The Air Force Research Laboratory, Human Effectiveness Directorate, Warfighter Readiness Research Division, Mesa, AZ (711 HPW/RHA), in cooperation with Raytheon Missile Systems, Tucson, AZ (Raytheon), developed and integrated a full-fidelity advanced medium-range air-to-air missile (AMRAAM) weapon server into a high-fidelity AFRL F-16 flight simulator. The project goals were to bring manufacturer-proprietary missile fly-out performance into the Air Force Distributed Mission Operations (DMO) environment, to assess simulation effectiveness, and to enhance operator training. Three separate AMRAAM models were evaluated and tested against operational performance metrics to assess capability and potential training impact: the current model employed by the Air Force F-16 Multi-Task Trainer cockpit, the model implemented within the Air Force eXpert Common Immersive Theater Environment (XCITE) synthetic battlespace, and the proprietary AMRAAM Raytheon Simulation (ARS). Multiple parameters were compared, such as maximum range, minimum range, time of flight, maneuvering performance, and target intercept. Testing constraints were overseen and validated by subject matter experts. The results showed that successful integration of a real-time original equipment manufacturer-proprietary missile model with Air Force DMO assets was feasible. Furthermore, fly-out testing results identified specific parameters and situational relationships crucial to improving warfighter instruction during brief and debrief. This performance comparison of currently employed weapons models with the Raytheon AMRAAM model, highlighted the training effectiveness available through the careful integration of manufacturer-proprietary modeling and simulation tools.