Xeon® E5 Family BOARDS / Socket B2 (LGA 1356) Modern microprocessors - Military & Aerospace Electronics. Robust, high- performance aerospace and defense systems harness the power of innovative microprocessors. BY Courtney E. Howard. Aerospace and defense professionals, in the quest to do more with less, have turned their attentions to infusing systems new and old with robust, capable, efficient microprocessors. A wealth of high- performance computing options exist, however, causing systems architects and systems integrators to consider closely all options when selecting silicon. A set of characteristics is fairly common across most aerospace and defense applications, whether an airborne platform, tactical radio, radar, or munition; yet, the value, or priority, of these characteristics can vary significantly depending on the application, explains Jason Moore, director of aerospace and defense applications engineering at Xilinx Inc. Memory and I/O interfaces, cost, and anti- tamper and physical security characteristics should also be considered. Static power and sleep modes are also critical in military communications, like tactical radios, where battery life is critical. The proliferation of commercial off- the- shelf (COTS) solutions which leverage commercial technologies reduce cost and development time, while increasing performance and providing regular technology insertion opportunities, long- term support roadmaps, and overall lower cost of ownership, he says. InformationWeek.com: News, analysis and research for business technology professionals, plus peer-to-peer knowledge sharing. Engage with our community. ASUS ROG Rampage V Extreme is an X99 chipset-based gaming/overclocking motherboard that supports the new Haswell-E LGA 2011-v3 CPUs and DDR4, OC Socket, Extreme. ASUS has detailed their entire X299 HEDT product lineup for Intel's brand new Core-X series CPUs, including the flagship Rampage VI Extreme. ASUS ROG Rampage V Extreme/USB3.1 dominates with the most world records and features with OC Panel and latest USB 3.1 Type-A (Dual) card. These will be incorporated into mil- aero board level products in the coming months. General- purpose computing using GPGPUs (general- purpose GPUs) is enabling significant performance increases in mil- aero applications that can leverage that parallelism, such as radar, in which increased throughput on the order of 1. X has been demonstrated in comparison with more traditional processor approaches, he says. Integration of graphics capability, for example, within the processor is highly desirable; moreover, he adds, as mil- aero applications become increasingly graphics- intensive, focus is on the quality of integrated graphics. Increased imagery. Kevin Berce, defense manager at Nvidia, is seeing a dramatic increase in demand for Nvidia Tesla GPUs in the defense market. Three application areas, in particular, are growing the fastest: image processing, signal processing, and data analytics. By harnessing Nvidia Tesla GPUs, the software can process 3. Improved image quality and streaming performance enable the Department of Defense to access more accurate and actionable information quickly. Each of these applications . Solers Inc., a provider of information technology solutions to government customers, was able to eliminate 2. GPUs to its Dell server. By introducing GPUs into its Dell system, Solers reduced the footprint by 3. Nvidia's GPUs are actively being adopted in aerospace and defense data centers as well as in electronics systems on the battlefield. Its Tesla brand GPUs are designed to meet computational requirements in data centers and high- performance computing environments, as well as to deliver performance increases for a variety of applications, including computational fluid dynamics, video processing, synthetic aperture radar (SAR), and electromagnetics. As a result, GPUs will drive a new generation of applications that deliver better, more accurate information quickly with much higher fidelity. COTSThe requirements for aerospace and defense microprocessors differ somewhat from their commercial counterparts in key areas, says Rice. Many mil- aero applications have begun to focus more on performance/watt rather than pure performance. This generates a requirement for long- term availability of components and long- term support for those components, as well as a requirement for form/fit/function- compatible upgrades over time to allow for technology insertion, increasing performance while maximizing long- term cost of ownership. Harris officials first selected GE's PPC7. E single- board computer in 1. HIMARS), the newest member of the multiple- launch rocket system (MLRS) family. More than a decade later, GE continues to provide the board. GE Intelligent Platforms continues to secure Harris orders for PPC7. EP single- board computers; the latest in a series of orders placed by Harris for the MLRS program over 1. Nov. Lockheed Martin engineers subcontracted Harris to design and build the electronics for the U. S. Army's MLRS M- 2. HIMARS platform. The PPC7. EP executive processor is a custom variant of GE's PPC7. D, a 6. U VME single- board computer featuring the 7. Power. PC processor. Three PPC7. EPs, one with a PMCGA4. C graphics accelerator card, are deployed in each vehicle and provide computing power to the HIMARS subsystems. Xilinx integrated processors and embedded processing solutions are used in missiles and munitions, for target tracking; military communications, for black- side modem operations and red- side key management and user interface; and electronic warfare/intelligence, surveillance, and reconnaissance (EW/ISR), such as radar algorithm processing. The advantage in lower development time and faster throughput over a separate ARM + FPGA devices is substantial. The processor is the master and is used to configure the PL. When performance is needed, the PL can be powered on and configured or reconfigured, either partially or fully, during system operation to the user application. The Zynq silicon platform, combined with the capabilities of Auto. ESL, Xilinx's High- Level Synthesis technology, blurs the lines between hardware and software. COBALT is a small, lightweight computing device based on Kontron's COM Express single- board computer offering fanless operation and a Gigabit Ethernet interface. Demand for optimized SWa. P- C products is also growing, along with the UAV market. BAE Systems has, since the 1. Manassas, Va., says Victor Scuderi, manager, Satellite Electronics, BAE Systems. The current- generation RAD7. IBM Power. PC 7. 50 processor, is adopted for satellite single- board computers serving command and control functions and onboard payload processing. The Advanced Extremely High Frequency satellite, a U. S. Department of Defense (DOD) secured communications satellite, uses two RAD6. RAD7. 50 computers for the payload. Satellite prime contractors demand flight heritage- demonstrated proof of the ability of a product to withstand the rigors of space- for five- year science missions or 1. DOD/commercial missions. We track every hour each of our computers has been in space. The three generations of BAE Systems computers have amassed an aggregate of 5. High- density ASICs will still be required to meet specialized functions and address power constraints. Multi- core processors will continue to gain market share, with the number of processors per piece of silicon increasing. The adoption of GPGPU technology will also continue. Anemone is an implementation of the Epiphany architecture from Adapteva, a startup company of which Bitt. Ware is an investor. The scalable . The AN1. Open. VPX module. Mercury Computer Systems has announced its Ensemble Series 6. U Open. VPX HCD6. Freescale T4. 24. Qor. IQ AMP Power Architecture. The HCD6. 21. 0 blade uses two new Freescale T4. Alti- Vec single- instruction, multiple- data (SIMD) engine for high- performance signal processing support. Systems based on the HCD6. EO/IR), and electronic warfare (EW) applications, says a representative. The HCD6. 21. 0 compute blade provides a six- fold increase in processing capability while maintaining software library compatibility.
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