Southampton, UK and Paris, France– June 13, 2016 – VadaTech, a leading manufacturer of embedded boards, enabling software and application-ready platforms, has partnered with ECRIN Systems to showcase the latest VadaTech solutions for defence, aerospace and security at Eurosatory being held in Paris between the 13 th and 17 th June.
In Hall 5, stand J730 visitors will be able to see and learn about new Xilinx FPGA FMC carriers in the PCIe, VPX and AMC form factors, FMC analog-to-digital (ADC) and digital-to-analog (DAC) cards based on TI and Analog Devices technology, and rugged 1U platforms for sonar and radar applications. [Continue reading →]
The integrated onboard automated control systems are currently considered as advanced and multifunctional platforms providing solutions for a wide range of tasks. In such a case, depending on the type of a vehicle, they can either assist human-operators and expand opportunities (a classic example here is the onboard avionic system on a manned aircraft) or can be the main (sometimes the only one) command center of any self-propelled robotized vehicle (Unmanned aerial vehicles (UAVs), unmanned underwater vehicles (UUVs), spacecraft etc.). The core of such control platforms is the onboard computing system -- a special-purpose Box PC, usually controlled by real-time operating system and using peripheral equipment for connection to the systems of data acquisition and vehicle control.[Continue reading →]
In this interview with engineers in the Machine Beam Controls Group at DESY, Holger Schlarb and Michael Fenner discuss the data acquisition requirements of the accelerator community, as well as how a tradition of using COTS signal processing solutions continues to improve uptime and maximize performance for some of the most complex machines on Earth.[Continue reading →]
VITA and PICMG are the open standards bodies that define the specifications underpinning embedded form factors such as VPX and CompactPCI. Both groups continue to provide a vital service to commercial off-the-shelf (COTS) component manufacturers and customers alike, enabling engineers to spend less time worrying about interoperability between subsystem components and more time working on application development.[Continue reading →]
A military prime contractor in Europe has chosen MicroTCA over OpenVPX for its RADAR Signal Processing application. The applications include ground-based mission surveillance, and airborne and ground-based RADAR. The company was looking for a high-performance, compact solution for data processing that could be used across multiple platforms including light-rugged and extreme rugged applications. MicroTCA provides excellent SWaP-C (Size, Weight, Power, and Cost). The architecture is an easily ruggedized form factor and provides a versatile ecosystem for a wide range of applications. The customer’s system provides simultaneous multi-mission capability, high survivability (small target, high mobility), and is fully self-contained. The MicroTCA platform is expected to expand into other mission computing and RADAR projects for the company.
System Requirements [Continue reading →]
Embedded Tech Trends 2014, the business and technology forum for critical and intelligent embedded systems, just wrapped up in Phoenix. This year 19 sponsor companies and 13 editors and industry analysts gathered for an intensive two days of technology presentations and meetings. Twenty-five presentations were delivered in a very fast paced format that kept everyone on their toes. Each morning session of presentations was followed by a hectic afternoon of one-on-one sponsor/media meetings.
The purpose of the event is to bring media and industry thought leaders together to exchange ideas and to network among peers. It is good old fashioned face-to-face networking that is not possible with even the best of online social media networks. Nothing beats spending a few days with such a collection of industry colleagues. I left the event filled with new ideas and industry connections.[Continue reading →]
Eching, Germany, February 14, 2013 – Kontron has announced today that the Kontron MicroTCA™ Carrier Hubs (MCH) AM4904/AM4910 have been upgraded to include support of the MTCA.4 specification. Offering the MicroTCA™ enhancements for rear I/O and precision timing, the MCHs are ideally aligned with the requirements of high-speed data acquisition and processing applications. Target segments include physical research centers and many other high-bandwidth applications that require increased serviceability packed into a compact form factor and feature high levels of performance, bandwidth and availability. By supporting four different high-speed fabric variants, including GbE, sRIO, PCIe and 10 GbE, the new Kontron MicroTCA Carrier Hubs build the backbone of practically all data-intensive MicroTCA™-based high-performance applications.
Besides deployment in physics applications, other typical scenarios can be found in telecom markets – including 3G, LTE and network test equipment – and non-telecom markets such as military, medical, test and measurement, as well as in image and video processing applications. To cover the individual application requirements, the modular Kontron AM4904/AM4910 MCHs come in four different versions. The Kontron AM4904-BASE is a pure Gigabit Ethernet switching version; the Kontron AM4904-PCIE has a combined PCIe mezzanine card and the Kontron AM4904-SRIO features sRIO. For high bandwidth demands, the Kontron AM4910 provides 10 Gigabit Ethernet switching. All the versions provide central management and data switching functionality on a full-size, single-width Advanced Mezzanine Card (AMC) form factor.[Continue reading →]
In recent years there has been a market and technology trend towards the convergence of network infrastructure into a common platform or modular components that support multiple network elements and functions such as application processing, control processing, packet processing, and signal processing.[Continue reading →]
A couple days ago, someone asked me if Embedded Computing Design was all about mobile phones now. I’ll say that’s not quite true, but it is symptomatic. My job is to spot trends, and I’m pretty sure that “phonemance” (think “bromance,” only the object of affection is your phone, not your best buddy) has implications much larger for the embedded computing industry than any phone.
Have you heard or said this recently: “This phone is my life”? It’s even a hook in phone advertisements, with messages urging you to bring everything in your life together in one place and promising the ability to do anything, anywhere, even multiple things at the same time. What needs to be recognized is that this notion is driving our industry, for better or worse, and it’s a good idea to get your arms around it if you haven’t already.[Continue reading →]
High-performance, deterministic response, scalability, and future ï¬‚exibility are all part of a TCA solution, delivering a strong combination of technical and business advantages.[Continue reading →]
Advances in technology have brought with them ever-increasing demands for more compute power in multiple application areas. Many, but not all, of these high-performance applications are related to telecommunications, and they face similar computing problems: [Continue reading →]
This article discusses different components of the platform, how it works, and key points regarding its purpose. [Continue reading →]