Ruggedization of Electronics for Deployed Military Environments
Some environmental constraints for deployed military computing systems are operational temperature, humidity, sand, dust, vibration, shock/basic, leakage (immersion), steam and water jet cleaning, rapid decompression, contamination by fluids (e.g. oil, fuel, cleaning), nuclear hardness, and input voltage.
Curtiss-Wright Enhances MIL-grade Rugged SFF Computer with Industrial-Grade NVIDIA Jetson AGX Xavier for AI/ML/Edge Computing
Parvus DuraCOR AGX-Xavier delivers high-performance NVIDIA GPU-accelerated processing and deep learning engines in ultra-rugged SFF mission computers designed for extreme aerospace and defense applications.
Curtiss-Wright Boosts Ruggedization of 6U OpenVPX Module with New Eight-Core Intel Xeon W-11000E Series Processor
VPX6-1961 SBC features the just announced eight-core Intel Xeon W-11000E Series processor, qualified to deliver significant advances in integrated graphics and accelerated AI/ML processing at extreme temperatures and under demanding shock and vibration co
Curtiss-Wright Expands Family of Rugged A-PNT Solutions for Military Ground Vehicles with Introduction of Vehicle Computer/Switch
New A-PNT vehicle computer and Gigabit Ethernet switch provide Chip Scale Atomic Clock, Inertial Measurement Unit and direct connection to real-time Global Positioning System (GPS).
Sensor Open Systems Architecture (SOSA): Enabling the Next Generation of Flexible and Adaptable Radar Systems
In order to keep up with the continued acceleration of new technology and to be able to protect the warfighter from the latest threats, it is essential that we can turn our deployed platforms into adaptable entities that can evolve over time and are not static. The SOSA [Sensor Open Systems Architecture] Technical Standard is the next major step in realizing this goal.