2017
DOI: 10.1109/mmm.2016.2635838
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A Meeting of Materials: Integrating Diverse Semiconductor Technologies for Improved Performance at Lower Cost

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Cited by 19 publications
(6 citation statements)
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“…例如通用异质 集成和知识产权重用战略 (common heterogenous integration and IP reuse strategies, CHIPS)、多样化 可用异质集成 (diverse accessible heterogeneous integration, DAHI)、 三维单芯片系统 (three dimensional monolithic system-on-a-chip, 3DSoC)、 可缩放毫米波架构可重构收发机 (scalable millimeter-wave architectures for reconfigurable transceivers, SMART) 等, 旨在从高效设计、多元工艺和重构架构等方 面引领电子技术革命. 在 DAHI 和更早的硅基化合物半导体材料 (compound semiconductor materials on silicon, COSMOS) 项目支持下, 已经形成了异质生长、薄膜转移、小芯片组装和晶圆键合 4 类异质 异构集成技术路线 [33] , 如图 9 所示. DRAPA 试图通过异质集成等先进技术使电子系统探测能力和速 度提高 100 倍, 体积、重量和功耗下降为 1/100.…”
Section: 多功能无源元件unclassified
“…例如通用异质 集成和知识产权重用战略 (common heterogenous integration and IP reuse strategies, CHIPS)、多样化 可用异质集成 (diverse accessible heterogeneous integration, DAHI)、 三维单芯片系统 (three dimensional monolithic system-on-a-chip, 3DSoC)、 可缩放毫米波架构可重构收发机 (scalable millimeter-wave architectures for reconfigurable transceivers, SMART) 等, 旨在从高效设计、多元工艺和重构架构等方 面引领电子技术革命. 在 DAHI 和更早的硅基化合物半导体材料 (compound semiconductor materials on silicon, COSMOS) 项目支持下, 已经形成了异质生长、薄膜转移、小芯片组装和晶圆键合 4 类异质 异构集成技术路线 [33] , 如图 9 所示. DRAPA 试图通过异质集成等先进技术使电子系统探测能力和速 度提高 100 倍, 体积、重量和功耗下降为 1/100.…”
Section: 多功能无源元件unclassified
“…For example, GaN devices can deliver a power density of 3.6 W/mm at 86 GHz in continuous wave operation and a P max of 3.6 Watt at 83 GHz was reported in pulse mode [44]. For an efficient implementation, there is also an ongoing effort to co-integrate GaN or III-V devices with CMOS or BiCMOS [45]. This co-integration can be enabled either by using monolithic integration where the III-V devices are placed next to CMOS in the same substrate or by employing heterogeneous integration to develop modules also incorporating microwave elements as well as Antennas-in-Package (AiP).…”
Section: A Semiconductor Technology Capabilitiesmentioning
confidence: 99%
“…For high-frequency applications in space and defense and the 5G application in the commercial world, heterogeneous integration for RF has become an essential task. Typically, hetero-integration of RF devices is done with different semiconductor materials not only CMOS to address the required specific performance like Diverse Accessible Heterogeneous Integration (DAHI) technology [193]. HI methods can be wafer to wafer (WTW), chip to wafer (CTW), or Chip to Chip (CTC), etc [194].…”
Section: Heterogeneous Integration Of Gan Hemtmentioning
confidence: 99%