Entries filed under “Compute”

The Department of Defense High Performance Computing Modernization Program (DOD HPCMP) has just completed its largest one-time investment in supercomputing capability supporting the science, engineering, test and acquisition communities of the DoD. The total acquisition is valued at $105 million, and includes $80 million for multiple systems along with an additional $25 million in hardware and software maintenance services. This will more than double the DOD HPCMP’s current sustained computing capability.

This latest acquisition will provide significant capability for DOD scientists and engineers to stretch the boundaries of scientific discovery, expand engineering capabilities and accelerate the delivery of new technologies to the defense communities,” observed John West, director of the HPCMP. The purchase includes seven systems that will collectively provide over 225,000 cores, over 520 gigabytes of memory and a total storage capacity of 23 petabytes. Each system is scheduled to be fully accepted and operational by the end of the calendar year.

The HPC vendors participating in the system deployments include IBM, SGI and Cray, Inc. Read the Full Story.

A new whitepaper from Colfax International presents a new arithmetic efficiency benchmark and uses it to compare the Intel Sandy Bridge E5-2680 CPU to the Intel Westmere X5690 CPU performance.

These results lead to the conclusion that the edge of the 8-core, 2.70 GHz Sandy Bridge CPU over the 6-core, 3.46 GHz Westmere processor will be most significant in both single and double precision for linear algebra and other tasks based on addition and multiplication. Re-compilation of codes performing addition and multiplication-based tasks with AVX intrinsics instead of SSE2 should lead to additional performance benefits on Sandy Bridge. However, CPU- bound calculations heavily using the division operation and transcendental functions are likely to experience a smaller speedup from using the Sandy Bridge processor in place of Westmere. Likewise, they will benefit less from the migration from SSE2 to AVX.

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Kronos workstations and Nexxus C deskside supercomputers from Ciara are being added to the Transtec high-performance computing portfolio, the company has announced. Suited to customers who need powerful deskside systems for CAE simulation or CAD applications, both systems feature industrial-standard closed water cooling. This enables the Kronos workstations to be safely overclocked and makes the Nexxus C supercomputers quiet and suitable for deskside installation.

Designed to work with complex applications such as Catia, Ansys, ProEngineer/Creo and NCSIMUL, Kronos workstations are based on Intel Sandy Bridge or Westmere processors. With overclocking, their processing power can be significantly increased to 5.2 GHz and the RAM speed can also be accelerated beyond the manufacturer’s specifications. The integrated industrial-grade advanced high-performance cooling system dissipates the heat produced by overclocking. Configured for high speed, the workstations also come with an SSD hard disk, optimised for the needs of engineering and multimedia workstations, and an Nvidia Quadro graphics card. The systems are available single- or dual-core models and as desktop or rackmount systems.

The Nexxus C deskside supercomputer features the Intel Sandy Bridge CPU (Intel Xeon E5-2600 series) and is designed for operation outside dedicated server rooms. One system can provide up to 20 processors, 120 cores, 16 GPGPUs and almost 2TB of memory. The integrated industrial-grade advanced high-performance cooling system results in quiet operation even at full load, while a backplane manages the cables. The computer can also be linked to QDR Infiniband interconnect.

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This story originally appeared on HPC Projects. It appears here as part of a cross-publishing agreement with Scientific Computing World.