Se Ho Park, Dong Hwan Kim, D. Han, Kyu Lee, S. Park, J. Choi
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A 2048 complex point FFT processor for DAB systems
In this paper, we propose an implementation method for a single-chip 2048 complex point FFT in terms of sequential data processing. In order to reduce the required chip area for the sequential processing of 2 K complex data, a DRAM-like pipelined commutator architecture is used. The 16-point FFT is a basic building block of the entire FFT chip, and the 2048-point FFT consists of the cascaded blocks with five stages of radix-4 and one stage of radix-2. Since each stage requires rounding of the resulting bits while maintaining the proper S/N ratio, the convergent block floating point (CBFP) algorithm is used for the effective internal bit rounding. As a result, the proposed structure brings about the 55% chip size reduction compared with the conventional approach.
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