How do you modernize the processing capability of an actively deployed aircraft to enable more efficient sensor data ingest and algorithm execution; while meeting an aggressive project schedule, maintaining the existing envelope, minimizing downtime and ensuring the aircraft passes qualification testing quickly? Early engagement and collaboration of Mercury architects and the customer were vital to designing a powerful electro-optical/ infrared (EO/IR) airborne processing solution able to deliver real-time intelligence.
Learn how Mercury's modular open systems architecture (MOSA) approach to subsystems design provides maximum...
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.
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.
Modern sensors and AI need powerful flight-ready computing, but creating safe multi-core processing systems is difficult to achieve. Learn why Intel-based solutions are suited for AI and FVL.
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.
Did you know your computer could be untrustworthy, even before you take it out of the box? Read more about how trust is compromised through the supply chain and ways you can prevent it.
Learn how Mercury's modular open systems architecture (MOSA) approach to subsystems design provides maximum environmental protection and effective cooling for reliable deployment.
Most of us have heard an aircraft safety demonstration – a short pitch that reminds us to fasten seatbelts, locate emergency exits and set personal electronic devices to airplane mode....
Our servers are designed from the ground up for C5ISR and other mission-critical applications where performance, reliability and availability are crucial. View our entire rugged server offering.
Mercury Systems is partnering with Intel to develop high-performance, ruggedized, and secure edge computing solutions that enable mission-critical applications in the harshest environments.
Learn more on Mercury and NASA manufacturing high-performance ZBLAN optical fibers in space aboard the International Space Station (ISS).
Assurance of DAL flight-safety certification and systems security engineering (SSE) is required to protect systems and mitigate risk for future smart and autonomous platforms
Boeing used Mercury's crash-survivable FAERITO video recorder to gather critical data from test unmanned aerial vehicle flights
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-
The rapid rise of artificial intelligence (AI) has spurred debate in aerospace and defense.
Addressing computing, reliability, space and security challenges found at the tactical edge
Discover how technologies developed by Mercury Systems and NVIDIA scale the best AI-enabling data center processing capabilities to the edge for real-time decision-making.
Cloud-scalable cross-domain solution methodologies, challenges and implementations for rapid, secure and correct information transfer between multiple security domains.
Enterprises supporting the DoD can leverage commercial investment, open systems architectures and internal R&D to speed technology innovation and reduce overall sustainment and investment cost.
Intel and Mercury discuss building rugged, open, DAL-certifiable processing boards and subsystems for mission systems and AI workloads.