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The register that points to the current location in the call-stack. Details vary by CPU architecture, but implicit use by push/pop instructions is common. (Please also include an architecture tag!)

CPU architectures that use a call-stack usually have an integer register dedicated to holding a pointer to the boundary between in-use and free stack space.

It's common to call this the "top" of the stack, even though it's the lowest/bottom address on most systems. (Having the stack grow downward while the heap grows upward is a very common convention (see also this Q&A). Diagrams of stack layouts get drawn either way—some with the high address at the top, and others with the low address at the top—so double-check that your terminology matches what you're reading or modifying.

NOTE: The term "stack pointer" only applies to a call-stack used as part of function call/return and/or saving of call-preserved registers for nested function calls, and making space (aka a stack frame) for local variables in a function.
It does not refer to to pointers into other stack data-structures used more generally.

The use of a stack pointer conveniently enables recursion and re-entrant functions (compared to static storage). See this MIPS Q&A.

Some architectures (e.g. ) hard-wire the choice into the design by having interrupt-handlers use the stack-pointer register implicitly to push context onto the stack. x86 also has many instructions that implicitly use the stack pointer (like push / pop, call / ret), but those could be avoided if desired. However, there's no way around having a valid value in at least the kernel's [e/r]sp for interrupts.

Other architectures (notably ) only use a specific register as the stack pointer by convention (i.e., the ABI/calling convention), and a different ABI could use a different register as the stack pointer with no loss of efficiency. Or even use no traditional stack at all, even for interrupt handling.

The stack pointer on various architectures:

In general, questions should also be tagged with one of these architecture-specific tags!

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