Lockheed Martin Flight Tests Direct RF Gen12 Transceiver on Group 2 Drone

A Group 2 drone flies over the U.S. Army’s Yuma Proving Ground to conduct the SHIP-enabled Wideband Transceiver Integrated Flight Test (SWIFT) demonstration. (Image: Lockheed Martin)

Lockheed Martin in collaboration with Altera, an Intel Company, completed a successful flight demonstration of our 12th Generation Electronic Warfare (Gen12) transceiver utilizing Altera’s Agilex 9 Direct RF FPGA (Multi-Chip Package, MCP-2).

The project, coined SWIFT (SHIP-enabled Wideband Transceiver Integrated Flight Test) by the Office of the Under Secretary of Defense for Research and Engineering (OUSD-R&E), established an aggressive requirement for Lockheed Martin to perform an electronic warfare flight demonstration utilizing Altera’s FPGA aboard a Group 2 Unmanned Air Vehicle (UAV) in less than 12 months.

Conducted at the U.S. Army’s Yuma Proving Ground, the SWIFT demonstration represented the first time Lockheed Martin used the Altera Direct RF FPGA in a government test environment, showcasing the device’s readiness to perform real-world missions. The event successfully proved the Gen12’s Electronic Support (ES) capability by performing the detect, identify and locate mission against real enemy emitters in a Department of Defense (DoD) relevant environment.

Through the success of this demonstration, Lockheed Martin and Altera proved how size, weight and power (SWaP) constrained airborne platforms can be utilized to deliver electronic warfare effects, while also allowing growth for new capabilities. The technology enables a low SWaP, Sensor Open System Architecture (SOSA) aligned digital transceiver that performs the Electronic Support (ES) and Electronic Attack (EA) missions using domestically produced semiconductors.

This demonstration serves as a proof point for the importance of OUSD-R&E State-of-the-Art Heterogeneous Integrated Packaging (SHIP) program and the ongoing need for sustainable U.S.-made microelectronics packages customized for DoD applications.

The SHIP program focuses on the development, delivery and eventual transition of microelectronics devices into DoD systems. The SHIP program’s objective is to create U.S.-made, trusted microelectronics that enable significant SWaP reductions in DoD systems. The SHIP program is part of a broader effort to enhance U.S.-based, secure and economically viable capabilities to support critical warfighting missions.

As part of the SHIP program, multiple MCP devices were created in record time by Altera. Lockheed Martin was the early access partner for the transition of the MCP-2 device through the Stimulating Transition for Advanced Microelectronics Packaging (STAMP) contract.

“This demonstration signifies an important step forward for Lockheed Martin’s strategic partnership with OUSD-R&E and Altera on ensuring warfighter access to state-of-the-art, U.S.-made microelectronics,” said Dr. Steven Walker, Vice President and CTO, Lockheed Martin. “The SHIP program’s transformative influence on DoD capabilities bolsters confidence in these ongoing advancements and paves the way for their integration throughout the military in support of our customers’ most critical missions.”

The success of this demonstration shows promise for continued collaboration with industry and commercial partners using U.S.-built semiconductors to achieve DoD objectives. This technology can be used for future platforms in many different ways depending on the mission at hand.

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