本篇代写assignment-纳米级CMOS讲了CMOS的可能的应用在文章的第四部分就纳米的体制进行了研究。有人认为,电力的消耗决定了对使用该技术可实现的元素和不可实现的组件的大部分考虑(Shrivastava et al., 2013)。本研究的作者指出,从以往的经验中确定的最重要的观察是,通过定制设计的特殊处理器,能够在低功耗的情况下工作,从而获得低功耗的机会。这是公认的,以改善和扩大应用的CMOS跨不同的项目。本篇代写assignment文章由新西兰第一论文 Assignment First辅导网整理,供大家参考阅读。
The CMOS’s possible applications were examined within the fourth section of the article with respect to the regime of nanometre. It is suggested that the consumption of the power dictates majority of the consideration about the elements that are achievable and the unachievable components with the use of this technology (Shrivastava et al., 2013). The authors of this study indicated that the most essential observation identified form the previous experiences is the opportunity to attain the low consumption of the power through the customized design of the special processors that are capable to function with low power. This is recognized to improve and extend the application of the CMOS across the different items.
The researchers hold the view that GPP era can end like the microprocessors with the x86 architecture for various applications majorly in the similar manner that the mainframe computer was replaced by the emergence of the personal computer (Wang et al., 2013). The article suggests that the x86 microprocessors will be replaced by the microprocessors that are specific to application namely ASuPs. This is established to take place in the future for the personal gadgets and daily appliances that are compute enabled. The growing need of the consumers has shifted towards the low power consumption and the high level of integration in order to meet the changing demands. New possibilities are presented with the CMOS of nanoscale like the applications of RF (Wong et al., 2005). The newer possibilities emerge along with bringing newer obstacles to the applications like imaging that already exists. It is shown from the analysis in this article that the video wristwatch that functions two way had been an object of interest among the engineering and science enthusiasts. However, this can be possible with the nanoscale CMOS but with the limited quality of video. Therefore, wide range of applications will be possible to take place.
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