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I am aware that the intel xeon phi coprocessor SE10X has 61 cores and it is suggested to use only 60 cores since 1 core is used for the offload deamon. Also, since intel xeon phi coprocessor 5110P has 60 cores, is it suggested to use 59 cores?

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2 Answers

From this this MIC-related FAQ:

Sensible Affinities

Under Intel MPSS many of the kernel services and daemons are affinitized to the “Bootstrap Processor” (BSP), which is the last physical core. This is also where the offload daemon runs the services required to support data transfer for offload. It is therefore generally sensible to avoid using this core for user code. (Indeed, as already discussed, the offload system does that automatically by removing the logical CPUs on the last core from the default affinity of offloaded processes).

From this OpenMP on MIC guide:

Offloaded programs inherit an affinity map that hides the last core, which is dedicated to offload system functions. Native programs can use all the cores, making the calculations required for balancing the threads slightly different.

None of these sources is specific to any MIC model, they're about the architecture; so it seems that if you offload to the device and don't use the default affinity, you should indeed avoid the last core.

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ok, thanks!!! I shall run my code with 59 and 60 cores and will post the wall timings... –  hrs Jun 10 '13 at 10:15
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up vote 1 down vote accepted

I evaluated the performance of my test code on a intel xeon phi 7120p card. I observed that the code performance was best when no. of threads was a multiple of (number of cores - 1). This is because one of the cores is busy running the Linux micro-OS services.

In general:

No. of threads to create >= K * T * (N-1)
K = Positive integer (=2 works fine)  
T = No. of thread contexts on hardware(4 in my case)  
N = No. of cores present on hardware.  
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