It's nearly impossible to use power efficiently enough to eliminate waste heat altogether. Enhancing efficiency can help reduce waste heat -- but only to a degree.
Is Thermal Management up to the High-performance Computing Challenge?
Embedded computing designers squeeze the most out of conduction, convection, and liquid cooling, and look to the future of disaggregated architectures and 3D printing.
Artificial Intelligence and Machine Learning for Unmanned Vehicles
Military experts are developing new enabling technologies to help unmanned aircraft, ground vehicles, submarines, and surface vessels swarm and make decisions without human intervention.
The Evolution of Embedded Computing Chassis, Backplanes, and Enclosures
High data throughput and innovative thermal management may lead to a revolution in systems design that places the burden of electronics cooling on the enclosure more than on the card.
The Future of Artificial Intelligence and Quantum Computing
Size, weight, power consumption, and cooling technologies today block quantum computing from the embedded world, but new generations should yield advances in artificial intelligence and computer security.
Efficient execution is key to real-time mission-critical operating systems software, yet new demands are emerging such as safety-critical operations for avionics and other life-critical applications.
The wave of commercially developed communications and remote-sensing satellites seeks to balance costs, capability, size, weight, and power consumption in the latest new space designs.
In the defense industry, AI is on the path to becoming a loyal companion to the warfighter and manufacturers alike. As technology progresses, so does the range of defense capabilities that AI could not only supplement but eventually manage.