Armed forces around the globe are looking for systems with high performance, low size, weight, and power (SWaP), excellent interoperabilty and cost containment, and strong reliability and security. Suppliers to military, aerospace, and government face increased challenges to deliver such advanced systems on time and within budget. I am providing links to some community posts on this topic that I think are particularly useful:
Blog: Expanding ISR Across the Battlefield
Radar, signals intelligence, and electro optical/infrared capabilities of sophisticated intelligence, surveillance and reconnaissance (ISR) systems require abundant, high throughput, low latency real-time processing power. Learn how Intel® processor-based systems meet these needs.
Blog: Optimizing Mil/Aero Image and Signal Processing
Mil/Aero applications have computationally intensive image and signal processing requirements calling for high levels of floating-point data precision. Learn about the Intel® Advanced Vector Extensions 2 instruction set feature of the Intel® Xeon® processor E5 v3 family.
Blog: Sub-Second Boots for Mil/Aero Applications
See how an Intel® processor boots in half-second by combining the Intel® Firmware Support Package with an optimization of coreboot*, an open source extended firmware platform, and SeaBIOS, an open source implementation of a 16-bit X86 BIOS.
Blog:Extended Temperature Solutions for SFF Mil/Aero
Check out boards that deliver on extended temperature, vibration and shock, as well as size, weight and power (SWaP)- based on the Intel® Atom™ processor E3800 product family, with 1-4 cores, power from 3 to 10 watts and operating temperature range from -40º C to +85º C.
Article: Scalable Standards for Mil-Aero Design
Find out why Intel® processor-based commercial off-the-shelf (COTS) hardware is being deployed everywhere from handheld devices to high-performance computing centers and how to take advantage of this trend.
Article: Optimizing Unmanned Vehicle Thermal Performance
Unmanned vehicles need a leap in efficiency for next-generation missions. Check out a solution that uses the 4th generation Intel® Core™ processor family to boost throughput up to 4x without increasing thermal budgets.
Blog: Unmanned Ground Vehicles Find Their Legs With COTS Hardware
Autonomous UGVs require sophisticated situational awareness, including object detection and avoidance algorithms. Meeting these computational demands requires a thoughtful, multi-pronged approach- which makes a strong case COTS hardware based on Intel® processors
Blog: Optimize HPEC with Linux* and OpenMPI
Read about advancements towards achieving deterministic performance using Linux on cluster architectures in military HPEC applications.
Blog: Mil/Aero Design in a Budget-Constrained World
Facing ever tightening budgets, armed forces worldwide are still need advanced technology to fulfill their missions. Learn how engineers can optimize their development processes – including the use of COTs hardware and software.
Article: Supercomputer Technology Reports for Duty
A single OpenVPX chassis can achieve an incredible 19 trillion floating-point operations per second with the 4th generation Intel® Core™ processor family. Find out how you can bring this high performance embedded computing to deployable systems.
Click here to browse for Military, Aerospace and Government computing solutions (including hardware and software elements of a MAG system) based on Intel® architecture from Intel’s trusted embedded ecosystem, the Intel® Internet of Things Solutions Alliance.
Felix
J. Felix McNulty
Community Moderator
Intel® Embedded Community
(Intel contractor)