John McHale, Editorial Director, OpenSystems Media
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Arm processors, AI solutions pave PC/104 future paths
The defense industry has been the bright spot for PC/104 suppliers during the economic crisis brought on by the COVID-19 pandemic, say the participants – PC104 Consortium members – in our annual roundtable. The panelists discuss how artificial intelligence/machine learning applications (AI/ML) will be a growth area for PC/104 technology across multiple markets. They also cover how processing technology like Arm and Intel are key to future adaptations of PC/104 and ask if NVIDIA solutions will ever be found on PC/104 designs. Our panelists are Roy Keeler, Senior Product and Business Development Manager, Aerospace & Defense, ADLINK Technology and Vice President of Branding for the PC104 Consortium; Flemming Christensen, Managing Director, Sundance Microprocessor Technology; George T. Hilliard, Technical Sales Director, WinSystems; and JC Ramirez, Vice-President of ADL Embedded Solutions Engineering (ADLES).
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Unmanned systems, C4ISR funding strong: Good news for small form factors
As threats evolve around the globe, investment forecasts for military application areas such as command, control, communications, computers, intelligence, surveillance, and reconnaissance (C4ISR) applications continue to grow. Boosted military spending benefits makers of small-form-factor embedded computing solutions, as these military applications also have stringent size and weight requirements answered by the smaller devices.
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UAS payloads, radar best bets for military electronics market
"Uncertainty" best describes the current outlook for the U.S. military market, with the next president's positions still somewhat unclear, as is the nation's future defense outlook.Regardless of inertia or doubt in Washington, military program managers and industry engineers must continue to keep the current defense electronics systems in air, ground, and sea platforms running efficiently to ensure continuing military readiness. Moreover, key radar, unmanned, electronic warfare, and other systems must still be modernized. All of this means that opportunities still exist for embedded electronics suppliers.
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Unmanned aircraft leverage PC/104, COM Express, and other small form factors
Unmanned aircraft systems (UASs) continue to shrink in size, as do their payloads, requiring system designers to leverage small-form-factor, embedded-computing standards like PC/104, COM Express, and others.
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DoD budget request funds platforms that leverage small form factors
Regardless of which military trade show I attend or what military application is being discussed at a show, the common trend is that everything is getting smaller, whether it's GPS systems, avionics computers, unmanned aircraft system (UAV) payloads, etc. This trend bodes well for suppliers to the military of small-form-factor standards such as PC/104, COM Express, or SMARC.
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Unmanned aircraft leverage PC/104, COM Express, and other small form factors
While PC/104 has been around for decades it has never been healthier. Its main advantages - ruggedness, compact size, and modularity - have never been more in demand in the military electronics market, especially in unmanned systems.
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PC/104 and small form factors popular in defense electronics systems
Now as SWaP requirements become more prevalent in military electronics system designs, PC/104’s place in this market is more secure than ever.
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PC/104 well positioned in military market
Editorial Director John McHale discusses military embedded computing products becoming smaller, and the effect that has on SFF designers.
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Intel processors - Haswell and Bay Trail - offer multiple benefits for SFF designs
Engineers across markets such as military, aerospace, medical, automotive, etc., are leveraging the performance and power management benefits of Intel’s 4th generation Core processors (Haswell) and Atom E3800 processor product family SoCs (Bay Trail) for their small form factor (SFF) embedded computing designs. The Core’s i7 high-performance attributes are enabling unprecedented performance capability for intensive signal processing functions in radar and medical imaging, while the E3800 family is popular in wearable applications due to its ability to marry performance with significant power savings.
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Defense electronics and 3D printing
The Department of Defense (DoD) is notorious for kicking tires on new technology for years before deploying it in mission-critical applications – and only after rigorous testing. However, with 3D printing they seem to be doing more than kicking the tires.
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