I am currently studing exam questions but stuck on this one, I hope someone can help me out to understand.

Question: Assume that we have a paged virtual memory with a page size of 4Ki byte. Assume that each process has four segments (for example: code, data, stack, extra) and that these can be of arbitrary but given size. How much will the operating system loose in internal fragmentation?

The answer is: Each segment will in average give rise to 2Ki byte of fragmentation. This will in average mean 8 Ki byte per process. If we for example have 100 processes this is a total loss of 800 Ki byte.

My question:

  1. How the answer get the 2Ki byte of fragmentation for each segement, how is that possible we can calculate the size, am I missing something here?
  2. If we have 8Ki byte per process, that would not even fit in a 4Ki byte page isn't that actually a external fragmentation?

This is academic BS designed to make things confusing.

They are saying probability wise, the last page in the sections in the executable file will only use 1/2 the page size on average. You can't count that size, they are just doing simple combinatorics. That presumes behavior of the linker.

  • OK, just assume they doing some presumes behavior of the size, but how does 8Ki byte process and 4Ki byte page result in a internal fragmentation (my 2nd question) ? – nihulus Apr 21 '19 at 13:53
  • They are assuming that each section of the executable does not take up an entire page and that the on average each section wastes 1/2 a page. – user3344003 Apr 21 '19 at 22:47

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