High-speed real-time digital frequency analysis is one major field of Fast Fourier Transform(FFT)application,such as Synthetic Aperture Radar(SAR)processing and medical imaging.In SAR processing,the image size could b...High-speed real-time digital frequency analysis is one major field of Fast Fourier Transform(FFT)application,such as Synthetic Aperture Radar(SAR)processing and medical imaging.In SAR processing,the image size could be 4 k×4 k in normal and it has become larger over the years.In the view of real-time,extensibility and reusable characteristics,an Field Programmable Gate Array(FPGA)based multi-channel variable-length FFT architecture which adopts radix-2 butterfly algorithm is proposed in this paper.The hardware implementation of FFT is partially reconfigurable architecture.Firstly,the proposed architecture in the paper has flexibility in terms of chip area,speed,resource utilization and power consumption.Secondly,the proposed architecture combines serial and parallel methods in its butterfly computations.Furthermore,on system-level issue,the proposed architecture takes advantage of state processing in serial mode and data processing in parallel mode.In case of sufficient FPGA resources,state processing of serial mode mentioned above is converted to pipeline mode.State processing of pipeline mode achieves high throughput.展开更多
在宽带高精度光子模数转换(Photonic Analog-to-Digital Converter,PADC)系统中,频综模块主要用于驱动PADC系统中的光开关阵列来实现并行解复用功能。介绍了PADC系统中的频综模块设计与实现,通过优化设计频综模块的内部器件可以调节光...在宽带高精度光子模数转换(Photonic Analog-to-Digital Converter,PADC)系统中,频综模块主要用于驱动PADC系统中的光开关阵列来实现并行解复用功能。介绍了PADC系统中的频综模块设计与实现,通过优化设计频综模块的内部器件可以调节光开关阵列的并行解复用性能,从而改善PADC系统的量化有效比特位数(Effective Number of Bits,ENOB)。实验对比分析了不同频综模块结构对PADC系统性能的影响,在9.812GHz的微波信号输入下的量化ENOB达7.73位,证明了频综模块优化设计方案的有效性。展开更多
基金The work was supported by National Natural Science Foundation of China(61271149)and by Beijing Natural Science Foundation(4144093)
文摘High-speed real-time digital frequency analysis is one major field of Fast Fourier Transform(FFT)application,such as Synthetic Aperture Radar(SAR)processing and medical imaging.In SAR processing,the image size could be 4 k×4 k in normal and it has become larger over the years.In the view of real-time,extensibility and reusable characteristics,an Field Programmable Gate Array(FPGA)based multi-channel variable-length FFT architecture which adopts radix-2 butterfly algorithm is proposed in this paper.The hardware implementation of FFT is partially reconfigurable architecture.Firstly,the proposed architecture in the paper has flexibility in terms of chip area,speed,resource utilization and power consumption.Secondly,the proposed architecture combines serial and parallel methods in its butterfly computations.Furthermore,on system-level issue,the proposed architecture takes advantage of state processing in serial mode and data processing in parallel mode.In case of sufficient FPGA resources,state processing of serial mode mentioned above is converted to pipeline mode.State processing of pipeline mode achieves high throughput.
文摘在宽带高精度光子模数转换(Photonic Analog-to-Digital Converter,PADC)系统中,频综模块主要用于驱动PADC系统中的光开关阵列来实现并行解复用功能。介绍了PADC系统中的频综模块设计与实现,通过优化设计频综模块的内部器件可以调节光开关阵列的并行解复用性能,从而改善PADC系统的量化有效比特位数(Effective Number of Bits,ENOB)。实验对比分析了不同频综模块结构对PADC系统性能的影响,在9.812GHz的微波信号输入下的量化ENOB达7.73位,证明了频综模块优化设计方案的有效性。
