This question is related to: Does Nvidia Cuda warp Scheduler yield?
However, my question is about forcing a thread block to yield by doing some controlled memory operation (which is heavy enough to make the thread block yield). The idea is to allow another ready-state thread block to execute on the now vacant multiprocessor.
The PTX manual v2.3 mentions (section 6.6):
...Much of the delay to memory can be hidden in a number of ways. The first is to have multiple threads of execution so that the hardware can issue a memory operation and then switch to other execution. Another way to hide latency is to issue the load instructions as early as possible, as execution is not blocked until the desired result is used in a subsequent (in time) instruction...
So it sounds like this can be achieved (despite being an ugly hack). Has anyone tried something similar? Perhaps with block_size = warp_size kind of setting?
EDIT: I've raised this question without clearly understanding the difference between resident and non-resident (but assigned to the same SM) thread blocks. So, the question should be about switching between two resident (warp-sized) thread blocks. Apologies!