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Hsw

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This information is depracated. The hardware was removed from clusters in 2024.


Haswell nodes

The cluster was upgraded to contain 76 nodes with dual socket Intel Xeon E5-2660 v3, 2.6 GHz "Haswell".

  • 20 cores per node in 2 sockets, 40 threads, AVX2 support
  • 128GB of DDR4 2133 Mhz memory
  • 4 memory channels per CPU, total of >110GB/s memory bandwidth
  • Mellanox QDR ConnectX-3 Infiniband HCA, connected with PCIe-gen3 bus, 2:1 overcommitted in the switch fabric

and in addition 196 nodes with dual socket Intel Xeon E5-2680 v3, 2.5 GHz "Haswell".

  • 24 cores per node in 2 sockets, 48 threads, AVX2 support
  • 128/256GB of DDR4 2133 Mhz memory
  • 4 memory channels per CPU, total of >110GB/s memory bandwidth
  • Mellanox QDR ConnectX-3 Infiniband HCA, connected with PCIe-gen3 bus, 2:1 overcommitted in the switch fabric

main user benefits through hardware compared to SandyBridge nodes

  • more cores per node
  • improved memory bandwidth
  • 128GB/256GB memory per node


Remarks

  • use -march=core-avx2 switches to generate best code with compilers, AVX is supported by Intel and GCC and Portland compilers, see details in manuals
  • frontends are nehalem type CPUs, if compiler uses autodetection if no architecture switch is specified, you will get non-optimal code!
  • redhat 6.2 based scientific linux 6.2 which is used on the new nodes shows performance degradation if SMT (hyperthreading) is enabled - which is the case - and MPI is used without using the additional threads. To get best performance, use CPU pinning.
    • for openmpi use mpirun -bind-to-core
    • for HP-MPI/Platform MPI use mpirun -cpu_bind=rank
    • for intel MPI pinning is on by default

An example for effect of pinning is IMB allreduce benchmark within 1 node, it gives for 4MB messages a time of ~13000us without pinning and 7500us with pinning, using 16 processes.