Introduction to functionality-enhanced devices

Functionality-Enhanced Devices An alternative to Moore's Law Pub Date : 2018-11-29 DOI:10.1049/pbcs039e_ch1
P. Gaillardon
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Abstract

For more than four decades, the semiconductor industry answered the demand for an increasingly higher level of integration and performance by following Moore's law [1], which predicts that the number of transistors and thus the complexity of circuits that can be integrated economically doubles every 18-24 months. Moore's law led us today to manufactured devices with dimensions of few tens of nanometers [2-5]. However, while the reduction of device dimensions increases the computing density, i.e., the maximal possible number of computations per unit area and time, the research community commonly admits that Moore's law is at its twilight and that innovations are required toward a more sustainable route [6-8].
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介绍功能增强的设备
四十多年来,半导体行业通过遵循摩尔定律[1]来满足对越来越高的集成度和性能的需求。摩尔定律预测,每18-24个月,可以经济地集成的晶体管数量和电路的复杂性就会翻一番。摩尔定律使我们今天制造出的器件尺寸只有几十纳米[2-5]。然而,虽然设备尺寸的减小增加了计算密度,即单位面积和时间内最大可能的计算次数,但研究界普遍承认摩尔定律已处于黄昏阶段,需要创新以实现更可持续的路线[6-8]。
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Functionality-Enhanced Devices An alternative to Moore's Law
Functionality-Enhanced Devices An alternative to Moore's Law
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