Showing 1 - 12 of 13
Curtiss-Wright Debuts Industry’s First Safety Certifiable OpenVPX SBC to Feature the NXP 16-Core Layerscape LX2160A Arm Processor

Curtiss-Wright Debuts Industry’s First Safety Certifiable OpenVPX SBC to Feature the NXP 16-Core Layerscape LX2160A Arm Processor

New V3-1708 SBC features 16-Core 64-bit Arm Cortex®-based module to deliver DO-254 DAL-A with FAA/EASA AC/AMC 20-152A compliance.

06/02/2021
Curtiss-Wright Announces New NVIDIA Quadro Turing TU104/106 GPGPU Processor Modules for ISR/EW and AI Applications

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.

12/03/2019
Curtiss-Wright Revitalizes Legacy VME Systems with New Intel 8th Generation Xeon E Series-Based SBC

Curtiss-Wright Revitalizes Legacy VME Systems with New Intel 8th Generation Xeon E Series-Based SBC

VME-1910 SBC brings the highest performance multi-core processing and advanced security features to legacy VME systems.

11/14/2019
Curtiss-Wright Debuts Industry’s First Arm-based 3U VPX SBC Designed for DO-254 Safety-Certifiable Avionics Applications

Curtiss-Wright Debuts Industry’s First Arm-based 3U VPX SBC Designed for DO-254 Safety-Certifiable Avionics Applications

Curtiss-Wright debuts the industry’s first Arm®-based 3U VPX Single Board Computer-designed for DO-254 safety-certifiable avionics applications.

03/01/2018
New 24-Port VME Gigabit Ethernet Switch Module Modernizes Systems with Enhanced Security and Lower Power

New 24-Port VME Gigabit Ethernet Switch Module Modernizes Systems with Enhanced Security and Lower Power

VME-690 GbE Switch provides pin-compatible upgrade, interface configuration flexibility, and reduced power consumption.

12/01/2017
Curtiss-Wright Takes Ultra-Small Mission Computer Performance to New Heights with Upgraded 1.5 Teraflop Supercomputer-Class Armv8-based Architecture

Curtiss-Wright Takes Ultra-Small Mission Computer Performance to New Heights with Upgraded 1.5 Teraflop Supercomputer-Class Armv8-based Architecture

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

04/26/2017
Curtiss-Wright COTS Modules for Avionics Featured in Glass Cockpit Demo with SYSGO’s PikeOS RTOS at Aviation Electronics Europe

Curtiss-Wright COTS Modules for Avionics Featured in Glass Cockpit Demo with SYSGO’s PikeOS RTOS at Aviation Electronics Europe

Highlight’s SYSGO’s PikeOS, CoreAVI’s OpenGL stack, and Esterel SCADE Display with Curtiss-Wright’s VPX3-133 single-board computer

04/25/2017
Curtiss-Wright COTS Modules for Avionics Featured in Glass Cockpit Demonstration with SYSGO’s PikeOS Hypervisor/RTOS at Embedded World

Curtiss-Wright COTS Modules for Avionics Featured in Glass Cockpit Demo with SYSGO’s PikeOS RTOS at Embedded World

Curtiss-Wright COTS modules for avionics featured in Glass Cockpit Demonstration

03/14/2017
Curtiss-Wright Debuts Next Generation Quad-Core Power Architecture Single Board Computer

Curtiss-Wright Debuts Next Generation Quad-Core Power Architecture Single Board Computer

New, dual threaded 64-bit AltiVec-enabled VPX6-197 SBC features a quad-core T2080 processor, delivers 1.8 GHz non-throttling processing performance with only 42 watts of power dissipation.

01/09/2017
Curtiss-Wright Raises the Bar on Ultra-Small Mission Computer Performance with new Teraflop+ Supercomputer-Class Armv8-based Architecture

Curtiss-Wright Raises the Bar on Ultra-Small Mission Computer Performance with new Teraflop+ Supercomputer-Class Armv8-based Architecture

Curtiss-Wright announces new DuraCOR 312 the industry's most powerful, compact COTS mission computer weighs only 1.5 lb. Yet features a 4-core 64-bit Armv8 processor, 256-core GPU and comprehensive base I/O (including Ethernet, serial, USB, DIO and video ports)

11/16/2016
Curtiss-Wright’s New FPGA-based VME Interface Combats Obsolescence

Curtiss-Wright’s New FPGA-based VME Interface Combats Obsolescence

Curtiss-Wright's new VME64x Interface replaces the Tempe device with a long-life reconfigurable FPGA solution in order to combat obsolescence.

03/14/2016
Curtiss-Wright's New T2080-based VME Single Board Computer Delivers Big Boost in Performance at Reduced Cost

Curtiss-Wright's New T2080-based VME Single Board Computer Delivers Big Boost in Performance at Reduced Cost

Curtiss-Wright's new T2080-based VME SBC features an NXP® Power® Architecture T2080 Processor backed with an FPGA-based VME Interface. Read more here!

03/14/2016