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引用次数: 16
摘要
采用Xilinx System Generator实现了一种参数化的高效fpga并行一维信号滤波算法。所实现的算法是由并行FFT/逐点复内积/ IFFT卷积单元阵列实现的线性间接滤波器。实现的架构在最高频率下每瓦性能提高38%。参数化实现提供了快速的系统级FPGA原型和工作频率可移植性。因此,结果是独立于两个目标Virtex-6 FPGA板(xc6vlX240Tl-1lff1759和xc6vlX130Tl-1lff1156)获得的,在最高频率高达(216 MHz)的情况下,功耗分别降低到(1.6 W)和(0.99 W)。实时语音滤波的实例研究表明,在最大频率高达(216 MHz)的情况下,功耗低至(0.99W),具有优异的性能。
Parameterized FPGA-based architecture for parallel 1-D filtering algorithms
Parallel 1-D signal filtering algorithm is implemented as a parameterized efficient FPGA-based architecture using Xilinx System Generator. The implemented algorithm is a linear indirect filters achieved by a parallel FFT/point-by-point complex inner product/ IFFT convolution unit array. The implemented architecture manifests a 38 % higher performance per Watt at maximum frequency. The parameterized implementation provides rapid system-level FPGA prototyping and operating frequency portability. Consequently, the results are obtained independent of the two targeted Virtex-6 FPGA boards, namely xc6vlX240Tl–1lff1759 and xc6vlX130Tl–1lff1156, to achieve lower power consumption of (1.6 W) and down to (0.99 W) respectively at a maximum frequency of up to (216 MHz). A case study of real-time speech filtering shows excellent performance results of power consumption down to (0.99W) at maximum frequency of up to (216 MHz).
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