Airborne

This paper first discusses advanced capabilities that enhance LCD technology and then reviews business factors to consider when selecting or specifying display systems.

By working at the chip level and leveraging new 2.5D system-in-package capabilities, designers can combine complex semiconductor dies into a single component while maintaining trust and security.

This paper investigates both the large area display architecture with available options to solve redundancy, as well as, beam steering techniques to limit canopy reflections in bubble canopy cockpits.

The real-time processing of data requires fastest FPGA devices and multicore processors. These devices cannot provide peak performance without highly dense and high-speed DDR4 and DDR5 memory.

Commercial digital convergence has created converged media, information systems, smartphones and autonomous vehicles. Digital convergence now has a proven roadmap behind it and is enabling...

This white paper describes AI and cognitive computing (CC) and introduces the underlying largely commercially developer IP that enables them.

Scaling and deploying composable data center capabilities across the fog and edge layers with high performance embedded edge computing (HPEEC).

At a high level, the vast majority of contemporary compute processing hardware may be divided into two domains: powerful data center processors and smaller, embedded devices.

How to affordably decrease safety critical processing subsystem development time and program risk using DO-178 / DO-254 certifiable off-the-shelf building blocks.

DO-254 is a document developed under the guidance of the RTCA that establishes "Design Assurance Guidance for Airborne Electronic Hardware."

Our expertise and experience in Design Assurance Level (DAL) safety-certifiable solutions has been built on successful execution on dozens of programs over three decades.

Mercury, contracted by Airbus D&S is supplying processing subsystems as part of the EGNOS common computing platform.