Scalable Rf Propagation Modeling On The Ibm Blue Gene/L And Cray Xt5 Supercomputers
Winter Simulation Conference(2009)
摘要
We present a performance analysis for a highly accurate, large-scale electromagnetic wave propagation model on two modern supercornputing platforms: the Cray XT5 and the IBM Blue Gene/L. The electromagnetic wave model is used to simulate the physical layer of a large-scale mobile ad-hoc network of radio devices. The model is based on the numerical technique called Transmission Line Matrix, and is implemented in a Time Warp simulation package that employs reverse computation for the rollback mechanism. Using Rensselaer's Optimistic Simulation System we demonstrate better than real-time, scalable parallel performance for network scenarios containing up to one million mobile radio devices, highly accurate RF propagation and high resolution, large-scale complex terrain.
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关键词
ad hoc networks,electromagnetic wave propagation,mainframes,mobile radio,parallel machines,time warp simulation,transmission line matrix methods,Cray XT5 supercomputers,IBM Blue Gene/L supercomputers,Rensselaer's optimistic simulation system,electromagnetic wave propagation model,large-scale complex terrain,mobile ad-hoc network,radio devices,reverse computation,rollback mechanism,scalable RF propagation modeling,time warp simulation package,transmission line matrix,
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