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INTEGRATED SYSTEMS IN THE MORE-THAN-MOORE ERA: DESIGNING LOWCOST ENERGY-EFFICIENT SYSTEMS USING PONENTS
Abstract — Moore’s law has provided a metronome for semiconductor technology over the past four decades. However, when CMOS transistor feature size and interconnect dimensions approach their fundamental limits, aggressive scaling will no longer play a significant role in performance improvement. How should the semiconductor industry provide new value in each generation of products in such a scenario? While Moore’s law driven scaling has traditionally focused on putation performance and memory capacity, electronic systems of the future will provide value
by being multi-functional. We envision that integrated systems of the future will perform diverse functions such as real-time sensing, energy harvesting, and on-chip testing, to name a such diverse functionality with high performance, high reliability and a low energy budget in a single system requires a radical shift in the principles of system design and integration. Instead of focusing on improving the performance of traditional digital CMOS circuits (“More Moore”) or exploring nanotechnologies for Silicon and CMOS replacements (“Beyond CMOS”), we espouse cohesive design and integration of multiple device technologies and ponents in a single heterogeneous system that is highperformance, energy-efficient and reliable. This paper outlines our vision in this direction, and supports it with illustrative design scenarios.
摘要——在过去的是十年里摩尔定律为半导体技术提供一个节拍器。然而,当CMOS晶体管特征尺寸和互连
尺寸接近其基本的限制时,积极进取的比例将在改善性能方面不再发挥显著作用。在这样的情况下半导体行业应如何提高每一代产品的价值。虽然摩尔定律驱动的比例历来注重提高计算,能和内存容量,但是未来的电子系统将提供更多功能的价值。我们设想未来的集成系统将执行不同的功能,如如实时传感,能量收集,片上测试,仅举几例。启用如此具有高性能高可靠性的多样化功能和在一个单一的系统里实行能搞低预算的原则需要在系统的设计和集成原则上有根本性的转变。而不是专注于改进传统的数字CMOS电路的性能(“摩尔定律”)或探索
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