Abstract in Undetermined This paper treats the hardware architecture and implementation of mixed radix FFTs with cores of radix 3 and radix 5 in addition to the standard radix 2 core. The implementation flow graphs of the higher radix cores are presented together with a description of how these cores afTect a pipelined FFT implementation. It is shown that the mixed radix FFT is more expensive than the radix 2 implementation - a mixed radix FFT of 1200 points require 36 real multipliers in a pipelined implementation whereas a 2048 radix 2 FFT needs 30 real multipliers. However, half of the multipliers in the mixed radix case can be constant. Therefore it is still feasible to use the mixed radix FFT if an algorithm calls for it
II In this paper, we propose a low cost and variable length FFT processor for the Orthogonal Frequen...
This paper presents hardware-efficient building blocks for non-power-of-two Fast Fourier transform (...
The prevalent need for very high-speed digital signals processing in wireless communications has dri...
This paper presents a novel runtime-reconfigurable, mixed radix core for computation 2-, 3-, 4- poin...
FFT is one of the most active blocks in digital signal processing and in various field of communicat...
This paper presents a reconfigurable Fast Fourier Transform (FFT) hardware architecture for 3GPP LTE...
The rapid grown in wireless 4G and 5G technology push to the edge to high input data processing. Hig...
In the past few years, fast Fourier transform (FFT) proved to be an efficient method to accomplish...
A parallel and pipelined Fast Fourier Transform (FFT) processor for use in the Orthogonal Frequency ...
In some cases, signal processing is easier in frequency-domain and Discrete Fourier Transform (DFT) ...
Fast Fourier transform (FFT) has become ubiquitous in many engineering applications. FFT is one of t...
This paper proposes that several FFT algorithms such as radix-2, radix-4 and split radix were design...
Fast Fourier Transform (FFT) processor is the hardware implementation for FFT algorithms for Discret...
Fast Fourier Transform (FFT) processor is one of the important key procedures in Orthogonal Frequenc...
A new on-chip implementation of Fast Fourier Transform (FFT) based on Radix 2 is presented. The pipe...
II In this paper, we propose a low cost and variable length FFT processor for the Orthogonal Frequen...
This paper presents hardware-efficient building blocks for non-power-of-two Fast Fourier transform (...
The prevalent need for very high-speed digital signals processing in wireless communications has dri...
This paper presents a novel runtime-reconfigurable, mixed radix core for computation 2-, 3-, 4- poin...
FFT is one of the most active blocks in digital signal processing and in various field of communicat...
This paper presents a reconfigurable Fast Fourier Transform (FFT) hardware architecture for 3GPP LTE...
The rapid grown in wireless 4G and 5G technology push to the edge to high input data processing. Hig...
In the past few years, fast Fourier transform (FFT) proved to be an efficient method to accomplish...
A parallel and pipelined Fast Fourier Transform (FFT) processor for use in the Orthogonal Frequency ...
In some cases, signal processing is easier in frequency-domain and Discrete Fourier Transform (DFT) ...
Fast Fourier transform (FFT) has become ubiquitous in many engineering applications. FFT is one of t...
This paper proposes that several FFT algorithms such as radix-2, radix-4 and split radix were design...
Fast Fourier Transform (FFT) processor is the hardware implementation for FFT algorithms for Discret...
Fast Fourier Transform (FFT) processor is one of the important key procedures in Orthogonal Frequenc...
A new on-chip implementation of Fast Fourier Transform (FFT) based on Radix 2 is presented. The pipe...
II In this paper, we propose a low cost and variable length FFT processor for the Orthogonal Frequen...
This paper presents hardware-efficient building blocks for non-power-of-two Fast Fourier transform (...
The prevalent need for very high-speed digital signals processing in wireless communications has dri...