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What does the tbb::scalable_allocator in Intel Threading Building Blocks actually do under the hood ?

It can certainly be effective. I've just used it to take 25% off an apps' execution time (and see an increase in CPU utilization from ~200% to 350% on a 4-core system) by changing a single std::vector<T> to std::vector<T,tbb::scalable_allocator<T> >. On the other hand in another app I've seen it double an already large memory consumption and send things to swap city.

Intel's own documentation doesn't give a lot away (e.g a short section at the end of this FAQ). Can anyone tell me what tricks it uses before I go and dig into its code myself ?

UPDATE: Just using TBB 3.0 for the first time, and seen my best speedup from scalable_allocator yet. Changing a single vector<int> to a vector<int,scalable_allocator<int> > reduced the runtime of something from 85s to 35s (Debian Lenny, Core2, with TBB 3.0 from testing).

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up vote 15 down vote accepted

There is a good paper on the allocator: The Foundations for Scalable Multi-core Software in Intel Threading Building Blocks

My limited experience: I overloaded the global new/delete with the tbb::scalable_allocator for my AI application. But there was little change in the time profile. I didn't compare the memory usage though.

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Thanks! Article contains exactly the sort of information I was looking for. –  timday Mar 19 '09 at 9:17
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The original link is now defunct, but CiteSeer has the PDF: citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.71.8289 –  Arto Bendiken Apr 4 '13 at 1:04
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To add a datapoint: in my particular app, allocator contention halted speedup at around 15 threads, past that it would kill all speedup and by 40 it would be much slower than single-thread. With scalable_allocator used in the inner per-thread kernels the bottleneck disappeared and expected scaling came back. (machine has 40 physical cores). –  Adam May 4 '14 at 6:39

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