This work reports the results of a GPU-based approach for the massive simulation of a dis- tributed behavioral model. In this model an agent has a local perception of the world and then it moves by coordinating with the motion of its neighbors. This carries a very high com- putational cost in the so-called nearest neighbors search. By leveraging the parallel processing power of the GPU and its new programming model called CUDA, we implemented a spatial hashing where a partitioning of the space is used to accelerate the neighbors search. Through extensive experiments, we demonstrate the eectiveness of our GPU implementation when simulating the motion of high-density agent groups.
A GPU-based Method for Massive Simulation of Distributed Behavioral Models with CUDA
ERRA, UGO;
2009-01-01
Abstract
This work reports the results of a GPU-based approach for the massive simulation of a dis- tributed behavioral model. In this model an agent has a local perception of the world and then it moves by coordinating with the motion of its neighbors. This carries a very high com- putational cost in the so-called nearest neighbors search. By leveraging the parallel processing power of the GPU and its new programming model called CUDA, we implemented a spatial hashing where a partitioning of the space is used to accelerate the neighbors search. Through extensive experiments, we demonstrate the eectiveness of our GPU implementation when simulating the motion of high-density agent groups.| File | Dimensione | Formato | |
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