Peraton Secures Role in $980M US Air Force Automatic Test Systems Contract

Peraton Secures Strategic Position in $980 Million Air Force Automatic Test Systems Contract

The recent award of a slot to Peraton in the U.S. Air Force’s $980 million Automatic Test Systems Acquisition-I (ATSA-I) contract marks a significant development in the defense technology sector. This ten-year, multiple-award contract, set to run from September 2025 through September 2035, enlists 33 companies to provide vital automatic testing systems for military aircraft and weapons platforms worldwide. The ATSA-I contract is designed to ensure the operational readiness of a broad range of Air Force assets, from fighter jets and bombers to unmanned aerial vehicles and helicopters, by supporting the full spectrum of electronic system diagnostics and maintenance.

For Peraton, a Reston, Virginia-based national security and technology company, this contract win reinforces its position as a trusted government partner and expands its presence in a market projected to see robust growth over the next decade. The contract’s reach extends beyond the Air Force to include the Air Force Reserve, Air National Guard, the F-35 Joint Strike Fighter program, and foreign military sales, highlighting its comprehensive and strategic importance. This article examines Peraton’s corporate background, the structure and significance of the ATSA-I contract, technical and market context, and the broader implications for defense readiness and technology innovation.

Background and Corporate Context of Peraton

Peraton was established in 2017, following the acquisition of Harris Corporation’s government IT services division by private equity firm Veritas Capital. Since then, Peraton has rapidly expanded through a series of major acquisitions, including Northrop Grumman’s IT and mission support services and Perspecta Inc. These moves transformed Peraton from a relatively modest operation into a multi-billion-dollar government technology powerhouse, with an extensive national footprint and a workforce that, at its peak, exceeded 24,000 employees.

By 2021, Peraton’s annual revenues had grown from approximately $1 billion to between $7.0 and $7.2 billion, establishing it as a formidable competitor to industry leaders such as Leidos in the federal IT and defense contracting space. The company’s portfolio spans space, intelligence, cyber, defense, homeland security, and health, with Peraton Labs serving as its applied research arm. Strategic consolidation has enabled Peraton to streamline operations and focus on high-value, enterprise-level contracts, including major Department of Defense and Intelligence Community programs.

The ATSA-I contract is a natural extension of Peraton’s expertise in defense technology and engineering. Company leadership has emphasized the contract’s role in supporting proactive mission readiness, ensuring that U.S. military aircraft remain in optimal condition for operational deployment. This aligns with Peraton’s broader mission to deliver trusted, innovative solutions for critical government operations across multiple domains.

Comprehensive Analysis of the ATSA-I Contract Structure

The ATSA-I contract is structured as a multiple-award indefinite delivery/indefinite quantity (IDIQ) vehicle, enabling the Air Force to rapidly procure both commercial and non-commercial testing products and services from a competitive pool of 33 selected vendors. The contract spans ten years, divided into two five-year phases, each with a base period and annual ordering periods. The Air Force Life Cycle Management Center (AFLCMC) at Warner Robins Air Logistics Complex in Georgia manages the contract, ensuring standardized processes and oversight across all participating companies.

The scope of ATSA-I covers testing for an extensive range of military aircraft and weapon systems, reflecting the Air Force’s need for robust, standardized diagnostic capabilities. The ATS Division within the AFLCMC is responsible for acquiring, modifying, and maintaining over 200 test systems and subsystems, supporting integrated weapon systems valued at $3.5 billion. The contract also accommodates foreign military sales, reinforcing U.S. defense partnerships and promoting interoperability with allied nations.

Competition for ATSA-I was intense, with 38 bidders vying for 33 contract slots. The awardees include both established defense giants and specialized technology firms, ensuring a mix of technical expertise and capacity. This diversity is intended to foster innovation, cost efficiency, and responsiveness to evolving Air Force requirements.

“This contract goes beyond reliable test equipment and represents proactive mission readiness, ensuring America’s military aircraft are in mission-ready condition so that our servicemen and women can fly, fight, and win wherever they’re called.”, Tarik Reyes, Peraton Defense Mission and Health Solutions

Technical Specifications and Automatic Test Systems Components

Automatic Test Systems (ATS) are complex, integrated solutions comprised of three core elements: diagnostic software, hardware interfaces, and controlled testing environments. The software component executes diagnostic routines to verify the functionality of electronic components and systems, providing real-time feedback and identifying faults before they impact mission readiness. Hardware interfaces connect the test system to the aircraft or weapon system, ensuring reliable communication and measurement accuracy even in challenging operational environments.

The controlled test environment standardizes procedures and mitigates variables such as electromagnetic interference or temperature fluctuations, ensuring consistency and reliability across different platforms and locations. The ATS Division’s portfolio supports field operations worldwide, enabling rapid identification and resolution of technical issues to maintain high readiness rates.

Recent advances in ATS technology include the integration of artificial intelligence and machine learning for enhanced diagnostics and predictive maintenance. These capabilities allow for real-time monitoring, early fault detection, and data-driven maintenance scheduling, reducing unplanned downtime and extending equipment lifecycles. The adoption of IoT sensors and modular, portable test equipment further enhances flexibility and operational efficiency, particularly in deployed or austere environments.

Market Dynamics and Industry Context

The global automated test equipment market is projected to reach $11.54 billion by 2034, up from $7.29 billion in 2024, reflecting a compound annual growth rate of 4.7%. While the Asia Pacific region dominates in revenue share, North America is the fastest-growing segment, driven by increased defense and aerospace investment. The aviation test equipment market, specifically, is expected to expand to $15.19 billion by 2031, fueled by increased aircraft production, modernization of aging fleets, and the introduction of next-generation systems.

