once I retrieve the dimension of such a vector, I call

ALLOCATE(myArray(N)) where N is the number of elements that I want to allocate
  • Still, memory is empty, since the values are not stored but a memory check is done in order to avoid stack overflow. Is it right?

Now, filling it with values, the occupied space ramp up. The structure of a Fortran array, both for a 1D vector and multi-dimensional array, is to fill in column order a space equivalent to the number of value. It is to say that if we have a 2D array of dimension 1000x1000, it will be stored in 1M "contiguous boxes" ordered by column numbers (first the first column is stored, then the second one and so on..).

  • If this is true, so the structure of data is the same, is the access time to a particular value the only difference between a multidimensional and a 1D vector?

  • Is then the command RESHAPE changing only the way the program "sees" the arrays?

The array I need for my purposes is defined in a module that each subroutine/function share. In particular, a subroutine allocate and fill it. Coming back to the main program, there is no problem with that since I display to the user some statistics about it. Let us say, we allocated 400M REAL*4 values, with about 1.5GB of used memory.

  • However, once that I get into another subroutine, the program stops saying forrtl: severe(170): Program Exception - Stack Overflow. I ran out of memory. But how could it be if the matrix is already allocated and I did not allocate anything more? Notice that: the subroutine uses the same module, so variables are already declared; my RAM has still a free space of about 1.3GB; the stop is at the first line of the subroutine.

  • Is subroutine (and also function) doubling the data? I thought Fortran would pass the address of my variables in that case, avoiding copies and working directly on the values.

Finally, as many of you, I enjoyed in C++ the STD library functions, like vector::push_back and so on. In Fortran, there are not such beautiful routines but some very useful functions are still there. Masking an array, using WHERE or COUNT or MERGEcan help you to handle some operation effectively.

  • However, they are veeeeery slow when my matrix is bigger than 1M entries. In that case even a sequential search and substitute is faster than creating a mask or use where. How could it be possible? Aren't they multithreaded?

Thank you in advance for your patience!! All suggestions are very welcome!!

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ALLOCATE(myArray(:)) shouldn't work since you need to specify actual dimensions when you allocate an array -- you creating the storage at this step. – M. S. B. Jan 25 '13 at 16:22
Note that a stack overflow isn't the same as running out of memory ... – mgilson Jan 25 '13 at 16:49
@M.S.B. you're right, it was just a typo – L. B. Jan 25 '13 at 17:13
@mgilson what do you mean with that? – L. B. Jan 25 '13 at 17:14
@L.B. -- My impression is that your computer has a certain amount of space on the stack for allocating local variables, etc. You can run out of that space without running out of physical memory. – mgilson Jan 25 '13 at 17:58

Comment space is limited, so I am posting this as an answer. Obviously you are running out of stack space, not out of memory. The stack size of the main thread on Windows is fixed at link time (the default is 1 MiB) and any larger stack allocation could result in a stack overflow. This could happen because of many reasons, but mainly:

  • the subroutine that you call uses big stack arrays (e.g. non-ALLOCATABLE arrays);
  • you pass a non-contiguous array subsection to the subroutine, e.g. myArray(1:10:2), and you don't have an explicit interface for that subroutine. In this case the compiler would make a temporary most likely stack copy of the data being passed, which could exhaust the stack space and trigger the exception.

I would guess the first point is the one, relevant to your case, since the exception occurs when you enter the subroutine (probably in the prologue, where stack space for all local variables is being reserved). You might instruct Intel Fortran to enable heap arrays in the project settings and see if it helps (not sure if the Windows version enables heap arrays be default or not).

Without even a single line of your code shown, it would be quite hard to guess what is the source of the problem and to solve it.

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