It depends on many things, but primarily:
- the OS
- the implementation of
malloc you are using
The OS is responsible for allocating the "virtual memory" that your process has access to and builds a translation table that maps the virtual memory back to actual memory addresses.
Now, the default implementation of
malloc is generally conservative, and will simply have a giant lock around all this. This means that requests are processed serially, and the only thing that allocating from multiple threads instead of one does is slowing down the whole thing.
There are more clever allocation schemes, generally based upon pools, and they can be found in other
tcmalloc (from Google) and
jemalloc (used by Facebook) are two such implementations designed for high-performance in multi-threaded applications.
There is no silver bullet though, and at one point the OS must perform the virtual <=> real translation which requires some form of locking.
Your best bet is to allocate by arenas:
- Allocate big chunks (arenas) at once
- Split them up in arrays of the appropriate size
There is no need to parallelize the arena allocation, and you'll be better off asking for the biggest arenas you can (do bear in mind that allocation requests for a too large amount may fail), then you can parallelize the split.
jemalloc may help a bit, however they are not designed for big allocations (which is unusual) and I do not know if it is possible to configure the size of the arenas they request.