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I have doubt.

For tbb::memory_pool< tbb::scalable_allocator > shared_memory_pool_;

if that is instantiated in the main thread. And than, I called shared_memory_pool_.malloc(sizeof(my_class)) in a worker thread. Will tbb allocate that size of memory from the main heap, or would it allocate it from the thread "domain" so that the lock contention causes by the normal malloc() would still be avoided?

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Is there a thread-specific heap? Threads typically have their own stack space, but share the heap with process that created them. –  Praetorian Mar 19 '13 at 2:29
I am unclear with that too, since the document didn't state clearly, but from what i know, scalable_allocator does not allocate memory directly from dynamic heap, so it wouldn't block by the melloc() system call –  Bryan Fok Mar 19 '13 at 2:32
I should not say dynamic heap, there is no such thing. what i meant was "share heap" which system call malloc() uses. –  Bryan Fok Mar 19 '13 at 2:50

1 Answer 1

The tbb::memory_pool is based on the same internals as tbb::scalable_allocator. So, once the memory pool grabs the memory initially (in your case as you specified, from tbb::scalable_allocator as well), it will use the same mechanisms to distribute and reuse it across the threads. I.e. it is scalable and avoids the global lock as much as possible. Though, as the memory is still a common resource, some thread synchronization is unavoidable anyway. Specifically, I'd expect more contention for initial memory requests since the per-thread caches are not warm yet; and also the scalable_allocator tries to keep the balance between scalability and memory consumption thus it'll not go crazy with per-thread caches redistributing the memory among threads which is also kind of thread synchronization (though more scalable than a lock).

As for the [very] initial memory allocation by scalable_allocator, it goes through mmap or VirtualAlloc for big enough memory chunks and not through malloc.

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