On x86 lock prefix locks all cores and allows atomicity. For implementing this on other systems without LOCK, CMPXCHG loops are used or tight loops with retry logic that attempt to set the value of something to the expected value. As you can see the 2nd way is more detrimental in most cases as it's just constantly looping trying to set the value (and keeps doing so until it's done). For x86 the delay is minimal and might range from halting the instruction pipeline or flushing it and then executing that instruction atomically (typically a couple of cylces), the 2nd method can't really be estimated as it depends how much contention there is for the value that needs to be modified atomically. For mutex's I believe that it's a flag value that must be acquired (check that the mutex isn't acquired and continuously wait until the mutex is up for grabs then attempt to atomically change a flag to acquire it).
AFAIK IBM processors use the 2nd method as when working on the linux kernel I found that the atomic increment function uses it (maybe it's only for older processors). The x86 platform still uses
lock addl ...;
I will admit though that it's been about a year since I worked in this part of the kernel so I could be wrong on some points.