Curtiss-Wright Introduces Its Highest Performance 3U OpenVPX Digital Signal Processing Engine
SOSA™-aligned CHAMP-XD3 DSP engine with new 10-Core Intel Xeon D-1700 processor delivers more scalable processing power with advanced security features for modern defense systems
Curtiss-Wright Collaborates with NI to Migrate SDR Technology to CMOSS and SOSA Technical Standard Aligned Systems
New VPX3-E320 module is industry’s first fully rugged MOSA-based 3U OpenVPX variant of NI’s popular Ettus Research USRP E320 SDR.
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 Announces New NVIDIA Quadro Turing TU104/106 GPGPU Processor Modules for ISR/EW and AI Applications
New GPGPU modules expand Curtiss-Wright’s family of high-performance embedded computing (HPEC) processors for artificial intelligence (AI) applications.
Curtiss-Wright Showcases Latest Avionics, Vetronics, and Naval Solutions at DSEI 2019
Featured products will include ultra-small form factor mission computers and network switches, rugged high capacity storage solutions - such as the Data Transport System, and size, weight, and power (SWaP)-optimized embedded avionics systems - such as the ultra-lightweight Fortress Crash Protected Recorder.
Curtiss-Wright and General Dynamics Mission Systems Collaborate to Deliver AI-Based Solutions for EW Situational Awareness
A combination of Curtiss-Wright’s CHAMP-XD1 processor module and General Dynamics Mission Systems’ SignalEye software uses machine learning to detect threats in the RF spectrum.