A dual-application low-power FFT processor for WLAN-integrated SD-OCT systems
Consumer Electronics(2012)
摘要
This paper presents a dual-application FFT processor for spectral domain optical coherence tomography (SD-OCT) systems integrated with a wireless local area networking (WLAN) module. A high-radix multimode FFT kernel together with the four-path memory-data access scheme is proposed to improve the hardware efficiency. By the proposed memory-based architecture, multimode 2048/1024-point FFT×2 (for SD-OCT) or 128/64-point FFT×4 (for WLAN) can be performed in an energy-efficient manner. A test chip has been designed using a TSMC 0.18μm process with a core area of 4.12 mm2. Through post-layout simulation, the power consumption is 69.2 mW and 72.7 mW at 40 MHz for OCT/2048-point FFT×2 and WLAN/128-point FFT×4 modes, respectively. Compared to the referred, the power saving of 26%~53% can be achieved using the proposed design.
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关键词
biomedical communication,fast fourier transforms,medical image processing,optical tomography,wireless lan,128-64-point fft,tsmc process,wlan-integrated sd-oct systems,dual-application low-power fft processor,four-path memory-data access scheme,frequency 40 mhz,hardware efficiency,high-radix multimode fft kernel,memory-based architecture,multimode 2048-1024-point fft,post-layout simulation,power 69.2 mw,power 72.7 mw,size 0.18 mum,spectral domain optical coherence tomography systems,wireless local area networking module,fft (fast fourier transform),oct (optical coherence tomography),wlan (wireless local area networking),coherence,kernel,tomography,throughput,biomedical imaging
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