A 64-core platform for biomedical signal processing

Jordan Bisasky, H. Homayoun, F. Yazdani, T. Mohsenin
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引用次数: 13

Abstract

This paper presents a programmable many-core platform containing 64 cores routed in a hierarchical network for biomedical signal processing applications. Individual core processors are based on a RISC architecture with DSP enhancement blocks. Given the number of conditional program loops in DSP applications such as FFT, additional hardware blocks are added that operate in parallel to each core processor. The two blocks calculate the FFT input addresses and determine if a conditional loop is necessary. Performing these operations in parallel to the main processor greatly reduces the time to completion for a DSP application. Each processor is implemented in 65 nm CMOS using standard cell libraries. The 64-core platform occupies 19.51 mm2 and runs at 1.18 GHz at 1 V. For demonstration, Electroencephalogram (EEG) seizure detection and analysis and ultrasound spectral doppler are mapped onto the cores. The seizure detection and analysis algorithm utilizes 60 processors and takes 890 ns to execute. Spectral doppler utilizes 29 processors and takes 715 ns to run.
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64核生物医学信号处理平台
提出了一种基于分层网络的64核可编程多核平台,用于生物医学信号处理。单个核心处理器基于带有DSP增强块的RISC架构。考虑到诸如FFT等DSP应用中条件程序循环的数量,增加了与每个核心处理器并行操作的附加硬件块。这两个块计算FFT输入地址并确定是否需要条件循环。与主处理器并行执行这些操作大大减少了DSP应用程序的完成时间。每个处理器都使用标准单元库在65nm CMOS中实现。64核平台占地19.51 mm2, 1v工作频率1.18 GHz。为了证明,脑电图(EEG)癫痫检测和分析和超声多普勒频谱被映射到核心。癫痫检测和分析算法使用60个处理器,执行时间为890ns。频谱多普勒使用29个处理器,运行时间为715 ns。
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