It doesn't matter as long as the OS is concerned. It would have been advantageous to use the same base address in both processes if the TLB cache wasn't flushed between context switches. The Translation Lookaside Buffer (TLB) cache is a small buffer that caches virtual to physical address translations for individual pages in order to reduce the number of expensive memory reads from the process page table. Whenever a context switch occurs, the TLB cache is flushed - you don't want processes to be able to read a small portion of the memory of other processes, just because its page table entries are still cached in the TLB.
Context switch does not occur between processes running on different cores. But then each core has its own TLB cache and its content is completely uncorrelated with the content of the TLB cache of the other core. TLB flush does not occur when switching between threads from the same process. But threads share their whole virtual address space nevertheless.
It only makes sense to attach the shared memory segment at the same virtual address if you pass around absolute pointers to areas inside it. Imagine, for example, a linked list structure in shared memory. The usual practice is to use offsets from the beginning of the block instead of aboslute pointers. But this is slower as it involves additional pointer arithmetic. That's why you might get better performance with absolute pointers, but finding a suitable place in the virtual address space of both processes might not be an easy task (at least not doing it in a portable way), even on platforms with vast VA spaces like x86-64.