Low Latency, High Throughput, and Less Complex VLSI Architecture for 2D-DFT

Low Latency, High Throughput, and Less Complex VLSI Architecture for 2D-DFT

Sohil Shah, Preethi Venkatesan, Deepa Sundar, and Muniandi Kannan
 Department of Electronics Engineering, Anna University, India

Abstract: This paper proposes a pipelined, systolic architecture for two- dimensional discrete Fourier transform computation which is highly concurrent. The architecture consists of two, one-dimensional discrete Fourier transform blocks connected via an intermediate buffer. The proposed architecture offers low latency as well as high throughput and can perform both one- and two- dimensional discrete Fourier transforms. The architecture supports transform length that is not power of two and not based on products of co-prime numbers. The simulation and synthesis were carried out using Cadence tools, NcSim and RTL Compiler, respectively, with 180 nm libraries.

Keywords: Digital signal processing chip, discrete Fourier transforms, systolic array, and very-large-scale integration circuit.

Received February 22, 2008; accepted June 8, 2008

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