Modeling and simulation of nanoscale temperature behavior for multilayer full chip system

N. Alias, Md. Rajibul Islam, Abdul Hafidz Haji Omar
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引用次数: 2

Abstract

Thermal effects become gradually more significant as devices get smaller on-chip. Modeling and simulations indicate that chip temperatures will increase exponentially beyond acceptable values, prompting researchers to investigate thermal effects. Research and technology development at the atomic, molecular or macromolecular levels, in the length scale of approximately 1 – 100 nanometer range, to provide a fundamental understanding of phenomena and semiconductor devices at the nanoscale and to create and use structures, devices and systems that have novel properties and functions because of their small and/or intermediate size (US NSET, 2000).
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多层全芯片系统纳米尺度温度行为的建模与仿真
随着芯片上器件的体积越来越小,热效应变得越来越显著。模型和模拟表明,芯片温度将呈指数增长,超出可接受的值,促使研究人员研究热效应。在原子、分子或大分子水平上的研究和技术开发,在大约1 - 100纳米的长度范围内,提供对纳米尺度上的现象和半导体器件的基本理解,并创造和使用结构、器件和系统,这些结构、器件和系统由于它们的小和/或中等尺寸而具有新颖的特性和功能(US NSET, 2000)。
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