Address space: Difference between revisions

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* Protection: that only it can access
* Protection: that only it can access
* Virtual memory: that is large
* Virtual memory: that is large
'''Multiprogramming''' allows multiple processes in memory at a time. This is motivated by the observation that most processes would only require a small bit of memory at a time. '''Address translation''' is used to avoid conflicting addresses by using symbolic addresses to represent physical addresses.
'''Multiprogramming''' allows multiple processes in memory at a time. This is motivated by the observation that most processes would only require a small bit of memory at a time. '''Address translation''' by the [[MMU]] is used to avoid conflicting addresses by using symbolic addresses to represent physical addresses.
[[Category:Operating System]]
[[Category:Operating System]]

Latest revision as of 18:43, 4 October 2024

The address space of a process usually consists of three segments

  • Stack
  • Data
  • Code

Typically, stack and data segments are dynamic.

Address space abstracts physical memory in the following three ways:

  • Address independence: Each process has its own memory
  • Protection: that only it can access
  • Virtual memory: that is large

Multiprogramming allows multiple processes in memory at a time. This is motivated by the observation that most processes would only require a small bit of memory at a time. Address translation by the MMU is used to avoid conflicting addresses by using symbolic addresses to represent physical addresses.