Title :
Beam-Tracing Domain Decomposition Method for Urban Acoustic Pollution
Author :
Gbikpi-Benissan, Guillaume ; Magoules, Frederic
Author_Institution :
Ecole Centrale Paris, Paris, France
Abstract :
This paper covers the fast solution of large acoustic problems on low-resources parallel platforms. A domain decomposition method is coupled with a dynamic load balancing scheme to efficiently accelerate a geometrical acoustic method. The geometrical method studied implements a beam-tracing method where intersections are handled as in a ray-tracing method. Beyond the distribution of the global processing upon multiple sub-domains, a second parallelization level is operated by means of multi-threading and shared memory mechanisms. Numerical experiments show that this method allows to handle large scale open domains for parallel computing purposes on few machines. Urban acoustic pollution arrising from car traffic was simulated on a large model of the Shinjuku district of Tokyo, Japan. The good speed-up results illustrate the performance of this new domain decomposition method.
Keywords :
environmental science computing; multi-threading; noise pollution; resource allocation; shared memory systems; Japan; Tokyo; beam-tracing domain decomposition method; beam-tracing method; car traffic; dynamic load balancing scheme; geometrical acoustic method; low-resources parallel platform; multithreading mechanism; parallel computing; parallelization level; ray-tracing method; shared memory mechanism; urban acoustic pollution; Acoustic beams; Acoustics; Computational modeling; Instruction sets; Mathematical model; Microphones; Ray tracing; Acoustics; Beam-tracing methods; Domain decomposition methods; Parallel and distributed computing; Ray-tracing methods;
Conference_Titel :
Distributed Computing and Applications to Business, Engineering and Science (DCABES), 2014 13th International Symposium on
Conference_Location :
Xian Ning
Print_ISBN :
978-1-4799-4170-4
DOI :
10.1109/DCABES.2014.34
