Is there any advantage defining an array's size to be a multiple of 8, if using 64 bit UNIX OS? I am intended to use this array for loading data from shared memory. So dependencies may exist on the operating system and the page size.
Doesn't matter. Your compiler knows whether or not it wants padding there, so let it decide. Don't mud up your code because of guess-work.
Get your program working first, then care about performance with a profiler.
Assuming you're dynamically allocating the array on the heap, it's fair to assume that malloc's internal allocation algorithm will be doing some abstraction away from actual memory requests to the kernel. That is to say, there may or may not be a direct relationship between your malloc() call and libc's brk() (or mmap()) system call.
The malloc man page has some more on this.
So in terms of memory usage I would tend to suggest that it won't really matter whether or not you allocate in multiples of 8 bytes since malloc will likely be doing something different (and sensible) beneath you.
In terms of program performance, the allocation of your data structures in memory can have a huge impact on cache performance. Ultimately, though, you will need to profile your application to see whether you could improve its cache performance. I don't believe there is a hard and fast rule which will let you optimise for this as you write your code.
If you're interested in learning more about memory and Linux, Ulrich Drepper wrote a fantastic series for LWN on the subject a few years ago:
If you is about memory access alignment or so - it is internal environment/libc matters how to align dynamic allocations. It is not guaranteed to have some array aligned in specific way if its size is aligned. Many allocators return memory blocks aligned to some value (about of 2x or 4x size of machine word) so it is not the place to bother about alignment.
I remember only several things that may have significance:
There may be soume other issues but I don't remember 'em.