Anduril’s XFQ-44A First Flight Advances USAF Collaborative Combat Aircraft

First Flight of Anduril’s Collaborative Combat Aircraft: A New Era for Air Power

The United States Air Force’s Collaborative Combat Aircraft (CCA) program is poised for a historic milestone as Anduril Industries prepares to launch the inaugural flight of its XFQ-44A prototype in mid-October 2025. This event is more than a technological achievement; it signals a fundamental shift in how the U.S. approaches air superiority, leveraging autonomy and AI to address evolving threats and operational challenges. The CCA initiative, with its vision of deploying over 1,000 autonomous aircraft alongside piloted fighters, stands as one of the most ambitious modernization efforts in recent military aviation history.

As global security dynamics shift and technological competition intensifies, the Air Force’s push for CCAs reflects both strategic necessity and a willingness to disrupt traditional defense procurement models. Anduril’s role, as a Silicon Valley-rooted, venture-backed disruptor, underscores the growing influence of commercial innovation in the defense sector. The XFQ-44A’s progress, particularly its plan for an autonomous first flight, encapsulates the program’s ambition to redefine air combat for the 21st century.

This article explores the genesis of the CCA program, Anduril’s disruptive approach, the technical and strategic implications of the XFQ-44A, and the broader context of next-generation air dominance. Through a fact-driven analysis, we break down what this milestone means for the future of air warfare and U.S. defense innovation.

Historical Context and Program Genesis

The roots of the CCA program trace back to the Defense Advanced Research Projects Agency’s (DARPA) Air Dominance Initiative in 2014. This study highlighted the growing unsustainability of traditional fighter aircraft programs, both in cost and complexity, and recommended a “system of systems” approach for the 2030s. The Air Force formalized this vision in March 2023, when Secretary Frank Kendall outlined plans to pair at least 1,000 autonomous CCAs with manned fighters, fundamentally shifting the force structure away from one-to-one platform replacements.

The fiscal year 2024 defense budget reflected this urgency, allocating $490 million for CCA development and experimentation, with an additional $72 million for a dedicated operations unit. Over the following years, the Air Force mapped out $6 billion in planned CCA spending through 2028. The program’s competitive phase began in January 2024, with contracts awarded to five industry teams: Anduril, Boeing, General Atomics, Lockheed Martin, and Northrop Grumman. By April 2024, the field narrowed to Anduril’s Fury (later XFQ-44A) and General Atomics’ Gambit (XFQ-42A), reflecting a focus on rapid innovation and autonomous capabilities.

This approach marks a clear departure from legacy acquisition processes, emphasizing rapid prototyping, iterative testing, and early operational experimentation. The CCA’s role within the broader Next Generation Air Dominance (NGAD) program further highlights its strategic importance, particularly as the Air Force reevaluates the cost and timeline of its sixth-generation fighter development.

Anduril Industries: Disrupting Defense Acquisition

Founded in 2017 by Palmer Luckey and Trae Stephens, Anduril Industries exemplifies the new wave of Silicon Valley entrants into the defense sector. Unlike traditional contractors, Anduril invests its own capital in R&D, only selling completed products to the government. This commercial-style approach enables faster iteration and risk-taking, bypassing the bureaucratic inertia often associated with cost-plus contracting.

The company’s rapid ascent is notable: by 2024, Anduril had doubled its revenue to approximately $1 billion and raised $1.5 billion in new funding, reaching a $14 billion valuation. Its Arsenal-1 factory in Ohio, an advanced, $900 million facility, underscores its commitment to “hyperscale” production, promising over 4,000 jobs by 2035 and supporting not only CCAs but other autonomous systems as well.

This disruptive ethos is central to Anduril’s pitch for the CCA program. As Diem Salmon, Anduril’s vice president for Air Dominance and Strike, notes, the company seeks to “tackle the hard part first”, namely, the development of robust autonomy software for the XFQ-44A’s maiden flight.

“The goal is to also get to a semi-autonomous first flight, which means takeoff and landing will be done via push of a button. There is no stick and throttle. It will be able to execute the actual first flight profile pre-planned, using autonomy software on the vehicle.”

, Diem Salmon, Anduril VP for Air Dominance and Strike

Technical Specifications and Autonomous Capabilities

The XFQ-44A’s designation signals its intended role: “Y” for prototype, “F” for fighter, “Q” for unmanned, “44” as the design number, and “A” for the first version. Unlike its competitor, General Atomics, which prefers a pilot-in-the-loop for initial flights, Anduril’s approach is to achieve a fully autonomous takeoff, flight, and landing on its first outing.

This focus on autonomy is not just a technical flourish but a strategic differentiator. The XFQ-44A’s software-centric design leverages Anduril’s Lattice AI platform, which enables real-time sensor fusion, threat assessment, and collaborative mission execution. Early ground testing, which began in May 2025, validated key systems and paved the way for the upcoming flight milestone.

The development of reliable autonomous flight software is a significant challenge, particularly for critical phases like takeoff and landing. Anduril’s progress, demonstrating semi-autonomous taxiing and system checks, reflects both the potential and complexity of integrating AI into combat aviation.

