The goal of reducing the cost of equipping Army vehicles with new capabilities, while adding increasing interoperability and flexibility of operation, can be accomplished through the use of a Modular Open Systems Approach (MOSA), a technical and business strategy for designing an affordable and adaptable system.

Mission management systems that meet ever-present size, weight, and power (SWaP) demands while providing the scalability and flexibility to handle all of the mission tasks today’s warfighter may encounter.

Whether looking for a modular, SFF LRU or a scalable VPX system designed to meet your program requirements, Curtiss-Wright computing systems are built rugged to perform optimally in the harshest deployed environments on land, in the air, or at sea.

Deploy Faster with Complete Integrated Mission Management Systems

The military and aerospace market maintains an insatiable appetite for smaller, lighter, and cheaper. Recent technological breakthroughs in SWaP-C reduction have yielded the introduction of USFF mission computer and networking systems.

This video highlights the scalability and the modularity built into our Parvus DuraCOR Mission Computer line.

As unmanned vehicles become more powerful and complex, their electronics payloads must adapt to match new mission objectives. This often forces aerospace and defense system integrators to push for reductions in size, weight, power, and cost (SWaP-C).

In the third paper in our series, we cover additional features of the Dolphin PCIe Fabric Communications Library that help minimizes latency, maximize system bandwidth, and optimize configuration flexibility.

In this second white paper in our two-part series, we present several different software interfaces provided for applications development, comparing their advantages and tradeoffs. Finally, we present performance benchmarks using a variety of Curtiss-Wright.