The algorithm is described in this paper: Thread Scheduling for Multiprogrammed Multiprocessors. Briefly, a computation is distrubuted in processes and each one has a deque of threads to do the job. A process can push (pop) threads to (from) the bottom of its deque and other processes can work steal from it by popping threads from the top. Thus, work can be dinamically created by the push operation. The algorithm is the following.
My question is about the popTop() work stealling function. I don't think it will work properly for all cases. For example, suppose a process A which has its queue Q and a process B that is trying to steal work from Q, calling popTop(). Suppose also that B is preempted after line 2 of popTop() and localBot = X at this moment. If A runs and popBottom() until the bottom of Q <= X, when B resumes its run it will get a thread that already have been processed by A.
Are my thoughts correct? I need to verify it because I will implement it to do work balancing in a CUDA program.