High performance CMOS in silicide to sapphire (CMOS/STS)

Proceedings. SOS/SOI Technology Workshop Pub Date : 1988-10-03 DOI:10.1109/SOI.1988.95442
R. Reedy, M. Burgener, S. R. Clayton, O. Csanadi, W. Dubbelday, G. Garcia, B. Offord
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引用次数: 1

Abstract

Summary form only given, as follows. HIgh-performance circuitry has been designed, simulated, fabricated, and tested in 100-nm thick double-solid-phase-epitaxy SOS. The source and drain regions outside the oxide sidewall spacers were silicided to the sapphire substrate, thereby providing self-aligned contacts to the transistors as well as an additional level of interconnects. The n/sup +/ and p/sup +/ regions under the oxide sidewalls serve as the actual source and drain regions. Ring oscillators with a 1.25- mu m gate length exhibit 120-ps gate delays, which compare well to simulation results of 125 ps. Simulations of electron-beam-written 0.5- mu m-gate-length ring oscillators predict gate delays of about 40 ps.<>
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高性能硅化-蓝宝石CMOS (CMOS/STS)
仅给出摘要形式,如下。在100纳米厚双固相外延SOS上设计、模拟、制造和测试了高性能电路。氧化物侧壁间隔外的源极和漏极区域被硅化到蓝宝石衬底上,从而为晶体管提供自对准触点以及额外的互连水平。氧化物侧壁下的n/sup +/和p/sup +/区域作为实际的源区和漏区。栅极长度为1.25 μ m的环形振荡器的栅极延迟为120-ps,与模拟结果125 ps相比效果良好。电子束写入0.5 μ m栅极长度的环形振荡器的模拟预测栅极延迟约为40 ps。
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Proceedings. SOS/SOI Technology Workshop
Proceedings. SOS/SOI Technology Workshop
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