You can also try to use transparent huge page support which is available on any kernel from the last several years (at least anything in the 3.x and 4.x range and also various 2.6.x kernels).
The primary benefit is that you don't need to have any special "hugetlbfs" set up, it "just works". The downside is that it is guaranteed: the kernel may satisfy your allocations with huge pages if some conditions are met and some are available. Unlike
hugetlbfs which reserves a fixed number of huge pages at startup, which are only available via specific calls, transparent huge pages carves huge pages out of the general memory pool. This requires contiguous 2MB blocks of physical memory which may become rare over time due to physical memory fragmentation.
Furhtermore, there are various kernel tunables which affect whether you get a hugepage or not, the most important of which is
Your best bet is to allocate blocks on a 2MB boundary with
posix_memalign and then do a
madvise(MADV_HUGEPAGE) on the allocated region before touching it for the first time. It also works with variants like
aligned_alloc. In my experience, on systems that have
/sys/kernel/mm/transparent_hugepage/enabled set to
always this generally results in a hugepage. However, I've mostly used on systems with significant free memory and not-too-long uptime.
If you are using 2GB of memory, you could probably get a significant benefit from huge pages. If you allocate that all in small blocks, e.g. via
malloc there is a high chance transparent hugepages won't kick in, so you can also consider allocating in a THP-aware way whatever is using the bulk of your memory (often it is a single object type).
I also wrote a library to determine if you actually got hugepages from any given allocation. This probably isn't useful in a production application, but it can be a helpful diagnostic if you go the route of trying to use THP since at least you can determine if you got them or not.