Features NVIDIA TX2 with 6-core 64-bit Armv8 processor, NVIDIA Pascal GPU, double the RAM/Flash memory, and addition of vehicle CANbus interfaces.

Performance is all about eliminating bottlenecks to minimize latency and maximize throughput. To maximize overall system performance requires the fastest, most efficient processor-to-processor data paths.

There is significant commonality between unmanned aerial vehicle (UAV) and UUV environments with standard rugged military commercial off-the-shelf (COTS) embedded solutions often applicable to both.

Introducing the Smart Backplane subsystem (KAM/CSB/12U), a rugged multi-slot chassis designed specifically for data acquisition, data processing, and recording in radiation-intensive space environments.

Smart Backplane is the Space Industry’s first rugged COTS-based chassis qualified for reliable data acquisition in space radiation environments.

HENSOLDT’s new Sferion Configurable and Safety-Certifiable Mission Computer supports aviation safety standards RTCA DO-254 / DO-178C and EUROCAE ED-80/ED-12C with Curtiss-Wright OpenVPX Modules and CoreAVI Graphics Drivers.

Curtiss-Wright Delivers High End Processing in Small Form Factor Rugged Mission Computer Powered by Quad-Core 6th Gen “Skylake” Intel® Mobile Xeon®

New KAD/ADC/128 Microgravity Accelerometer Module delivers the performance of costly custom solutions at a fraction of the price.

Radar and other digital processing systems are by their very nature complex and challenging to configure.

Curtiss-Wright will provide its Smart Backplane radiation tolerant COTS electronics data acquisition technology.

Tammy Carter from Curtiss-Wright Defense Solutions looks at the questions a system designer should ask when selecting tools for a High performance embedded computing (HPEC) system.

The general-purpose graphics processing unit - GPGPU for short - represents perhaps the most revolutionary leap in computer processing capability in decades for aerospace and defense applications.