Competition, Timelines, and Integration Challenges

The CCA Increment 1 competition pits Anduril’s XFQ-44A against General Atomics’ XFQ-42A. General Atomics, a stalwart of unmanned aviation, achieved first flight with its prototype in August 2025, using its traditional pilot-controlled approach. Anduril’s slightly delayed schedule, now targeting mid-October 2025, is attributed to its emphasis on software maturity over hardware readiness.

Both companies have made significant strides: General Atomics reports only minor software tweaks following its initial flights, while Anduril touts its advanced ground testing and multiple airframes in final preparation. The Air Force maintains that Anduril remains “well ahead of the program schedule,” and the service expects a competitive production decision for Increment 1 as early as fiscal year 2026.

Integration with the NGAD program is a central challenge. The Air Force envisions CCAs operating under the command of human pilots in both fifth- and sixth-generation fighters, enabling a small number of aviators to control larger formations of autonomous aircraft. This “manned-unmanned teaming” concept is expected to enhance operational flexibility and address pilot shortages, while also introducing new complexities in doctrine, training, and command-and-control.

“For the first time in our history, we have a fighter designation in the YFQ-42A and YFQ-44A. It may be just symbolic, but we are telling the world we are leaning into a new chapter of aerial warfare.”

, Gen. David Allvin, Air Force Chief of Staff

Economic and Industrial Implications

The CCA program’s economics are built on a “built to adapt” philosophy, with projected unit costs of $25–30 million, substantially lower than traditional fighters but still a major investment. The scale of planned procurement, potentially exceeding 1,000 aircraft, means the program could surpass $30 billion over its lifetime.

Anduril’s Arsenal-1 facility in Ohio is a case study in modern defense manufacturing: designed for flexibility, rapid reconfiguration, and advanced software-driven production. This approach marks a departure from legacy defense plants and could serve as a model for future military-industrial projects.

The broader industrial impact includes job creation, regional economic development, and the potential to revitalize the U.S. defense Manufacturing base. However, the challenges of scaling production, maintaining quality, and managing costs remain significant.

Software-Defined Warfare and Strategic Impact

The XFQ-44A’s reliance on advanced software and AI reflects a broader shift toward software-defined warfare. Anduril’s Lattice platform is designed to enable continuous capability upgrades, rapid adaptation to new threats, and seamless integration with other systems. This model stands in contrast to the decades-long refresh cycles typical of legacy Military-Aircraft.

The operational implications are profound: CCAs can be used for high-risk missions, electronic warfare, reconnaissance, or as decoys, expanding the Air Force’s tactical options. The lower cost and attritable nature of CCAs also support new concepts of operations, where losses are acceptable in pursuit of mission objectives.

Internationally, the CCA program positions the U.S. as a leader in autonomous military systems, with potential implications for alliances, deterrence, and global security competition, particularly as adversaries like China and Russia invest heavily in similar capabilities.

Challenges and Future Outlook

Despite its promise, the CCA program faces substantial risks. Technical challenges in autonomy, cybersecurity, and electromagnetic resilience are nontrivial. Regulatory and policy issues, especially regarding the use of autonomous weapons, must be addressed to ensure compliance with international law and ethical standards.

Cost control and industrial scalability are also pressing concerns. While Anduril’s venture-backed, commercial-style approach offers advantages in speed and innovation, the transition from prototype to mass production will test its ability to deliver at scale. The Air Force’s aggressive timelines reflect both operational urgency and the reality of great power competition, particularly in the Indo-Pacific.

Looking ahead, the CCA program’s success will depend on demonstrating operational utility, integrating with broader force transformation efforts, and maintaining momentum through Increment 2 and beyond. The ultimate test will be whether these autonomous systems can deliver on their promise in the complex, contested environments for which they are being designed.

Conclusion

The anticipated First-Flight of Anduril’s XFQ-44A marks a pivotal moment in the evolution of U.S. air power. By combining advanced autonomy, innovative manufacturing, and a disruptive business model, Anduril and the Air Force are charting a new course for military aviation. The CCA program is not just about building a new aircraft, it is about redefining how the U.S. develops, fields, and sustains air combat capability in a rapidly changing world.

As the XFQ-44A prepares for its historic flight, the eyes of the defense community, and America’s adversaries, will be watching. The outcome will help determine whether the U.S. can maintain its technological edge and operational dominance in an era defined by rapid innovation and strategic uncertainty.

FAQ

What is the Collaborative Combat Aircraft (CCA) program?
The CCA program is a U.S. Air Force initiative to develop autonomous, uncrewed aircraft that can operate alongside piloted fighters, enhancing air combat capabilities through manned-unmanned teaming.

Why is Anduril’s XFQ-44A significant?
The XFQ-44A is designed for autonomous operation from its first flight, reflecting a major advance in AI-driven combat aviation and the shift toward software-defined warfare.

How does Anduril’s approach differ from traditional defense contractors?
Anduril invests private capital in R&D and focuses on rapid, iterative development, selling only completed products to the government, unlike traditional cost-plus contracting models.

What are the main challenges facing the CCA program?
Key challenges include technical risks in autonomy and cybersecurity, cost management, scaling production, and integrating new operational concepts into the Air Force structure.

When is the first flight of the XFQ-44A expected?
The first autonomous flight is scheduled for mid-October 2025, pending final software development and ground testing.

Sources

Breaking Defense, U.S. Air Force