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一种用于物联网应用的新型混合信号闪存有限脉冲响应 (FFIR) 滤波器.pdf

上传人: 芦苇 编号:651839 2025-05-01 23页 1.81MB

1、A Novel Mixed-Signal Flash-based Finite Impulse Response(FFIR)Filter for IoT ApplicationsCheng-Yen LeeSunil P.KhatriAli Ghrayeb+Texas A&M University,College Station,USA+Texas A&M University at Qatar,Doha,Qatar1Outline Introduction Prior Works and Motivation Background:Flash Transistor Proposed Struc

2、ture Flash-based Finite Impulse Response(FFIR)Filter Flash-based Coefficient Multiplier(FCM)Experimental Results Simulation Environment Setup Performance of FCM Performance of FFIR Comparison Conclusions2Introduction Low-power Internet of Things(IoT)devices have recently gainedsignificant attention.

3、These IoT devices collect and process information with extremely limited computing resources.For IoT devices implementing Digital Signal Processing(DSP)applications,the power budget for the filtering operation can be significant.Achieving optimal performance while minimizing power consumption,energy

4、 usage,and chip area becomes a key design requirement.Among the different types of filters in DSP applications,the Finite Impulse Response(FIR)filter is widely used,due to its simplicity,stability,and linear phase response.3Introduction:Digital FIR Filter A direct-form N-tap Digital FIR(DFIR)filter

5、comprises A delay line:Stores input signal samples.N coefficient multipliers:Multiply samples with filter coefficients(C0-N-1).N-1 summation circuits:Sum multiplier results to produce the final output.To achieve rigorous filter specifications,such as narrow transition band and high stopband attenuat

6、ion,DFIR filters require a large number of taps.The use of DFIR filters with a large number of taps becomes impractical for IoT devices.Increases power consumption4Prior Works and Motivation Several prior works have focused on the development of Analog FIR(AFIR)filters,leveraging analog computation

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本文提出了一种适用于物联网设备的新型混合信号闪存基有限冲激响应(FFIR)滤波器。该滤波器利用闪存晶体管存储系数,通过调整其阈值电压来实现系数的编程和重写,从而实现系数的优化和维护。与传统的数字FIR滤波器相比,该滤波器在功率、能量和面积上都有显著的优势。实验结果表明,该滤波器在性能上满足现实应用的需求,并且在处理速度、能量效率和尺寸上都有明显的改进。与现有的低功耗物联网应用的模拟FIR滤波器相比,该滤波器在延迟、能量每抽头和面积上都有显著的减少。
"Flash-based FIR滤波器如何改善物联网设备的性能?" "如何通过调整Flash晶体管的阈值电压来实现系数乘法?" "FFIR滤波器与传统DFIR滤波器相比,在物联网应用中有什么优势?"
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