Abstract
Problem statement: Fast Fourier Transform (FFT) is widely applied in OFDM trance-receiver communications system. Hence efficient FFT algorithm is always considered. Approach: This study proposed FPGA realization of high resolution high speed low latency floating point adder/subtractor for FFT in OFDM trance-receiver. The design was implemented for 32 bit pipelined adder/subtractor which satisfied IEEE-754 standard for floating-point arithmetic. The design was focused on the trade-off between the latency and speed improvement as well as resolution and silicon area for the chip implementation. In order to reduce the critical path and decrease the latency, the novel structure was designed and investigated. Results: Consequently, synthesis report indicated the latency of 4 clock cycles due to each stage operated within just one clock cycle. The unique structure of designed adder well thought out resulted 6691 equivalent gate count and lead us to obtain low area on chip. Conclusion: The synthesis Xilinx ISE software provided results representing the estimated area and delay for design when it is pipelined to various depths. The report showed the minimum delay of 3.592 ns or maximum frequency of 278.42 MHz.
Highlights
Orthogonal Frequency Division Multiplexing (Bingham, 1990) (OFDM) techniques have received immense attention in high-speed data communication systems such as Wireless local Area Network (WAN), digital audio/video broadcasting and beyond 3G research (Tian, et al, 2004).OFDM is a multi-carrier transmission technique, which divides the available spectrum into many carriers, each one being modulated by a low rate data stream
Inverse Fast Fourier Transform (IFFT) or Fast Fourier Transform (FFT) transforms are used to get the signal in time domain or spectrum frequency
All the results show that the effort is taken to achieve low latency and area, high resolution and speed
Summary
Orthogonal Frequency Division Multiplexing (Bingham, 1990) (OFDM) techniques have received immense attention in high-speed data communication systems such as Wireless local Area Network (WAN), digital audio/video broadcasting and beyond 3G research (Tian, et al, 2004).OFDM is a multi-carrier transmission technique, which divides the available spectrum into many carriers, each one being modulated by a low rate data stream. Orthogonal Frequency Division Multiplexing (Bingham, 1990) (OFDM) techniques have received immense attention in high-speed data communication systems such as Wireless local Area Network (WAN), digital audio/video broadcasting and beyond 3G research (Tian, et al, 2004). Inverse Fast Fourier Transform (IFFT) or Fast Fourier Transform (FFT) transforms are used to get the signal in time domain or spectrum frequency. High speed and low latency, FFT would not be achieved unless with efficient elements in particular such the butterfly component. The performance of butterfly is greatly depending on its adders and subtractors. This research with emphasis of the simple structures, focused on design and implementation of efficient high performance floating point adder/subtractor for FFT algorithm
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