Emulating optically inspired massively parallel non-Boolean operators on FPGA
Cellular Nanoscale Networks and their Applications(2014)
摘要
In this paper, we demonstrate two optically inspired massively parallel non-Boolean operators running on FPGA. One of the algorithm is based on the Paraxial Helmholtz Equation: which describes the beam propagation through different media with different refractive indices, and the other is based on the concepts of optical computing: quasi-optical wave equations are solved numerically, using FPGA-accelerated hardware. The second algorithm describes a holographic pattern-matching algorithm. Both of the two FPGA-based implementations are very well parallelizable, consequently they are also be amenable to mega-core architectures.
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关键词
helmholtz equations,field programmable gate arrays,light propagation,microprocessor chips,optical computing,fpga-accelerated hardware,beam propagation,mega-core architectures,optically inspired massively parallel nonboolean operator emulation,paraxial helmholtz equation,quasi-optical wave equations,refractive indices,image processing,mathematical model,propagation,computer architecture
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