HIGH PERFORMANCE RECONFIGURABLE HARDWARE ACCELERATION ON NEUTRON TRANSPORT COMPUTATION BASED ON AGENT METHODOLOGY
A high performance hardware acceleration coprocessor built on field programmable arrays (FPGAs) is designed to accelerate neutron transport computation for three dimensional whole reactor cores. The acceleration coprocessor is designed based on the reconfigurable computation techniques and adopts the dataflow-driven non von Neumann architecture for high efficient parallel computation. The hardware acceleration coprocessor supports much more intensive available computation power compare with the same-era CPUs, and is compatible with existing software acceleration methods. It reaches about 20 times speed up in simulation validations. It is the first time that the reconfigurable hardware acceleration techniques are used to improve the computational efficiency of the reactor physics and neutron transport simulations.
Shanjie Xiao Tatjana Jevremovic
Advanced Radiation Simulation Laboratory Utah Nuclear Engineering Program The University of Utah Sal Advanced Radiation Simulation Laboratory Utah Nuclear Engineering Program The University of Utah Sal
国际会议
18th International Conference on Nuclear Engineering(第18届国际核能工程大会 ICONE 18)
西安
英文
1-6
2010-05-17(万方平台首次上网日期,不代表论文的发表时间)