Airborne and Mission Computers

Avionics and mission computing subsystems that tackle complex aerospace workloads and streamline safety certification

Explore Airborne and Mission Computers

ROCK 4 Compact Mission Computing, BUILTSAFE™

ROCK 4 Compact Mission Computing, BUILTSAFE™

Small and powerful mission computers with 11th Gen Intel Core i7 CPUs that bring AI to the Mission

JARVIS Modular Mission Computing, BuiltSAFE™

JARVIS Modular Mission Computing, BuiltSAFE™

Software-defined mission computing that saves millions of dollars in lifecycle and maintenance costs…

ROCK-2 3U OpenVPX Mission Computer, BUILTSAFE™

ROCK-2 3U OpenVPX Mission Computer, BUILTSAFE™

DO-178C/DO-254 certifiable 3U OpenVPX modular subsystem

AMMP 3U SOSA Aligned Mission Computer, BuiltSAFE™

AMMP 3U SOSA Aligned Mission Computer, BuiltSAFE™

The first safe, SOSA aligned mission computer with 40x more performance

AMP3311 Mission Computer

AMP3311 Mission Computer

Rugged COMe mission computer that supports maps with integrated GPS, HD/SD video processing, data…

AMS7102 Mapping System

AMS7102 Mapping System

Mapping system with fire mapping, street data, topographic views, VFR/IFR and nautical charts

EU_BoardingAirplane.jpg

Proven BuiltSAFE™

Mercury airborne and mission computers are architected with Mercury's proven BuiltSAFE™ commercial-off-the-shelf (COTS) elements and artifacts that have been tested, certified and fielded  over three decades and meet the highest Design Assurance Level (DAL) objectives of DO- 178C and DO-254.

Modular and reusable, BuiltSAFE technologies maximize interoperability and speed technology refresh by minimizing the need  for recertification. Learn more about the importance of design assurance in this blog post

Flight-Proven

Deploy Faster with Risk-Free Computing

Our safety-certifiable solutions are delivered with proven DAL artifacts that streamline the certification process and reduce malfunction risk for airborne applications.

LEARN MORE

Modern Technology

Certifiable AI for Autonomous Flight

Our scalable and safety-certifiable subsystems maintain competitive advantage and preempt future threats by bringing the latest commercial technologies to rapid, agile and autonomous missions.

LEARN MORE

Purpose-Built

Execute Airborne Missions with Confidence

Our power-efficient, rugged and compact subsystems preserve aircraft power resources and perform during demanding flight missions.

Case Study

Mid-Air Autonomous Refueling for Airbus

Challenge: A computer that enables safe, accurate and autonomous in-flight refueling without incident.

Solution: Mercury’s compact, DO-178/254 mission computer uses real-time video data to guide successful connection.

VIEW CASE STUDY

DISCOVER MORE

White Paper: Achieving Full Spectrum Dominance with DRFM Technology

DRFM-based radar environment simulators and radar target generators are efficient, cost-effective...

Case Study: AI in the Sky: Changing How Aircraft Refuel Midflight

Mercury's Drogue Tracking System (DTS) provides a solution for U.S. Navy pilots for safer and...

Case Study: Future-Forward Radio Capabilities for Aging Aircraft

The U.S. Air Force received new solutions for platforms like the F-16 fighter that require...

Article: The role of image and video processing

Image processing technology allows military aircraft to operate in past prohibited areas....