Key drivers include the rising complexity of electronic systems, stringent reliability requirements, and the adoption of advanced technologies such as AI and IoT. These trends are reshaping the competitive landscape, favoring companies capable of delivering innovative, scalable solutions. However, the market also faces challenges, including high initial setup costs, ongoing maintenance demands, and the need to address equipment obsolescence and integration with new aircraft technologies.

The defense and military sector remains the largest end-user, underscoring the strategic importance of ATS in maintaining mission readiness and operational effectiveness. The ATSA-I contract, by providing a stable and predictable procurement framework, enables ongoing investment in R&D and supports the continuous evolution of testing capabilities in response to emerging threats and technological advances.

“The integration of artificial intelligence and machine learning into automated test systems is revolutionizing diagnostics, enabling predictive maintenance and reducing operational costs across the defense sector.”, Industry Analysis, 2024

Strategic Significance for Defense Readiness

The ATSA-I contract is a cornerstone of the Air Force’s efforts to enhance readiness and reduce costs through enterprise-level, cross-cutting solutions. The establishment of the Combat Readiness Directorate within the AFLCMC reflects a strategic shift from platform-specific support to holistic, fleet-wide approaches. This directorate oversees five divisions, including the ATS division, and is tasked with identifying opportunities for increased efficiency and effectiveness across all weapon systems.

The contract’s support for foreign military sales and the F-35 Joint Strike Fighter program highlights its role in strengthening U.S. alliances and promoting interoperability. Standardized testing procedures and equipment facilitate joint operations and technology transfer among allied nations, supporting broader defense and diplomatic objectives.

Technological innovation is central to the contract’s strategic value. The adoption of predictive maintenance, advanced diagnostics, and modular equipment designs positions the Air Force to respond rapidly to evolving operational requirements. The establishment of new test forces, such as the F-35 Lightning II Combined Test Force, further expands capabilities and underscores the importance of advanced testing infrastructure in maintaining air superiority.

Financial and Economic Implications

With a total value of $980 million, the ATSA-I contract represents a substantial investment in U.S. air power and provides significant business opportunities for participating contractors. For Peraton, the contract supports continued growth following recent government contract wins and positions the company for further expansion in the defense technology sector.

Peraton’s financial trajectory has been marked by rapid growth, with annual revenues surpassing $8 billion and a reported backlog of $24.4 billion as of mid-2022. The ATSA-I contract adds to this momentum, offering predictable revenue streams and supporting ongoing investment in advanced capabilities.

The broader automated test equipment market is expected to see sustained growth, particularly in defense and aerospace applications. The contract’s structure, with multiple phases and ordering periods, provides flexibility for the Air Force while encouraging innovation and cost optimization among vendors. The economic benefits extend beyond direct contract value to include improved operational efficiency, reduced maintenance costs, and enhanced readiness across the Air Force fleet.

Global Defense Technology Landscape

The ATSA-I contract is situated within a dynamic global defense technology environment, characterized by rapid advancements in aircraft systems and increasing demand for sophisticated testing solutions. Countries such as the United States, United Kingdom, European Union members, Japan, and South Korea are leading the development and adoption of advanced aviation test equipment, reflecting their substantial investments in military and civilian aviation.

International cooperation and standardization are critical for ensuring interoperability and maintaining competitive advantages. The inclusion of foreign military sales in ATSA-I supports allied modernization efforts and creates additional market opportunities for U.S. contractors.

Emerging technologies, including AI, quantum computing, and advanced materials, present both opportunities and challenges for defense technology providers. Companies that can successfully integrate these innovations into practical testing solutions will be well-positioned to support next-generation military capabilities and maintain technological superiority in an increasingly complex security environment.

Conclusion

The award of an ATSA-I contract slot to Peraton represents a pivotal step in the company’s evolution as a leading defense technology provider and addresses critical Air Force requirements for advanced automatic test systems. This $980 million contract establishes a robust framework for supporting U.S. air power across all major platforms, fostering technological innovation and operational readiness over the next decade.

For the Air Force and its partners, the ATSA-I contract is more than a procurement vehicle, it is a strategic investment in the future of air superiority, readiness, and international cooperation. As aircraft and weapon systems continue to evolve, the capabilities developed and delivered under this contract will be central to maintaining operational effectiveness and meeting the challenges of a rapidly changing global security landscape.

FAQ

What is the ATSA-I contract?
The Automatic Test Systems Acquisition-I (ATSA-I) contract is a $980 million, ten-year multiple-award contract awarded by the U.S. Air Force to 33 companies. It supports the acquisition and maintenance of automatic test systems for military aircraft and weapon systems.

What role does Peraton play in the ATSA-I contract?
Peraton is one of the 33 companies awarded a slot on the ATSA-I contract, providing technical expertise and solutions for automated testing and diagnostics to support Air Force readiness and operational effectiveness.

Why are automatic test systems important for the Air Force?
Automatic test systems ensure that electronic components and systems on military aircraft function correctly, enabling rapid diagnostics, predictive maintenance, and reduced downtime, all of which are critical for maintaining mission readiness.

How does the ATSA-I contract support international defense cooperation?
The contract includes provisions for foreign military sales, allowing allied nations to procure standardized testing equipment and procedures, thereby promoting interoperability and strengthening defense partnerships.

What technological trends are shaping the future of automatic test systems?
Key trends include the integration of artificial intelligence, machine learning, IoT sensors, modular equipment design, and software-defined testing platforms, all aimed at enhancing diagnostic accuracy, flexibility, and predictive maintenance capabilities.

Sources

• ExecutiveBiz
• Peraton