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Cointegration of optoelectronics and submicron CMOS

1993 Proceedings Fifth Annual IEEE International Conference on Wafer Scale Integration Pub Date : 1993-01-20 DOI:10.1109/ICWSI.1993.255242
S. Tewksbury, L. Hornak, H. Nariman, S. M. Langsjoen, S. Mcginnis
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引用次数: 3

Abstract

Two specific issues impacting the eventual application of optical interconnection in full-wafer systems are addressed. The first issue is growth of GaAs semiconductor regions within a silicon wafer scale integration (WSI) or multichip module (MCM) substrate containing high performance silicon CMOS circuitry, in order to cointegrate optical and silicon VLSI devices. The second concerns the addition of VLSI electronics to obtain a detector array which can electronically establish alignment with an incident bundle of optical beams. These issues are considered from the perspective of massively parallel optical interconnections between packaged wafer-level components.<>
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光电子学与亚微米CMOS的协整
影响光互连在全晶圆系统中的最终应用的两个具体问题被解决。第一个问题是在包含高性能硅CMOS电路的硅晶圆级集成(WSI)或多芯片模块(MCM)衬底内生长GaAs半导体区域,以便协集成光学和硅VLSI器件。第二个涉及到VLSI电子器件的添加,以获得一个探测器阵列,该阵列可以通过电子方式与入射光束束建立对齐。这些问题是从封装的晶圆级组件之间大规模并行光互连的角度来考虑的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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1993 Proceedings Fifth Annual IEEE International Conference on Wafer Scale Integration
1993 Proceedings Fifth Annual IEEE International Conference on Wafer Scale Integration
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