文件名称:isscc2018第一章的详细ppt
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更新时间:2021-10-01 04:14:20
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Overall, the four Plenary talks address a wide variety of topical issues: In today’s highly competitive global environment, business pressures are driving the semiconductor industry to avoid risk and to develop new products following a model of incrementalism and consolidation. Vince Roche, CEO of Analog Devices argues that such pressures must be resisted if the semiconductor industry is to continue to carry the mantle of technological leadership and maintain a bright future. He concludes that application challenges such as the spread of pervasive ubiquitous sensing, rapid advances in artificial intelligence, heterogeneous integration, and the continued impact of digitization on virtually every industry on earth, will require more, not less, semiconductor innovation. Recent developments in cognitive and neuro-sciences are bringing new understanding as to how the human brain processes information through distributed and connected pathways. Barbara de Salvo, Deputy Director for Science and Long-Term Research for CEA-Leti, discusses how these new discoveries are driving new models of semiconductor computing, which have the potential to enable step-change improvements in processing efficiency. She outlines a research strategy encompassing algorithms, circuits, and components, that aims to develop brain-inspired technologies to meet the needs of 21st-century applications. The automotive industry is undergoing a once-in-a-lifetime transformation, where technologies once seen to be in the realm of science fiction, such as electric vehicles and autonomous cars, are rapidly becoming a reality. Yukihiro Kato, Executive Director of Denso explains how the semiconductor industry has a vital role to play in solving many of the technical challenges (ranging from efficient energy conversion and smart sensing, to real-time communication and decision making) that must be overcome to enable the reality of this future ‘mobility-enhanced society’. Our modern society has been revolutionised by the development of powerful and ubiquitous computing devices. David Patterson of Google and UC Berkeley reviews 50 years of innovation in computer architectures, from mainframe computers in the 1960s to the dominant RISC architecture of recent times. With the end of Moore’s Law slowing the pace of improvements due to scaling, Patterson describes how this slowdown is actually rejuvenating innovation in computer architectures, as future performance improvements cannot come from scaling alone. With this line-up of speakers, the Plenary Session covers a wide range of topics, ranging from semiconductor industry challenges and brain-inspired computing, to future automotive transportation and the history and future of computer architectures. We hope that you will find the presentations of our distinguished speakers informative and inspiring.