Following the announcement of new defense-related contracts, One Stop Systems, Inc. (NASDAQ: OSS) witnessed a 10.45% increase in its stock price on Tuesday, ending at $5.60. The business said that it had won awards totaling $3.9 million from a well-known major defense contractor in the United States.
The purpose of these contracts is to provide mission-critical data storage solutions for the U.S. Navy’s P-8A Poseidon Reconnaissance Aircraft, a crucial platform. According to OSS, the second half of 2025 will see the recognition of the majority of the revenue associated with these awards.
Advanced Storage Systems for Military Applications
Data storage units (DSUs) that improve the P-8A Poseidon’s C5ISR capabilities will be provided by OSS in accordance with the new order. These tough systems use patented technologies, such as high-capacity NVMe flash storage and hot-swappable canisters, which enable quick and safe data offloading in aviation environments.
A Track Record of Success in Defense Technology
OSS has maintained a longstanding relationship with the Poseidon program, having supported it for over eight years and generating more than $50 million in lifetime contracted revenue. The company views this new award as a testament to its platform-focused strategy—supporting defense programs through all phases, from development and deployment to sustainment and modernization.
Pushing Boundaries with AI at the Edge
With defense operations increasingly relying on real-time analytics and AI at the edge, OSS positions itself as a key player in delivering robust, compact infrastructure solutions. The company’s 3U-SDS system—its flagship PCIe-enabled rugged platform—is central to this strategy.
The adaptable system facilitates AI deployments in a number of fields, such as mobile medical devices, autonomous cars, unmanned aircraft systems, and naval operations. Next-generation military platforms are equipped with datacenter-grade performance in demanding conditions thanks to OSS’s storage technology, which is made to function under strict size, weight, power, and thermal limitations.
