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I am able to successfully run the code:

char* p = new char[34493878088];
cout << "Success at " << 34493878088 << " bytes" << endl;
delete[] p;

which as I understand allocates a 34 gigabyte char array. However, my computer only has 16 gigabytes of ram and my pagefile is only 3 gigabytes so how is this possible?

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  • 4
    Are you using Linux? That's called over committing. what is the purpose of memory overcommitment on Linux?
    – phuclv
    Commented Jun 29, 2020 at 6:09
  • 9
    Computers now use "virtual memory managers" along with address randomization. Virtual memory is what you ask to reserve and the pages are not actually mapped to physical RAM by the system until you write something to them. Each OS has it's own memory manager, but that is it in a nutshell. If you loop and attempt to write a character to each byte and do something with the bytes that has side effects, like a comparison, etc... (so your compiler just can't optimize the use of the array away) you will run out of memory. Commented Jun 29, 2020 at 6:09
  • 1
    @RetiredNinja new does not return NULL on failure, it throws a std::bad_alloc exception.
    – john
    Commented Jun 29, 2020 at 6:10
  • 3
    Will Microsoft Windows 10 overcommit memory?
    – phuclv
    Commented Jun 29, 2020 at 6:12
  • 2
    Please guys don't answer in comments ! Even a small answer is still an answer ;)
    – Fareanor
    Commented Jun 29, 2020 at 6:43

1 Answer 1

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The reserved address space ("virtual memory") is not mapped immediately into the physical memory. This is delayed till the memory is accessed.

When you first time access the memory location, a page fault interrupt initially happens, and only then the kernel configures the memory controller (that is a piece of hardware, part of CPU) to place a page of physical memory for your program at that address location. The program is then resumed from where it was interrupted and does not see these things happening.

A region in address space that is formally reserved but never accessed does not use the actual physical memory and can be larger than the amount of the physical memory available.

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