Curtiss-Wright Defense Solutions today announced that its rugged COTS (Commercial-of-the-Shelf) single board computer (SBC) and graphics display modules will be featured in a live demonstration of a Glass Cockpit developed using Curtiss-Wright’s open-standards based hardware and SYSGO’s PikeOS operating environment at Aviation Electronics Europe 2017. The Glass Cockpit Demo, hosted in SYSGO’s booth (Booth #C6), will feature the VPX3-133, a rugged 3U OpenVPX™ SBC, coupled with an AMD® Radeon® E4690 XMC-715 high performance graphics processor mezzanine card. The VPX3-133 will be running PikeOS, SYSGO’s microkernel based hypervisor and safety-certifiable real-time operating system (RTOS).
The demonstration, which will also feature CoreAVI graphics drivers and ANSYS SCADE System software, highlights a proven single-slot solution for quickly integrating avionics applications using high-performance COTS hardware. For customers seeking safety certifiable COTS hardware, Curtiss-Wright offers a wide range of subsystems and SBC, graphics and I/O modules needed to develop a complete DO-254/DO-178 certifiable solution. For applications that require higher graphics performance, Curtiss-Wright also offers the VPX3-716, an AMD Radeon E8860-based 3U OpenVPX Graphics Processing Unit (GPU) and the VPX3-719, which adds HD-SDI interfaces and video capture capabilities.
“Curtiss-Wright continues to lead the rugged embedded COTS industry in developing cost-effective avionics modules for the aerospace and defense markets,” said Lynn Bamford, Senior Vice President and General Manager, Defense Solutions division. “As this Glass Cockpit demonstration shows, integrators can quickly and cost-effectively develop high performance open standards-based solutions built to deliver optimal performance for critical harsh military and commercial avionics applications.”
More information at www.sysgo.com/avionics
About the Curtiss-Wright Corporation
Curtiss-Wright Corporation is a global innovative company that delivers highly engineered, critical function products and services to the commercial, industrial, defense and energy markets. Building on the heritage of Glenn Curtiss and the Wright brothers, Curtiss-Wright has a long tradition of providing reliable solutions through trusted customer relationships. The company employs approximately 8,000 people worldwide.
For more information, visit www.curtisswright.com
Curtiss-Wright’s Defense Solutions division: www.curtisswrightds.com
About the VPX3-133 Single Board Computer
Curtiss-Wright’s VPX3-133 rugged 3U OpenVPX™ SBC features NXP®'s quad-core QorIQ™ T2080 Power Architecture® processor. It combines the performance and the advanced I/O capabilities of NXP's QorIQ quad-core AltiVec™-equipped 64-bit processor with an extensive set of I/O that provides an extremely powerful processing solution for SWaP-constrained environments. The SBC delivers a high level of computing functionality in the small 3U standard form factor with low power (37 watts) while providing industry leading I/O flexibility. Available in either air-cooled or conduction-cooled variants, the SBC’s integral high-speed backplane fabrics and XMC mezzanine module connectivity support multi-GBps data flows from board-to-board, both through the VPX3-133's backplane interface and from the backplane to its XMC site. The board is designed to deliver the high bandwidth processing needed to handle the acquisition, processing, and distribution of sensor data required by demanding defense and aerospace applications such as video, radar, and sonar. The VPX3-133 is equally well suited for use as a mission computer, display computer, or in SIGINT and motor control applications.
About the XMC-715 Graphics Controller
The XMC-715 rugged COTS graphics engine significantly speeds and reduces the cost of developing critical aviation applications on any platform that requires high performance graphics and video processing. Powered by an AMD Radeon™ E4690 GPU, this graphics module supports dual independent video display channels with DVI and analog output formats. It eases and speeds the integration of 2D/3D graphics displays into deployed airborne systems that require optimal performance, even in the most harsh environments.