Live Playback
Render Node with Graphics
Panoramic Display
Flypack
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Twelve-core Opteron™ 64-Core per single blade with 8TB-12TB internal drive bay all in a 1U RACK Space. With processor
rendering management solution.
The GVS9000 64-Cores comes with Eight Opteron processors running at speeds of 2.0-3.2GHz
front side bus of 2.0GHz, memory band with from
128-bit, 12,000KB of dedicated L2 cache memory per
processor, Seven full-length PCI-e 16x,
and 32GB of DDR3 Registered ECC you can upgrade up to 512GB, with 480-Core in 7U rack space with less that 4x2500W max. power, and dual 10Gigabit interface, Plus 4x300GB SAS 1500RPM 64MB cache drive configured as internal SAN
RAID holding about 12,000GB of shared disk space with 4 hot-plug on the front with secure door, with upgrade option of up to 8 total
external drive interface option, dual Gigabit Ethernet (onboard) standards-based network services, with graphics for render management running both Windows,or Unix operating systems.
The GVS9000 48xCPU Opteron models, we taken efficient
rendering data access one step further, to
8.8Gbit/sec ideal for all rendering application such as Aerospace, Animate, Audio/Video 8K, 4K, 2K & HD, Biotechnology,
Communications, *Deconvolution Analysis, Education(mathematical calculation convolution), Manufacturing, Medical
Imaging, Mobile equipment, Oil & Gas, Pharmaceutical,
2D/3D Stereoscopic, TV Station, and Visualization, every
thing you need in 19" rack mount 1U unit or 480-core in 7U, ideal for easy to deployed in a office space or rack system that can support 3,000-Core in a single rack system, save power and cables.
In the case of the 48xCPUs 2-3GHz AMD® Opteron™ model, GVS has taken efficient data access one step further with RAM support for 64GB up to 512GB, internal storage of up to 12TB with optional 15,000 RPM hot-swap drives at a speed of 128Gbit/sec. This solution is ideal for High Performance Computing (HPC) in scientific and technical environments. Each GVS9000 1XU 48xCPU is capable of 4x real-time Speed. This provides a highly fast rendering time that was not available before on single node with cost effective system, feature rich tools for other applications such as 3D Design, CGI, Animation and Visualization.
The Opteron™ processor’s superscalar, hyper traded architecture supports up to 4 processors in one GVS9000 1XU 48XCPU with a high-bandwidth execution core offering over discrete function, including quad floating-point units and twelve-Core integer units, to process immense instructions in parallel — and of course, with 64-bit precision on 64-bit wide data paths 16 Way HyperTransport™ node with GVS Render Management Software to provide complete control of all 3000-Core at any given time Render Tool.
*This method of determination of the sum of two random variable images that are normally acquired by fluorescent microscope is completely described to the smallest parts and the image is then calculated by integration or summation. In a deconvolution analysis the improvement of resolution of images or other data by a mathematical algorithm is designed to separate the information from artifacts that result from the method of collecting it. This process also utilizes a large number of mathematical calculations.
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