Difference between revisions of "Stack"

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(Created page with 'Category:Computer Architecture A ''stack'' is an array where values are added (pushed) or removed (pulled) to/from the end of the array only. Most CPU designs incorporate one…')
 
 
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[[Category:Computer Architecture]]
 
[[Category:Computer Architecture]]
A ''stack'' is an array where values are added (pushed) or removed (pulled) to/from the end of the array only. Most CPU designs incorporate one or more hardware-managed stacks which are used to store and restore state information during subroutine calls, exceptions, and interrupts.
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A ''stack'' is an area of memory where values are added (pushed) or removed (pulled) to/from the end of the stack only. Most CPU designs incorporate one or more hardware-managed stacks which are used to store and restore state information during subroutine calls, exceptions, and interrupts.
  
Hardware stacks are implemented through the use of a [[Register#Stack Pointer|stack pointer]] register, which is used for indirect read/writes, with the stack pointer automatically incremented or decremented on each access. On some architectures, the stack grows downward in memory; in others, it grows upward.
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On some architectures, the stack grows downward in memory; in others, it grows upward. Hardware stacks are implemented through the use of a [[Register#Stack Pointer|stack pointer]] register, which is used for indirect read/writes, with the stack pointer automatically incremented or decremented on each access.
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In a few historical cases (e.g., old Intel 4004 and 8008 processors) the stack was implemented in registers internal to the CPU rather than in general address space.

Latest revision as of 13:59, 30 August 2022

A stack is an area of memory where values are added (pushed) or removed (pulled) to/from the end of the stack only. Most CPU designs incorporate one or more hardware-managed stacks which are used to store and restore state information during subroutine calls, exceptions, and interrupts.

On some architectures, the stack grows downward in memory; in others, it grows upward. Hardware stacks are implemented through the use of a stack pointer register, which is used for indirect read/writes, with the stack pointer automatically incremented or decremented on each access.

In a few historical cases (e.g., old Intel 4004 and 8008 processors) the stack was implemented in registers internal to the CPU rather than in general address space.