Do you require higher performance computation or graphics? Companies are being faced with greater computational and graphics requirements as large, complex computational models become more commonplace. Traditional CPU technology is no longer able to keep up with these increasing demands. NVIDIA Accelerators for HP servers seamlessly integrate GPU computing with select HP ProLiant Server series for scale-out computational and graphical deployments. Designed from the ground up for power-efficient, high performance supercomputing, NVIDIA accelerators deliver dramatically higher application acceleration than a CPU-only approach for a range of scientific and commercial applications. The thousands of CUDA® cores of each NVIDIA Accelerator allow it to divide large computing or graphics tasks into thousands of smaller tasks that can be run concurrently, thus enabling much faster simulations and improved graphics fidelity for the most-demanding 3D models.Increased Performance To Solve Problems in Minutes Instead of Hours.The NVIDIA Accelerators improve computational performance which can dramatically reduce the completion time for parallel applications, offering quicker time to solutions. Co-locating the NVIDIA® Kepler™-based Quadro or GRID GPUs and computational servers in the data center so that they share rather than transfer large datasets, display refresh-rates improve greatly. NVIDIA GRID GPUs are specifically designed to enable rich graphics in virtualized environments. Combined with the HP ProLiant WS460c Gen8 Graphics Server Blade with its Converged Infrastructure and workstation class end-user experience, the virtual desktop environment takes another leap forward. NVIDIA GPU accelerators can be configured and monitored by HP Insight Cluster Management Utility (CMU). Insight CMU will monitor and display GPU health such as temperature, and will also install and provision the GPU drivers and CUDA software.
HP is a leading global provider of products, technologies, solutions and services to consumers and business. The company's offerings span it infrastructure, personal computing and access devices, global services, and imaging and printing. Thier $4 billion annual R&D investment fuels the invention of products, solutions and new technologies so they can better serve customers and enter new markets. They invent, engineer and deliver technology solutions that drive business value, create social value and improve the lives of thier customers.
Boost the capabilities of your HP Workstation and improve system performance with high-speed DDR4 memory from HP, fully tested with HP Workstations for your peace of mind.
DRAM is a type of RAM (random access memory) used as the main memory in several computing devices, such as desktop and notebook computers, servers, and high-end workstations. It is the most widely used semiconductor memory used in current generation computers, and offers several significant advantages, such as structural simplicity, very high packing densities (number of bytes that can be stored per unit of chip area), low power consumption, and sufficiently high data read/write speeds. Several types of DRAM are presently available for deployment on various computing platforms, such as home/personal computers, portable computers, and network servers. This type of memory has undergone several innovative technological developments and offers very high price/performance ratios. Two types of DRAM are widely used for deployment in current generation servers: registered memory, and fully-buffered (FB) memory. Both these memory types are commercially available as DIMMs (dual inline memory modules). Registered DIMMs (or RDIMMs) are designed with an additional hardware register between the DRAM module and the system’s memory controller. RDIMMs present several advantages for the system, such as a lower electrical load on the memory controller and sustained stability even with an increase in the number of installed memory modules. Thus, RDIMMs are often the default choice for deployment in server-class computing systems. Fully-buffered DIMMs (or FB-DIMMs) are intended to be used in systems requiring higher memory densities with limited board space. As opposed to the parallel data transfer technique used in normal DRAM, FB-DIMMs transfer data in a serial format, using an additional buffer, known as advanced memory buffer (AMB) between the memory controller and the FB-DIMM modules. The AMB acts as an intermediary and handles all data reads/writes for the memory modules, taking care of issues such as signal degradation and error correction and reducing any overhead on the memory controller. Thus, FB-DIMMs prove to be a reliable alternative for deployment in server-grade machines.
Maximize the life of your PC as your business needs change with the flexible display connectivity of the HP HDMI Port Flex IO v2.
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