Acme Embedded Solutions is a premier design and integration specialist dedicated to providing complex deployable computing systems tailored for the military and aerospace sectors. With over a century of combined engineering experience, the company excels in the adaptation of commercial off-the-shelf (COTS) modules and rugged technologies to meet the harsh demands of airborne, ground vehicle, and naval applications. Acme’s expert team comprises specialists in electromechanical design, hardware engineering, functional system design, and real-time software disciplines, ensuring a comprehensive approach to the challenges posed by mission-critical projects.
Recognizing the unique requirements of aerospace and military applications, Acme Embedded Solutions focuses on delivering unparalleled service and exceptional value. They support their clients by facilitating the integration of diverse COTS modules at the operating systems level, thereby simplifying complex processes and significantly reducing time, cost, and risk associated with program execution. Their core services include rigorous qualification testing to military standards, thermal design and modeling, and customized I/O development, ensuring that every system is robustly designed for extreme environments.
Acme's operational philosophy emphasizes flexibility and meticulous attention to client specifications, offering tailored solutions that align perfectly with various project goals. Their commitment to excellence has earned them a perfect vendor rating among Fortune 500 companies, attesting to their reliability and high-quality service. Whether assisting with new rugged designs or modifying existing systems, Acme Embedded Solutions prioritizes successful outcomes, providing clients with the certainty needed for high-stakes projects. They maintain active communication throughout the development lifecycle, preventing potential issues and ensuring meticulous execution. By choosing Acme Embedded Solutions, clients can trust in an expert partner dedicated to enhancing the dependability and performance of their sophisticated systems.
