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Military & Aerospace Electronics
November 2006 |
LEON3 microprocessor core available on Actel FPGAs The microprocessor core includes simulators, software development tools, fault-tolerant or non-fault-tolerant version of the 32-bit LEON3 SPARC V8-compliant processor, a Spacewire Codec, and the Gaiser Research floating point unit.   |
Military & Aerospace Electronics
January 2006 |
Software Tool for Integrating Soft ARM7 Actel Corp. is offering new capabilities with its Libero 6.3 integrated-design-environment (IDE) software. |
Military & Aerospace Electronics
June 2006 |
Elan Digital's USBscope50 Incorporates Actel FPGA England's Elan Digital selected single-chip, Flash-based ProASIC3 FPGAs from Actel Corp. for use within current and future portable test and measurement products. |
Military & Aerospace Electronics
April 2008 |
Actel Qualifies 4-Million-Gate Rad-Tolerant FPGA to MIL-STD 883 Class B The RTAX4000S device has completed 1,000 hours of high-temperature operating life testing and nearly 80,000 total hours of life testing data to date. |
Military & Aerospace Electronics
October 2007
John McHale |
Phoenix Mars mission uses Actel RTAX-S FPGAs The Phoenix spacecraft includes a Meteorological Station which is used to acquire, process and transmit temperature and pressure data to scientists and researchers back on Earth. |
Military & Aerospace Electronics
May 2005 |
Typhoon fighter uses Actel FPGA TELDIX designers chose a flash-based, single-chip ProASIC Plus FPGA for use in common processor modules for the Eurofighter Typhoon, a swing-role combat aircraft co-developed by Germany, Italy, Spain, and the United Kingdom. |
Military & Aerospace Electronics
September 2009 |
Rugged FPGA for Aerospace and Military Embedded Systems Introduced by Xilinx The Virtex-5Q family of field-programmable gate arrays is for aerospace and military embedded systems involving secure military communications, electronic warfare, aircraft avionics and vetronics, radar technology, and missiles. |
Military & Aerospace Electronics
October 2005
Dan Gardner |
Programmable logic: Understanding the risks in military and aerospace applications With embedded digital signal processing (DSP), random-access memory (RAM) blocks, and microprocessor cores now easily available for use in high-end devices, it is clear that programmable logic will play a bigger role in the mil/aero arena. |
Military & Aerospace Electronics
July 2007 |
Samplify introduces high-speed FPGA-based data-compression technology Samplify Systems is offering the Samplify compression engine for field-programmable gate arrays and Samplify for Windows signal-analysis tool to address the widening gap between ever-increasing digitization rates and the fixed-bandwidth infrastructure. |
Military & Aerospace Electronics
July 2008 |
Xilinx Introduces Large, High-Performance FPGAs for Space Applications Xilinx is introducing radiation-tolerant Xilinx Virtex-4QV field-programmable gate arrays (FPGAs) for space applications in video, audio, radar streams, and packet processing functions. |
Military & Aerospace Electronics
September 2009 |
Curtiss-Wright Debuts FPGA-Based VITA 57 Embedded Computer The ADC513 is designed for demanding military embedded systems that involve direct RF down conversion, digital video surveillance, military signals intelligence, satellite communications, and software-defined radio applications. |
Military & Aerospace Electronics
July 2007
John Keller |
FPGA Integrators Are Still Asking a Lot From Design and Development Tools Tools that enable systems designers to alter and control the functionality of field-programmable gate arrays have improved substantially over the past few years, yet FPGA users still are looking for improvements. |
IEEE Spectrum
March 2008
Sally Adee |
Q & A With: Actel CEO John East Actel CEO John East explains how low-power chips can save the world. |
Military & Aerospace Electronics
November 2006 |
FPGA Market to reach $2.75 billion by decade's end Field-programmable gate-arrays find applications across the spectrum of electronic-system design, from basic glue logic at the lower densities, to high-complexity, ASIC-type devices at the high-density end, analysts say. |
Military & Aerospace Electronics
February 2009
John McHale |
Flexibility, Low Power Drive Mixed-Signal ICs, Whether an FPGA or Custom ASIC Industry experts still debate the field programmable gate array (FPGA) vs. custom application specific integrated circuit (ASIC) argument, but designers of both devices agree that flexibility and power efficiency drive current mixed-signal designs. |
Military & Aerospace Electronics
October 2006
John McHale |
FPGAs Enhance Military Signal-Processing Applications Field-programmable gate arrays have become commonplace on signal-processing boards for defense applications such as radar and sonar. The devices promise even more capability down the road, especially in communications technology such as software-defined radio. |
Military & Aerospace Electronics
July 2005
Ben Ames |
FPGA companies will design supercomputer Over the next two years, the FPGA High Performance Computing Alliance, a group of technology companies and academics, will design and build an FPGA-based super computer capable of achieving processing speeds in excess of one trillion floating-point operations per second. |
Military & Aerospace Electronics
October 2007
John McHale |
FPGAs enable signal processing Field-programmable gate arrays are becoming the choice of systems designers over their longtime preference of digital signal processing hardware. |
Military & Aerospace Electronics
February 2006
John McHale |
Microprocessor IP cores battle obsolescence Intellectual-property cores enable designers to control their own destiny, plan on 10-to-15-year lifecycles, and get all the advantages of COTS chips without the disadvantage of obsolescence. |
