CSC/ECE 506 Spring 2010/Ch 9/Synchronization
Hardware Support For Synchronization
Hardware Implementations
Hardware implementations for synchronization traditionally include locks, barriers, and mutual exclusion. These types of hardware synchronizations use a method called busy-waiting, or spinning which prevents threads from continuing to execute. Spinning simply means that a thread continuously checks if it is okay to continue (no other useful work is accomplished by the thread). In the case for a lock, multiple threads are competing for access to the lock. Only one thread is allowed to access the critical code protected by the lock at a time. For barriers, multiple threads reach the barrier at different times and no thread can continue until all threads have reached the barrier. Spinning is implemented in hardware through mutexes or semaphores, which prevent multiple processes from being accessed at the same time. Atomic instructions, which are support by the processor Instruction Set Architecture(ISA), are typically used for hardware synchronization mechanism. Examples of these hardware synchronization mechanisms include: Test-and-Set, Fetch-and-Increment, Test-and-Test-and-Set. Below are descriptions of these atomic instructions:
Test-and-Set Rx, M: Read the value stored in memory location M, test the value against a constant, and if they match, write the value in register Rx to memory location M.
Fetch-and-Increment M: Read the value stored in memory location M, increment it, and then store the new value to the memory location.
Test-and-Test-and-Set: This is the the same as Test-and-Set, except that there is an extra testing phase. Only when the atomic Test-and-set instruction has a good chance of succeeding, the atomic instruction is executed. See example code below:
lock: ld R1, &lockvar // R1 = lockvar bnz R1, lock // jump to lock if R1 != 0 t&s R1, &lockvar // test-and-set atomic instruction // R1=lockvar; if(R1 == 0) lockvar=1 bnz R1, lcok //jump to lock if R1 != 0 ret //return to caller unlock: st &lockvar, #0 //lockvar = 0 ret //return to caller
Software Implementations
The software implementations discussed are specifically used in Networks of Workstations (NOWs).