- Radar and EW trends and challenges
- AMD Versal ACAP technology featuring the AI Core series
- Faster processing and performance than traditional FPGAs
- SWaP-focused, OpenVPX and SOSA-aligned AI Core device modules on the market
This webinar talks about the advantages of direct RF compared with traditional superheterodyne systems, whe...
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Join Dr. Bill Conley as he discusses potential applications of military 5G; near- and far-term uses of military 5G; enabling technologies for military 5G; and R&D to enable military 5G technologies
This webinar talks about the advantages of direct RF compared with traditional superheterodyne systems, where it is today and its technology roadmap, and its possibilities for the embedded industry.
Mercury and other industry experts discuss radar innovations, accelerating mission success with proven commercial technologies, and meeting the most demanding processing requirements.
Join Mercury Systems as they discuss the technologies and processes required to deliver leading performance at chip scale.
Mercury and NVIDIA are bringing the power of low-latency, enterprise-class computing to the harshest environments on earth – at sea, on land or in the air.
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.
For the first time in the market, there is an affordable, scalable ruggedized all-flash network-attached data storage solution purpose-built for challenging mission-critical applications.
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.
This webinar examines performance characteristics with an eye towards the best match for processing and high bandwidth data movement for critical embedded applications.
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
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.
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.
Take advantage of GPU data processing and AI/ML capabilities at the tactical edge by managing the challenges of extreme environment operation, SWaP-constrained platforms, and mitigating security risks
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
Military Embedded Systems interviews Rodger Hosking and Neal Austin from Mercury Systems about the Pentek acquisition and how it impacts Mercury's SOSA portfolio.
The Open Group Sensor Open System Architecture, known as the SOSA™ Technical Standard, applies a modular open systems approach (MOSA) to high-performance defense sensor systems such as radar, electron
Intel and Mercury discuss building rugged, open, DAL-certifiable processing boards and subsystems for mission systems and AI workloads.
Handling AI, SIGINT or compute-heavy workloads that require moving data at real-time speeds? Learn about our all-new RES XR7 rugged rack servers with Intel’s latest 3rd gen Xeon Scalable processors.
Eliminate bottlenecks, process, store and move huge volumes of sensor data at 5G speeds and accelerate time to insight for all of your compute-hungry applications with RES XR7 rugged rack servers.