Poised to reshape the global order, Artificial Intelligence (AI) is rapidly transforming the defense industry by broadening the scope of machine applications and leveling the playing field for nation states looking to gain power on the global stage
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Learn about critical technology for next-gen army vehicle autonomous driving, navigation and advanced teaming capabilities, key computing architectures such as GCIA / CMFF, & security / anti-tamper.
Learn about Mercury's data recorder solutions for sophisticated technologies to manage and analyze vast amounts of data, which is increasingly critical for defense and security operations in space.
DRFM-based radar environment simulators and radar target generators are efficient, cost-effective solutions to methods validating radar systems and electromagnetic environment combat pilot training.
Learn how Mercury Systems is helping the DOD bridge the gap between its MOSA mandate and commercial OCP-based projects and standards with common module systems.
AMD'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.
COTS Software Defined Radio for 5G Development
This white paper describes next generation direct RF to redefine what’s possible in radar and software radio, from jamming to electronic intelligence to significant bandwidth performance.
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.
Mercury and VAST make cutting-edge data center technology available for defense and other harsh-environment applications, enabling low-latency processing, scalability and data security in the field.
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.
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)
Optimized networked-attached GPU distributed processing architecture delivers NVIDIA A100 GPU parallel computing resources over dual 100 Gbit Ethernet network connections without requiring an x86 host
Development Tactics and Techniques for Small Form Factor RF Signal Recorders
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.
Technology is evolving faster than ever. Mercury's business model leverages open standards, commercial technology and R&D investment to drive innovation at a lower cost.
Learn about radar and EW RF system design bottlenecks and how Mercury's new Direct RF system-in-package (SiP) multi-chip module technology solves this problem.
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.
Learn Mercury's rugged OpenVPX board design practices with enhanced durability for operation in military and aircraft environments including extreme heat, altitude, and shock and vibration.
DAL (design assurance) flight-safety certification and systems security engineering (SSE) is required to protect systems and mitigate risk for future smart and autonomous platforms