M. Casale-Rossi, P. Leduc, G. Micheli, P. Blouet, B. Farley, A. Fontanelli, D. Milojevic, Steve Smith
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引用次数: 4
Abstract
If asked "who needs faster planes?" the vast majority of the 2.75 billion airline passengers (source: IATA 2011) would say that they do need faster planes, and that they need them right now. Still, the commercial aircrafts cruising speed has remained the same -- 800 km/hour -- over the last 50+ years, and after the sad end of the Concorde project, neither Airbus nor Boeing are seriously working on the topic. Along the same lines, when asked "who needs 3D-IC?", most IC designers say that they desperately need 3D-IC to keep advancing electronic products performance, whilst addressing the needs of higher bandwidth, lower cost, heterogeneous integration, and power constraints. Still, 3D-IC continues to be the technology of the future. What are the road blocks towards 3D-IC adoption? Is it process technology, foundry or OSAT commercial offering, or EDA, or the business economics that is holding 3D-IC on the ground? In the introductory presentation of this panel session, LETI Patrick Leduc will illustrate the state-of-the-art of commercial, mainstream 3D-IC. EPFL Professor Giovanni de Micheli will then moderate an industry and research panel, to understand what are the key factors preventing 3D-IC from becoming the technology of today.
如果被问到“谁需要更快的飞机?”27.5亿航空乘客中的绝大多数人会说他们确实需要更快的飞机,而且他们现在就需要。尽管如此,商用飞机的巡航速度在过去的50多年里一直保持在800公里/小时,在协和式飞机项目的悲惨结局之后,空客和波音都没有认真研究这个话题。同样,当被问及“谁需要3D-IC?”时,大多数IC设计师表示,他们迫切需要3D-IC来不断提高电子产品的性能,同时满足更高带宽、更低成本、异构集成和功耗限制的需求。尽管如此,3D-IC仍然是未来的技术。采用3d集成电路的障碍是什么?是工艺技术、铸造厂或OSAT商业产品、EDA还是商业经济推动了3D-IC的发展?在本次小组会议的介绍中,LETI Patrick Leduc将介绍最新的商业主流3D-IC。随后,EPFL教授Giovanni de Micheli将主持一个行业和研究小组,以了解阻碍3D-IC成为当今技术的关键因素。
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