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ASIC Design of Radix-2,8-Point FFT Processor


Affiliations
1 Terna Engineering College, Navi Mumbai 400 706, India
2 Sanpada College of Commerce and Technology Sanpada, Navi Mumbai 400705, India
3 Don Bosco College of Engineering, Goa 403 602, India

In split radix architecture, large sizes Fast Fourier Transforms (FFT) are decomposed into small independent computations to reduce storage burden. Radix-2, 8-point is one the popular choice in split radix for small independent computation. Authors proposes the FFT processor architecture for this small independent computation i.e. radix-2, 8-point FFT. This paper brief architecture comprising Butterfly Unit (BU), register set and controller. The novelty of this architecture is that it replaces the series of Processing Elements (PE) by single BU. BU computes two halves of the computations concurrently. Arithmetic computations are performed in floating point form to overcome the nonlinearities. All computations are controlled by tailored instruction set. All instructions are of same size and have same execution time. Twiddle constants are implicitly available in the instruction. Internal computations are stored in register set to avoid the load and store operations with memory. The mean square error of the computation is reduced by 41.95% and 55.76% in magnitude and phase respectively as compared with computations performed by rounding the twiddle constant. This FFT processor is synthesized, placed and routed for 45 nm technology of nangate open cell library. The BU of this architecture is 18.89% smaller and 5.13% faster as compared with smallest and fastest BU reported previously. The hardware cost metric i.e. Dp mm2 ns2 mW of proposed processor is 1.37. This cost metric is also 32.51% less as compared with the previous work.
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  • ASIC Design of Radix-2,8-Point FFT Processor

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Authors

Prasad Kulkarni
Terna Engineering College, Navi Mumbai 400 706, India
B G Hogade
Terna Engineering College, Navi Mumbai 400 706, India
Vidula Kulkarni
Sanpada College of Commerce and Technology Sanpada, Navi Mumbai 400705, India
Varsha Turkar
Don Bosco College of Engineering, Goa 403 602, India

Abstract


In split radix architecture, large sizes Fast Fourier Transforms (FFT) are decomposed into small independent computations to reduce storage burden. Radix-2, 8-point is one the popular choice in split radix for small independent computation. Authors proposes the FFT processor architecture for this small independent computation i.e. radix-2, 8-point FFT. This paper brief architecture comprising Butterfly Unit (BU), register set and controller. The novelty of this architecture is that it replaces the series of Processing Elements (PE) by single BU. BU computes two halves of the computations concurrently. Arithmetic computations are performed in floating point form to overcome the nonlinearities. All computations are controlled by tailored instruction set. All instructions are of same size and have same execution time. Twiddle constants are implicitly available in the instruction. Internal computations are stored in register set to avoid the load and store operations with memory. The mean square error of the computation is reduced by 41.95% and 55.76% in magnitude and phase respectively as compared with computations performed by rounding the twiddle constant. This FFT processor is synthesized, placed and routed for 45 nm technology of nangate open cell library. The BU of this architecture is 18.89% smaller and 5.13% faster as compared with smallest and fastest BU reported previously. The hardware cost metric i.e. Dp mm2 ns2 mW of proposed processor is 1.37. This cost metric is also 32.51% less as compared with the previous work.