1-D离散时间CNN与多路模板硬件

1998 Fifth IEEE International Workshop on Cellular Neural Networks and their Applications. Proceedings (Cat. No.98TH8359) Pub Date : 1998-04-14 DOI:10.1109/CNNA.1998.685384

Gabriele Manganaro, J. P. D. Gyvez

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引用次数: 1

摘要

虽然cnn的VLSI在二维信号处理方面取得了重大进展，但在音频信号处理和一维滤波等一维应用方面却进展甚微。本文提出了一种适合于这类应用的离散时间可编程细胞神经网络。提出的VLSI实现基于众所周知的S/sup 2/I技术，该技术在其他特性中最大限度地减少了时钟馈通效应。这一特点提供了一个精确的信号处理单元。该系统的主要组成部分是一个模拟移位寄存器和一个开关电流乘法器。然而，系统架构本身是新颖的。也就是说，在控制时钟的各个阶段，通过在A*y和B*u产品之间共享乘法器来最小化乘法器的数量。文中给出了系统结构的详细仿真结果。

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1-D discrete time CNN with multiplexed template hardware

While VLSI of CNNs has seen significant progress in two-dimensional signal processing little has been done for one-dimensional applications such as audio signal processing and 1-D filtering. The paper presents a discrete-time programmable cellular neural network suitable for these kind of applications. The proposed VLSI implementation is based on the well-known S/sup 2/I technique that among other properties minimizes clock feedthrough effects. This feature renders an accurate signal processing unit. The system's main building blocks are an analog shift register and a switched current multiplier. Yet, the system architecture is novel by itself. Namely, the number of multipliers has been minimized by sharing the multipliers between the A*y and B*u products during the various phases of the controlling clock. The paper presents detailed simulation results of the system architecture.

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1998 Fifth IEEE International Workshop on Cellular Neural Networks and their Applications. Proceedings (Cat. No.98TH8359)

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