Is accessing data in the heap faster than from the stack?
Not inherently... on every architecture I've ever worked on, all the process "memory" can be expected to operate at the same set of speeds, based on which level of CPU cache / RAM / swap file is holding the current data, and any hardware-level synchronisation delays that operations on that memory may trigger to make it visible to other processes, incorporate other processes'/CPU (core)'s changes etc..
The OS (which is responsible for page faulting / swapping), and the hardware (CPU) trapping on accesses to swapped-out or not-yet-accessed pages, would not even be tracking which pages are "stack" vs "heap"... a memory page is a memory page. That said, the virtual address of global data may be able to be calculated and hardcoded at compile time, the addresses of stack-based data are typically stack-pointer relative, while memory on the heap must almost always be accessed using pointers, which might be slightly slower on some systems - it depends on the CPU addressing modes and cycles, but it's almost always insignificant - not even worth a look or second thought unless you're writing something where millionths of a second are enormously important.
Anyway, in your example you're contrasting a global variable with a function-local (stack/automatic) variable... there's no heap involved. Heap memory comes from
realloc. For heap memory, the performance issue worth noting is that the application itself is keeping track of how much memory is in use at which addresses - the records of all that take some time to update as pointers to memory are handed out by
realloc, and some more time to update as the pointers are
For global variables, the allocation of memory may effectively be done at compile time, while for stack based variables there's normally a stack pointer that's incremented by the compile-time-calculated sum of the sizes of local variables (and some housekeeping data) each time a function is called. So, when
main() is called there may be some time to modify the stack pointer, but it's probably just being modified by a different amount rather than not modified if there's no
buffer and modified if there is, so there's no difference in runtime performance at all.