Mercury Systems is partnering with Intel to develop high-performance, ruggedized edge computing solutions capable of bringing computational power where it's needed: close to the data source. Using the latest Intel® Xeon® Scalable processors and Intel® Distribution of OpenVINO™ toolkit, Mercury Systems has created servers and OpenVPX systems that allow mission-critical edge computing tasks to be carried out under the harshest of environmental conditions.
Learn about the SOSA Consortium and the VITA organization, how they interact to address challenges and defi...
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Direct RF technology disrupts traditional acquisition techniques, delivering huge speed and processing advancements. Learn how direct RF affects the world of EW, radar and signal intelligence.
Mercury's Rodger Hosking joins David Tremper, Director, Acquisition Integration and Interoperability, Office of the Undersecretary of Defense (OUSD) and industry experts for the MOSA virtual summit.
Join Mercury's Bob Sgandurra, Senior Principal Product Manager, to discuss some of the latest and most advanced enabling technologies for EW today and what is expected in the future.
PCIe 5.0 protocol benefits a new generation of rugged, deployable application platforms with doubled bandwidth and is an integral part of the latest devices from industry giants, Intel and NVIDIA.
Listen to experts involved in the SOSA Consortium and the standard’s development discuss the elements of conformance to the Technical Standard, the upcoming 1.0 release, and the certification process
Today's pace of technology development means the traditional approach of custom-designed modules and subsystems is too slow, but Modular Open System Architecture (MOSA) approaches can deliver on...
Optimized to solve the most advanced radar, cognitive EW and AI challenges, learn how Mercury ’s ACAP-engineer-to-engineer designer’s journey is intended to assist other development teams.
SWaP-optimized and ruggedized for operation in harsh environments, learn how Mercury ’s ACAP-based solutions will bring new levels of application capability to the tactical edge.
Online panel discussions regarding the future of radar in the defense community.
Xilinx's new RFSoC brings a powerful and unique solution for addressing some of the most demanding requirements of high bandwidth and high channel count systems.
Electronic battlefield complexity is a growing challenge. New, more sophisticated RF processing capabilities must be rapidly developed and deployed to operate successfully in contested environments.
You can’t open an industry magazine or visit a website without seeing news about SOSA, open standards and their adoption. Read more about SOSA - its origins, benefits and what's next.
Discover the perfect platform for integrating Mercury's RFSoC-based Quartz products with other third-party content, such chassis and backplane, 40 GbE switch, SBC and chassis manager.
Learn about the SOSA Consortium and the VITA organization, how they interact to address challenges and define successful strategies, along with illustrative examples of SOSA-aligned products.
Using technologies like high-bandwidth memory, high-bit-rate optical interfaces and gigabit serial protocols to address processing and memory demands in modern military systems
Learn how Mercury builds products with varying degrees of enhanced durability to operate under extreme environmental conditions, including repeated temperature cycling over wide temperature ranges.
Learn how Mercury and Intel collaborate to scale and deploy composable data center capabilities across the fog and edge layers with high performance embedded computing (HPEC)
Discover how early collaboration between Raytheon Missiles & Defense (RMD) and Mercury Systems, to build the next-generation radar for the U.S. Army, led to LTAMDS success.
Xilinx and Mercury are working together to deliver up to 20× more processing power closer to the edge. Join our webinar, moderated by John McHale from Military Embedded Systems, read abstract-