ACE16K:带数字I/O的128/spl次/128焦平面模拟处理器

Proceedings of the 2002 7th IEEE International Workshop on Cellular Neural Networks and Their Applications Pub Date : 2002-07-22 DOI:10.1109/CNNA.2002.1035045

G. Liñán, Á. Rodríguez-Vázquez, S. Espejo, R. Domínguez-Castro

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引用次数: 14

摘要

本文从系统级的角度提出了新一代128/spl次/128焦平面模拟可编程阵列处理器(FPAPAP)，该处理器采用0.35 /spl μ m标准数字1P-5M CMOS技术制造。该芯片旨在实现大多数实时早期视觉处理应用的高速和中等精度(8b)要求。它很容易嵌入到传统的数字主机系统中:外部数据交换和控制是完全数字化的。该芯片包含近400万个晶体管，其中90%工作在模拟模式下，并且具有相对较低的功耗-< 4w，即每个晶体管低于1 /spl mu/W。计算与功率的峰值约为1 TeraOPS/W，而保持100帧/s的VGA处理吞吐量是可能的，每帧上大约有10-20个基本图像处理任务。

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ACE16K: a 128/spl times/128 focal plane analog processor with digital I/O

This paper presents a new generation 128/spl times/128 focal-plane analog programmable array processor (FPAPAP), from a system level perspective, which has been manufactured in a 0.35 /spl mu/m standard digital 1P-5M CMOS technology. The chip has been designed to achieve the high-speed and moderate-accuracy (8b) requirements of most real time early-vision processing applications. It is easily embedded in conventional digital hosting systems: external data interchange and control are completely digital. The chip contains close to four millions transistors, 90% of them working in analog mode, and exhibits a relatively low power consumption-<4 W, i.e. less than 1 /spl mu/W per transistor. Computing vs. power peak values are in the order of 1 TeraOPS/W, while maintained VGA processing throughputs of 100 frames/s are possible with about 10-20 basic image processing tasks on each frame.

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Proceedings of the 2002 7th IEEE International Workshop on Cellular Neural Networks and Their Applications

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