Curtiss-Wright and Concurrent Real-Time Team to Bring RedHawk Linux to the Parvus DuraCOR 312 Mission Computer

Curtiss-Wright and Concurrent Real-Time Team to Bring RedHawk Linux to the Parvus DuraCOR 312 Mission Computer
Redhawk Linux RTOS validated for use with DuraCOR 312, rugged COTS mission computer integrating NVIDIA Jetson TX2i

 

ASHBURN, Va. – November 10, 2020 – Curtiss-Wright’s Defense Solutions division, a proven leading supplier of ultra-small form factor (USFF) mission computing and networking solutions, today announced the validation of Concurrent Real-Time’s RedHawk Linux real-time operating system (RTOS) for use on the Parvus DuraCOR 312, a powerful and highly modular USFF mission computer. The DuraCOR 312 is based on the breakthrough NVIDIA® Jetson™ TX2i “supercomputer-on-a module” and uniquely combines its quad-core Arm8 CPU and 256 CUDA-core Pascal GPU with unparalleled modularity for add-on I/O cards and data storage. The validation of RedHawk Linux, with its unrivaled combination of ultra-low latency, high determinism, and advanced debugging tools, provides system integrators requiring an RTOS with an alternative to NVIDIA Linux® for Tegra (L4T) based on Ubuntu.

“We are very pleased to team with Concurrent Real-Time to test and validate their RedHawk Linux RTOS for use with the Parvus DuraCOR 312 mission computer,” said Lynn Bamford, President, Defense, and Power. “RedHawk Linux provides our customers with expanded operating environments when their application needs a real-time operating system to execute specific tasks reliably, consistently, and predictably.”

“Our RedHawk Linux real-time operating system with the Parvus DuraCOR 312 mission computer provides a best-in-class technology platform to help get mission-critical applications to market and satisfy customer demand,” said Ken Jackson, President, and CEO, Concurrent Real-Time.

The commercial-off-the-shelf (COTS) DuraCOR 312 is ideal for use on SWaP-sensitive deployed platforms such as civil and military ground vehicles, fixed and rotary-wing aircraft, and maritime vessels (both autonomous and manned), that require in-vehicle tactical mission processing (server/computer) or C4ISR technology. It delivers high-performance embedded computing (HPEC) and general-purpose graphics processing for compute-intensive embedded applications such as ISR/EW/targeting systems and deep learning onboard autonomous vehicles.

Built Rugged for Harsh Environments

The DuraCOR 312 eliminates design risk with extensive environmental, power, and EMI compliance testing. It is the industry’s only NVIDIA TX2i-based COTS mission computer pre-qualified for both MIL-STD and DO-160 harsh environments. The miniature rugged chassis, which features MIL-grade connectors, is designed to meet extremely demanding MIL-STD-810G, MIL-STD-461F, MIL-STD-1275D, MIL-STD-704F, and RTCA/DO-160G environmental, power, and EMI conditions, including high altitude, wide temperature, humidity, extreme shock and vibration, and noisy electrical environments. The unit also provides an aerospace-grade power supply in a fanless IP67-rated mechanical package that operates over extended temperatures and handles harsh shock and vibration.

Unmatched I/O Flexibility

The DuraCOR 312’s combination of multiple Mini-PCIe I/O card slots, removable Flash storage, and internal M.2 NVMe/SATA storage slots helps to make it the most flexible USFF mission computer available. Standard system I/O interfaces include multiple Gigabit Ethernet, USB 3.0, USB 2.0, HDMI, Audio, GPIO, and serial ports. Like other Parvus DuraCOR models, the DuraCOR 312 supports an ecosystem of rugged COTS Mini-PCIe modules (supporting MIL-STD-1553 and ARINC 429 avionics databus interfaces, as well as numerous others). Optional removable 2.5” SATA SSD storage is available for high-capacity storage and information assurance requirements.

Curtiss-Wright’s responsive, cost-competitive application engineering services reduce program risk, cost, and schedule impact for Modified COTS (MCOTS) variants of this system.

The Parvus Family of Miniature COTS Subsystems

The DuraCOR 312 complements Curtiss-Wright’s previously announced miniature Intel®-based DuraCOR 311 mission computer and DuraNET 20-11 Gigabit Ethernet switch.

 

About 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 is headquartered in Davidson, N.C., and employs approximately 8,300 people worldwide. For more information, visit www.curtisswright.com.

About Concurrent Real-Time

Concurrent Real-Time is the industry’s foremost provider of high-performance real-time computer systems, solutions, and software for commercial and government markets. Its real-time RedHawk™ Linux® solutions deliver hard real-time performance in support of the world’s most sophisticated hardware-in-the-loop and man-in-the-loop simulation, high-speed data acquisition, process control, and low-latency transaction processing applications. With over 50 years of experience in real-time solutions, Concurrent Real-Time provides sales and support from offices throughout North America, Europe, and Asia. Visit www.concurrent-rt.com for further information.

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John Wranovics

John Wranovics

Director of Public Relations

John Wranovics has over thirty years of experience in managing media relations and the promotion of high technology products. He has been with Curtiss-Wright since 2003. He has a degree in English Literature from the University of California, Berkeley.