Your code is broken in at least 2 ways.
it
is presumably a device pointer:
kernel_1<<<blocks, threads>>>(it);
^^
it is not allowed to use a raw device pointer as an argument to a thrust algorithm:
dt = *(thrust::max_element(it, it + 10));
^^
unless you wrap that pointer in a thrust::device_ptr
or else use the thrust::device
execution policy explicitly as an argument to the algorithm. Without any of these clues, thrust will dispatch the host code path (which will probably seg fault) as discussed in the thrust quick start guide.
If you fixed the above item using either thrust::device_ptr
or thrust::device
, then thrust::max_element
will return an iterator of a type consistent with the iterators passed to it. If you pass a thrust::device_ptr
it will return a thrust::device_ptr
. If you use thrust::device
with your raw pointer, it will return a raw pointer. In either case, it is illegal to dereference such in host code:
dt = *(thrust::max_element(it, it + 10));
^
again, I would expect such usage to seg fault.
Regarding asynchrony, it is safe to assume that all thrust algorithms that return a scalar quantity stored in stack variable are synchronous. That means the CPU thread will not proceed beyond the thrust call until the stack variable has been populated with the correct value
Regarding GPU activity in general, unless you use streams, all GPU activity is issued to the same (default) stream. This means that all CUDA activity will be executed in-order, and a given CUDA operation will not begin until the preceding CUDA activity is complete. Therefore, even though your kernel launch is asynchronous, and the CPU thread will proceed onto the thrust::max_element
call, any CUDA activity spawned from that call will not begin executing until the previous kernel launch is complete. Therefore, any changes made to the data referenced by it
by kernel_1
should be finished and completely valid before any CUDA processing in thrust::max_element
begins. And as we've seen, thrust::max_element
itself will insert synchronization.
So once you fix the defects in your code, there should not be any requirement to insert additional synchronization anywhere.