In this paper, we introduce a fixed-point 16bit 64point FFT processor architecture for OFDM-based wireless applications. The processor is based on DIT radix-2 butterfly FFT algorithm. The canaonical signed digital is used to implement constant complex multiplications with CSA tree for lower power and cost. The simulation shows the module can reach low cost\power and high speed for OFDM-based high-speed wireless applications. ? 2004 IEEE.EI
Fast Fourier Transform (FFT), the time domain and frequency domain transformation, is a necessity in...
DSP has become a key component, in many of the user, communications, medical and industrial products...
The prevalent need for very high-speed digital signals processing in wireless communications has dri...
In this paper, we introduce a fixed-point 16bit 64point FFT processor architecture for OFDM-based wi...
In this paper, we introduce Aa fixed-point 16bit 64point FFT processor for OFDM-based wireless appli...
In this paper, we introduce a fixed-point 16bit 64point FFT processor for OFDM-based wireless applic...
The Fast Fourier Transform (FFT) Algorithm is an efficient way to calculate the Discrete Fourier Tra...
Fast Fourier Transform (FFT) processing is one of the key procedure in popular Orthogonal Frequency ...
II In this paper, we propose a low cost and variable length FFT processor for the Orthogonal Frequen...
This paper proposes that several FFT algorithms such as radix-2, radix-4 and split radix were design...
In some cases, signal processing is easier in frequency-domain and Discrete Fourier Transform (DFT) ...
A parallel and pipelined Fast Fourier Transform (FFT) processor for use in the Orthogonal Frequency ...
Most communications systems tend to achieve bandwidth, power and cost efficiencies to capable to des...
In the recent past, communication is predominantly becoming wireless which is a drastic shift from w...
In this article, we present a novel fixed-point 16-bit word-width 64-point FFT/IFFT processor develo...
Fast Fourier Transform (FFT), the time domain and frequency domain transformation, is a necessity in...
DSP has become a key component, in many of the user, communications, medical and industrial products...
The prevalent need for very high-speed digital signals processing in wireless communications has dri...
In this paper, we introduce a fixed-point 16bit 64point FFT processor architecture for OFDM-based wi...
In this paper, we introduce Aa fixed-point 16bit 64point FFT processor for OFDM-based wireless appli...
In this paper, we introduce a fixed-point 16bit 64point FFT processor for OFDM-based wireless applic...
The Fast Fourier Transform (FFT) Algorithm is an efficient way to calculate the Discrete Fourier Tra...
Fast Fourier Transform (FFT) processing is one of the key procedure in popular Orthogonal Frequency ...
II In this paper, we propose a low cost and variable length FFT processor for the Orthogonal Frequen...
This paper proposes that several FFT algorithms such as radix-2, radix-4 and split radix were design...
In some cases, signal processing is easier in frequency-domain and Discrete Fourier Transform (DFT) ...
A parallel and pipelined Fast Fourier Transform (FFT) processor for use in the Orthogonal Frequency ...
Most communications systems tend to achieve bandwidth, power and cost efficiencies to capable to des...
In the recent past, communication is predominantly becoming wireless which is a drastic shift from w...
In this article, we present a novel fixed-point 16-bit word-width 64-point FFT/IFFT processor develo...
Fast Fourier Transform (FFT), the time domain and frequency domain transformation, is a necessity in...
DSP has become a key component, in many of the user, communications, medical and industrial products...
The prevalent need for very high-speed digital signals processing in wireless communications has dri...