C. E. Lucas, E. A. Walters, PC Krause and Associates, Inc; O. Wasynczuk, Purdue University; Peter T. Lamm, U. S. Air Force Research Laboratory
An allocation algorithm for optimally assigning the various subsystem simulations, within a distributed heterogeneous simulation, to a specific set of computational resources has been developed. This algorithm uses a cost function that approximates the simulation execution time for each of the subsystems based upon the model complexity and the performance parameters of the available computer resources. The cost function is then evaluated to determine the optimal allocation that ensures the overall simulation execution time is minimized. In this paper, the allocation algorithm is applied to a large-scale power-electronic-based aircraft electrical power system. This study system is comprised of ten component simulations that together are modeled by 85 state variables and include 74 switching devices. Both optimal and sub-optimal allocations are considered and the predicted simulation run times are verified experimentally.
SAE Transactions Journal of Aerospace, July 2005, pp. 1871-1878 and 2004 SAE Power Systems Conference, November 2-4, 2004, Reno, NV, Paper # 2004-01-3183.