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PROSOFT, NIIVK and FASTWEL have created a 48-core system for solving applied problems

PROSOFT company together with JSC Scientific Research Institute of Computing Complexes named after. M.BUT.Kartseva “(NIIVK) and the FASTWEL company completed work on the creation of a high-performance universal multiprocessor system (UMS) designed to solve applied computational problems requiring parallel computing. The system is built on the basis of 24 dual-core Intel Core processors, united by a high-speed real-time interconnect Infiniband.

Distinctive features of this system are record values ​​of computational density and the use of a high-speed data exchange network between computational nodes with low levels of signal latency. Intel 1U servers with two dual-core Intel Xeon 5100 series processors operating at a reduced supply voltage and, accordingly, with reduced thermal power dissipation were used as computational nodes. This allowed us to create a compact solution in which all system components – compute nodes, Gigabit Ethernet switches, Infiniband switches and an uninterruptible power supply system – are housed in one standard closed 19-inch rack, which was used as a new Schroff VARISTAR electronics cabinet. The cabinet has a dust-splash-proof design (degree of protection IP54), which allows using the multiprocessor system not just outside specially prepared air-conditioned rooms, but directly in production rooms without any requirements for their arrangement.

Another distinctive feature of the chosen architecture is the ability to flexibly scale and expand the capabilities of the system. The architecture of the computational nodes and the characteristics of the chipsets used make it possible to achieve a doubling of the computational power without a significant increase in the thermal budget of the system and while maintaining the volumetric characteristics.

Computing nodes are united by two different types of networks designed for data exchange in the process of computing and exchange of service information – Gigabit Ethernet and Infiniband networks, each of which is switched by a corresponding network switch. The use of the Infiniband network allows almost 10 times the speed of data exchange between nodes and 20-30 times lower data transmission delays. The results of real tests carried out on the UMS determined the values ​​of the exchange rate over the Infiniband network in the range from 700 to 1000 MB / s with latency in the range of 3-4 ms.

Maximum theoretical computational power of current configuration is 447 GFlops at 4.5 kW power consumption. Thus, due to the optimization of the cluster architecture in terms of power and the use of low-voltage versions of processors, a high value of the computational density of 75 GFlops / kW was achieved. At the same time, the general architecture of building the UMS allows replacing dual-core processors with quad-core ones with an increase in theoretical power up to 890 GFlops.

Specifications:

  • Number of compute nodes: 12
  • Number of processors / cores: 24/48
  • Node structure: 1U
  • Processor type: Two low-voltage dual-core Intel Xeon 5138 processors (2.33 GHz) with dual-channel 1333 GHz FSB, 40 W / processor
  • Theoretical Peak Performance: 447 GFlops
  • Linpack performance: 340 GFlops, 76% theoretical
  • Host network type and speed: Infiniband 10Gbps
  • Latency of data packets on the master network: 3-4 μs
  • Alternative communication network: Gigabit Ethernet
  • Support network: Gigabit Ethernet
  • Node RAM: 4GB FBDIMM DDR2 667MHz, expandable up to 64GB
  • Node Disk Memory: 2 x 80GB SATA Disks
  • Operating system: Red Hat Enterprise Linux 4
  • Parallel programming environment: Intel MPI Library 3.0
  • Compilers and Libraries: GNU (gcc / g77), Intel C ++ Compiler for Linux 10.0, Intel Fortran Compiler for Linux 10.0; Intel Math Kernel Library Cluster Edition 9.one
  • Power system and construct:
  • Compute cluster enclosures: 1
  • Occupied area: 0.6 m2
  • Computing cluster power consumption: 4.5 kW
  • Cooling system: forced air with protection against external influences IP54

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