We all know of large, precision-guided weapons. Weighing in at about 3,000 pounds and with a unit price over $1M, the latest generation cruise missiles can be launched from the safety of a ship and travel over 1,000 miles with the necessary precision to minimize collateral damage. These missiles include advanced electronics such as datalinks, radar altimeters, inertial guidance, and digital processing. While they represent the culmination of decades long technology development, an emerging need for smaller precision-guided munitions is forcing the defense electronics industry to find novel ways of building extremely compact, but also modular, systems. Developing a precision-guided capability small enough to fit into a munition that weighs less than 0.1% of a cruise missile, all for a fraction of the cost, requires a new approach built from the ground up.
This white paper answers a national defense imperative, "How do we put technology into the hands of our sol...
Many of our embedded sensor processing solutions support built-in MOTS+ for extreme ruggedness and BuiltSECURE nation-state level systems security engineering.
Our rugged packaging and effective cooling technologies are OpenVPX-compliant, SOSA-aligned building blocks designed to reduce your processing subsystems pre-integration risk, cost and schedule.
Devon Yablonski -Principal Product Manager, Sensor Processing NVIDIA GTC - November, 2019
Maximizing FPGA processing and channel density in SWaP-constrained EW applications through accurate thermal modeling
Uncompromised data center processing capability deployable anywhere Evolving compute-intensive AI, SIGINT, autonomous vehicle, Electronic Warfare (EW), radar and sensor fusion applications require...
How the most innovative embedded cooling technologies compare.
Introducing the technologies developed by Mercury Systems & Intel that enable the best commercial data center processing capabilities to migrate across smarter fog and edge layers.
This white paper describes AI and cognitive computing (CC) and introduces the underlying largely commercially developer IP that enables them.
Microwave and digital open-architecture transceivers in 3U and 6U form factors plus high-performance rackmount converters up to 40HGz with a 2GHz IBW
How to affordably decrease safety critical processing subsystem development time and program risk using DO-178 / DO-254 certifiable off-the-shelf building blocks.
Our expertise and experience in Design Assurance Level (DAL) safety-certifiable solutions has been built on successful execution on dozens of programs over three decades.
Comparing server-class devices for Space Time Adaptive Processing (STAP) applications.
Military digital transformation enables platforms to shrink and become more capable and adaptable for mission autonomy.
This white paper answers a national defense imperative, "How do we put technology into the hands of our soldiers faster."
Although we all love connectivity and the benefits it brings us, there is a downside. By now, we’ve all heard about cars that have been hacked. Wired magazine even has an entire section of their...
Mercury acquires Geco’s integration, test and software capabilities to produce mission-critical aerospace processing solutions requiring proven security and flight safety certification.
Mercury, contracted by Airbus D&S is supplying processing subsystems as part of the EGNOS common computing platform.
This white paper describes the contemporary challenges facing all airborne integrators as they leverage next generation technology for airborne mission critical operations.
A comprehensive look at how a Next Generation Business Model can be purpose-built to meet the challenges we and our allies face.
Our approach to building products for enhanced durability under extreme environmental conditions, including repeated temperature cycling over wide temperature ranges.