The Navy’s Common Display System is one of the first systems designed to fully implement multiple independent security levels on an open architecture platform. Discover how Mercury's innovative, scalable HD modular blade servers was a perfect fit in satisfying program requirements.
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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.
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The NSA Type 1 encryption program has a rich and complex history, shaped by evolving threats, technological advancements, and the need to protect classified information.
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Encryption is a critical component of data security, providing a reliable method for ensuring the security and confidentiality of sensitive data for government, defense, and aerospace...
31:17AI at the Tactical Edge: Securing Machine Learning for Multi-Domain Operations
Mercury Systems, NVIDIA and SigmaX are securing machine learning for multi-domain operations with agile edge servers and cloud-native open software stacks that streamline deployment in theater.
23:59AI at the Tactical Edge: Protecting Machine Learning with Data Security
Mercury Systems and Intel are working together to design secure AI edge solutions to protect data and machine learning in the field.
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Mercury's rugged #edge servers accelerate compute-heavy mission-critical applications like artificial intelligence (#AI), signals intelligence (SIGINT), virtualization and #bigdata analytics. Purpose-
White Paper: Mercury Assured: Trust that delivers uncompromised solutions to our customers
Learn how Mercury delivers uncompromised secure, and trusted solutions using a foundation based on Mitre's Deliver Uncompromised: Securing Critical Software Supply Chains
Strengthening cybersecurity at the edge: Intel and Mercury talk multilayered security
Taking secure computing to the tactical edge requires a built-in multilayered security approach from system startup to system availability. Listen in as experts from Mercury Systems and Intel...
Finding New Supply Chain Muscles in a COVID-19 World
While I’ve tried to refrain from using the new cliché “these are unprecedented times,” I cannot think of a better way to describe what we are facing with COVID-19. Like the other functions within...
Safe AND secure avionics? You can do that? Yup!
Although we all love connectivity and the benefits it brings us, there is a downside. By now, we’ve all heard about cars that have been hacked. Wired magazine even has an entire section of their...
Can GPS be Trusted? Part 3
In part 3 of our blog series learn about VICTORY and how complementing PNT systems can be combined together in a military vehicle and integrated with other military ground vehicle systems
Military-Grade Secure Solid State Drives Part 5: The Backdoor VIPs Don’t Know About
I used to work for a company that required us to remove any proprietary data from our laptop hard drive prior to traveling to some countries overseas. I didn’t know if it was because they could...
This is not a drill: Preparing for a severe cyber storm
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...
White Paper: Processing Evolution for the Future Electronic Battlespace
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.
Can you trust your computer? Three ways your system may already be unsafe
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.
There is a gap within the community for reliable providers of secure, scalable and affordable subsystems that can support critical programs. Learn how we fill this gap with our "built-in" security.
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
White Paper: Enabling big data processing and AI-powered everything, everywhere
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)
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.
White Paper: Cloud-Scalable Cross-Domain Solutions for an Evolving Battlefield
Learn about security domains, how traditional cross-domain solution (CDS) pose cybersecurity risks and how a new CDS model using FPGAs can mitigate this risk and support modern IoT, AI and 5G.