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引用次数: 1
摘要
本文讨论了一种处理器的设计,用于在可用光谱的窄带上进行极细间隔的光谱分析。该处理器实现了啁啾z变换(CZT)算法,并利用全并行架构来解决具有非常高吞吐量的实时应用。内部数据路径在定点精度和实现复杂性之间进行了优化。所提出的架构已经针对在可用频谱的10%的子带中进行64点变换的案例研究进行了定制,并在Xilinx Virtex-IV FPGA上达到了惊人的3.2 g /s的吞吐量。此外,与基于FFT的传统方法相比,该方法显著降低了复杂性。
A high-speed processor for finely-spaced Fourier transform via chirp z-transform
This paper deals with the design of a processor for very-finely spaced spectral analysis over a narrow band of the available spectrum. The processor implements the chirp z-transform (CZT) algorithm, and exploits a fully-parallel architecture in order to address real-time applications with very-high throughput. The internal data-path is optimized as a trade-off between fixed-point accuracy and implementation complexity. The proposed architecture has been customized for the case study of a 64-point transform in a sub-band of 10% of the available spectrum, and has reached the astonishing throughput of 3.2 Gs/s on a Xilinx Virtex-IV FPGA. Also, compared with a customary approach based on FFT, a remarkable saving in complexity is shown.
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