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Meet us at Embedded World

Hall 5, Booth 5-471

Embedded World is where autonomous systems move from promise to deployment. For aerospace, defense, and commercial teams, trust is built through how software executes at the edge.

As programs modernize legacy platforms, they require certifiable, mixed-criticality AI across heterogeneous CPU + GPU architectures designed for safety, security, and deterministic behavior.

Lynx enables trustworthy autonomy by controlling execution across CPU and GPU, providing a unified software foundation that supports long-life, mission-critical systems as they transition to modern, heterogeneous compute.

 

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Abstract

"MOSA is critical to modernization." – Secretary of War, Pete Hegseth

Why Meet with Lynx at Embedded World

Modernization is no longer optional, but most programs underestimate the certification, integration, and lifecycle risks of introducing AI and GPUs into mission systems. Autonomous programs must bridge the gap between prototype performance and deployable, certifiable systems. Lynx helps teams address these challenges early with a software foundation purpose-built for certification, integration, and long-term deployment.

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Common Challenges We Solve For A&D and Commercial Systems

  • Deterministic AI on GPUs: Enable high-performance AI inference with predictable, partitioned execution across CPU + GPU workloads.
  • Mixed-Criticality on a Unified Platform: Consolidate AI, graphics, navigation, and safety-critical control on a single SoC while maintaining isolation, timing, and certification boundaries.
  • Path to Deployable Systems: Support a clear, auditable progression from development platforms to programs of record.
  • Early Architectural Clarity: Inform silicon strategy, certification planning, and workload partitioning before design decisions are locked.
      
Safe Mixed-Criticality at the Edge
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Common Challenges We Solve For A&D and Commercial Systems

  • Deterministic AI on GPUs: Enable high-performance AI inference with predictable, partitioned execution across CPU + GPU workloads.
  • Mixed-Criticality on a Unified Platform: Consolidate AI, graphics, navigation, and safety-critical control on a single SoC while maintaining isolation, timing, and certification boundaries.
  • Path to Deployable Systems: Support a clear, auditable progression from development platforms to programs of record.
  • Early Architectural Clarity: Inform silicon strategy, certification planning, and workload partitioning before design decisions are locked.
      
Safe Mixed-Criticality at the Edge

Lynx Success Stories

 

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Airbus A330 Automatic Air-to-Air Refueling (A3R)
 

Fully autonomous guidance and control of a drone was developed and deployed from a tanker aircraft using the Lynx Trusted AI software stack, integrating navigation sensors powered by Lynx’s CoreSuite Safe AI neural network alongside Airbus’ AI model to enable autonomous formation flight, with two simulated drones operating in the vicinity of the A310 MRTT to demonstrate multi-receiver autonomous operations and collision-avoidance algorithms.

Learn More About CoreSuite >


mv-75-over-sea
Bell Flight's FLRAA Program
 

The U.S. Army’s Future Long Range Assault Aircraft (FLRAA) program is redefining vertical lift. At the core of this innovation is LYNX MOSA.ic, the trusted operating environment chosen by Bell Textron Inc. and Lockheed Martin to help power mission system software in the U.S. Army's next generation aircraft.

Learn More About Our Work With Team FLRAA > 

Meet the Team

 

michel-1
Michel Genard
Chief Strategy & Product Officer, Lynx
dan-j
Dan Joncas
Executive Vice President; Strategic Accounts, AI & GPU Technology, Lynx
nico-1
Nico Sfingopoulos
Vice President of Sales, EMEA & APAC, Lynx
Jonas
Jonas Dietsche
Strategic Account Director, Lynx
andrea
Andrea Piras
International Sales Support Manager, Lynx

Lynx Success Stories

 

refueling-curved-1
 
Airbus A330 Automatic Air-to-Air Refueling (A3R)
 
 

Fully autonomous guidance and control of a drone was developed and deployed from a tanker aircraft using the Lynx Trusted AI software stack, integrating navigation sensors powered by Lynx’s CoreSuite Safe AI neural network alongside Airbus’ AI model to enable autonomous formation flight, with two simulated drones operating in the vicinity of the A310 MRTT to demonstrate multi-receiver autonomous operations and collision-avoidance algorithms.

Learn More About CoreSuite >


mv-75-over-sea
Bell Flight's FLRAA Program
 

The U.S. Army’s Future Long Range Assault Aircraft (FLRAA) program is redefining vertical lift. At the core of this innovation is LYNX MOSA.ic, the trusted operating environment chosen by Bell Textron Inc. and Lockheed Martin to help power mission system software in the U.S. Army's next generation aircraft.

Learn More About FLRAA > 
Meet the Team
 
michel-1
Michel Genard
Chief Strategy & Product Officer, Lynx
dan-j
Dan Joncas
Executive Vice President; Strategic Accounts, AI & GPU Technology, Lynx
nico-1
Nico Sfingopoulos
Vice President of Sales, EMEA & APAC, Lynx
Jonas
Jonas Dietsche
Strategic Account Director, Lynx
andrea
Andrea Piras
International Sales Support Manager, Lynx

Let’s Talk at Embedded World

Embedded World provides the opportunity for focused, technical discussions on trusted AI for mission-critical CPU + GPU platforms. Meet with the Lynx team to discuss:

  • Your CPU + GPU roadmap for AI at the edge.
  • How to reduce certification and integration risk early.
  • Deploying AI safely on eVTOL, UAS, and other autonomous platforms.

 
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Stay Connected

Follow us on LinkedIn for onsite updates, partner spotlights, and post-show insights from Embedded World. 

 

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Resources

Lynx CoreSuite 2.0

A complete, certifiable software foundation for safety-critical systems.
Download Datasheet

LYNX MOSA.ic

A modular, mission-ready architecture designed to support long-lifecycle platforms and rapid integration.
Download Datasheet

Lynx: Safe, Secure, Modular Software Platform

Lynx provides a secure, modular edge platform that runs mixed-criticality CPU and GPU workloads while reducing certification and cybersecurity costs and supporting long-term system evolution
Download Datasheet

LynxSecure

LynxSecure is a separation-kernel hypervisor that partitions multicore CPU resources, CPU cores, memory, I/O, and OS, to meet strict safety and security requirements.
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LynxElement

LynxElement delivers deterministic, secure, and certifiable systems by removing unnecessary OS services, dynamic behavior, and hidden scheduling effects.
Download Datasheet