Platforms LADÓN
SIE bet this generation of cluster by the reduction of space.
See our platforms
SIE bet this generation of cluster by the reduction of space. Our solutions and Twin Blade, allowing each node occupies only ½ U. A 44-U rack houses over seven hundred cores. This represents a significant saving space, power and cost.
In addition to the commonly used standard platforms such as servers or separate machines, we just launched additional GPU systems. Our new platforms 1 U supports the incorporation of 2 GPUs in addition to the basic 8 cores.
˝ U PLATFORMS
SIE bet this generation of cluster by the reduction of space. Our solutions and Twin Blade, allowing each node occupies only ½ U. A rack of 44 U can houses over seven hundred cores. This represents a significant saving space, power and cost. In the cluster environment for scientific computing we offer the following platforms: a) Solution Intel Xeon Nehalem twin 1 or with two nodes and 8 cores per node. This new platform with a speed of 3 GHz, provides great power and performance. You can also combine two Gigabit Ethernet interface or a Gigabit interface for connecting InfiniBand and other low-latency network. b) twin AMD Opteron solution. Shangay with processors of up to 2.9 Ghz with 8 cores per node and I ...
1 U PLATFORMS WITH NODES OF 2 PROCESSORS
They are the first in memory expandability are allowing up to 144 GB and 64 GB Nehalem Opteron. In addition to the commonly used standard platforms such as servers or separate machines, we just launched additional GPU systems. Our new platforms 1 U supports the incorporation of 2 GPUs in addition to the basic 8 cores. Each GPU includes 240 cores, which gives the system a power of 2 teraflops. Thus, these stations calculation becomes a new dimension in performance. Scientific applications that focus primarily include fluid dynamics, geographic information services and marine engineering, life sciences and the Human Genome and oil and gas research.