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
Our servers are designed from the ground up for C5ISR and other mission-critical applications where perform...
Designing post-quantum cryptography (PQC) is much more than just implementing an algorithm. You need industry-leading solutions that address all aspects of advanced cryptographic development. Read...
Disaggregating processing is now enabling low-latency, network-attached everything at the edge with high-speed Ethernet connectivity, from GPU servers to NVMe-over-fabric storage devices.
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...
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.
For the first time in the market, there is an optimized network-attached rugged distributed GPU processing system purpose-built for challenging AI edge workloads. Join NVIDIA & Mercury to learn more.
Live from the International Armored Vehicle Show in Austin, Texas, discover how Mercury is enabling the #army to get higher performance and #SWaP optimization in a smaller footprint when 3U VPX is not
Mercury subsystems solve big data processing problems for platforms operating at the tactical edge. Our system design and integration experts deliver solutions that meet all your application needs
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.
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
Online panel discussions regarding the future of radar in the defense community.
Development Tactics and Techniques for Small Form Factor RF Signal Recorders
Recording solutions accelerate system development, performance and deployment. Capturing RF signals with precise timing over long sessions is both a necessity and a challenge for success.
Learn all about how Mercury helped the U.S. Coast Guard perform their maritime duties with solutions that processed vast amounts of sensor-generated data to deliver real-time mission-critical insights
Mercury Systems and VAST Federal work closely to deliver a rugged data center-class all-Flash network-attached storage (NAS) system for edge-based data capture and real-time AI application use.
Mercury’s cutting-edge avionics and mission-critical solutions make airspace the safest space to ensure flight and mission success. Open, safe and secure, our solutions enhance awareness and accuracy.
Use the latest technology that allow real-time recording systems to keep up with the ever-increasing speed requirements of wide-bandwidth data capture in modern military systems.
Learn how Mercury's modular open systems architecture (MOSA) approach to subsystems design provides maximum environmental protection and effective cooling for reliable deployment.
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.
Learn how rapid tech insertion enables real-time aircraft sensor processing in an actively deployed aircraft, empowering special operations to evolve to meet mission requirements.