radar
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Game-Changing Technologies in Electronic Warfare
Recent advances in general purpose computing on graphics processing units (GPGPU) technology have opened new possibilities for their use in some EW applications.
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Performance Comparison Between Intel(r) Mobile-Class and Server-Class Processors for Embedded Defense Applications
Mercury continually evaluates new processors to better understand their performance and applicability for defense embedded applications. In this paper, we've highlighted the results from our recent tests comparing Intel(r) mobile-class versus server-class processors.
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High Performance Embedded Computing and Its Impact on Mil/Aero Applications
GE Intelligent Platforms High Performance Embedded Computing takes advantage of the technologies and architectures widely deployed in commercial High Performance Computing environments, bringing to the embedded mil/aero world the advantage of their cost-effectiveness, proven performance and extensive support infrastructure and adding the ruggedness that enables them to be deployed in the most challenging situations. As sensor-derived data increases in volume, complexity and criticality, GE Intelligent Platforms HPEC platforms and subsystems from GE are helping mil/aero customers to solve some of todays most demanding problems.
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GPUDirect RDMA
GPUDirect support for RDMA provides low latency interconnectivity between NVIDIA GPUs and various networking, storage, & FPGA devices. This white paper will include how CUDA 5 technology increases GPU autonomy and promotes multi-GPU topologies with high GPU-to-CPU ratios. In addition to improved bandwidth and latency, the resulting increase in GFLOPS/watt poses a significant impact to both HPC & embedded applications. We will dig into scalable PCIe switch hierarchies, as well as software infrastructure to manage device interoperability & GPUDirect streaming.
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Overview of Tests on Radar Systems and Components
This application note along with its corresponding white paper 1MA207 show how to use the Rohde and Schwarz radar product portfolio to tackle test and measurement tasks in modern radar technology. Target groups are students who want to become familiar with radar issues as well as radar professionals who want to solve certain test and measurement tasks.
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Introduction to Radar System and Component Tests
This White Paper provides a general overview of different military and commercial radar systems. It also covers some typical measurements on such systems and their components.
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RDMA: The Future of High-Speed Fabric Interconnects
This white paper will explore the merits of InfiniBand architecture as well as methods of optimizing its use.
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Design Approaches Impact GPGPU Implementation
The right choice for a GPGPU platform depends on several factors. Two approaches can be taken when implementing a GPGPU design: chip-down and mezzanine. GE Intelligent Platforms supports both design methods, allowing customers to choose the right approach for their program, including getting started with software design and system validation using early-access GPUs on MXMs, then migrating to chip-down designs later in the cycle when the program goes to production.
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Consumer Market Drives Advances in High-Performance Embedded Computing
Military and aerospace sector reaps benefits from consumer-led technology developments. The military and aerospace market may be said to have started this situation, first as far back as the late-1970s with the Advanced Research Projects Agency Network (ARPANET) that laid the groundwork for the packet-switch networks that, in turn, form the basis of today's Internet, then again with the 1980s Very High-Speed Integrated Circuits (VHSIC) program that established the blueprints for semiconductor design and manufacturing.
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High-performance Element Processing Architecture for Open Standards Radar Systems
High-performance Element Processing Architecture can now be employed as a basis for large array radar systems, enabling system designers to increase levels of digitization by using open standards based hardware. The advent of OpenVPX and its flexible and scalable architecture now makes it possible for military system integrators to improve total cost of ownership of radar systems.
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Critical Techniques for High Speed A/D Converters in Real-Time Systems
Markets for high-speed A/D converters are significant in size and many are growing rapidly. Commercial users include wireless mobile communication systems, airline radar, air traffic control towers, ship communications, and wireless networks. Industrial uses include medical imaging systems and process control systems. Government is another significant user: military radar, global military radio networks, unmanned aerial vehicles, and intelligence gathering systems.
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Enabling Interoperability in High-Performance Embedded Applications
OpenVPX expands on the VPX Base and Dot Specifications and provides a System Specification to address interoperability issues between VPX modules and Chassis. OpenVPX is an extensible specification that addresses the current and future needs for computing in harsh environments.
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Putting FPGAs to Work in Software Radio Systems
This white paper introduces the basics of FPGA technology and its relationship to Software Defined Radio (SDR) systems.
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QuiXilica V5 Architecture: The High Performance Sensor I/O Processing Solution for the Latest Generation and Beyond
Military sensor data processing applications for communications, radar, and electronic warfare have an insatiable demand for increased signal performance. Sensors continually require more channels, increased processing capabilities, higher memory performance and greater communications bandwidth.