用于GaAs多芯片并行处理系统的模块

40th Conference Proceedings on Electronic Components and Technology Pub Date : 1990-05-20 DOI:10.1109/ECTC.1990.122246

T. Miyagi, K. Itoh, S. Kimijima, T. Sudo

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引用次数: 2

摘要

基于多芯片封装技术，开发了并行处理系统的高速数据传输网络。使用工作频率为100mhz的8位片GaAs总线逻辑(BL) lsi，在一个模块中实现了连接多个处理器单元(pu)的高速数据传输网络。GaAs多芯片模块由12个GaAs BL lsi组成，构成一个3*4矩阵。每个GaAs芯片都密封在带有凸点的芯片载体中。芯片载体倒装键合到铜/聚酰亚胺薄膜多层衬底上。模块上信号线的特性阻抗控制在75 ω，以兼容GaAs原有的接口电平。薄膜终端电阻器在衬底中采用Ni/Cr制成，以防止反射。采用新研制的热管散热模块，以2m /s的空气流速高效散热，散热总功耗为90w，噪声低。芯片对环境介质的总热阻约为3℃/W。由4个模块堆叠48个GaAs接口，可实现3gb /s的数据传输速率(32b * 100mhz)。

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GaAs multichip module for a parallel processing system

A high-speed data transfer network for a parallel processing system has been developed on the basis of multichip packaging technology. The high-speed data transfer network connecting multiple processor units (PUs) has been achieved in a module using 8 bit-slice GaAs bus logic (BL) LSIs operating at 100 MHz. The GaAs multichip module consists of 12 GaAs BL LSIs in a 3*4 matrix. Each GaAs chip is sealed in a chip carrier with bumps. The chip carrier is flip-chip bonded to the copper/polyimide thin-film multilayer substrate. The characteristic impedance of the signal lines on the module is controlled to 75 Omega to be compatible with the GaAs original interface level. The thin-film termination resistors are made of Ni/Cr in the substrate to prevent reflections. A total power dissipation of 90 W of the module was efficiently radiated by a newly developed heat-pipe cooling module at 2-m/s air flow velocity with low acoustical noise. the total thermal resistance from the chip to the ambient medium was approximately 3 degrees C/W. A 3-Gb/s data transfer rate (32 b*100 MHz) can be realized by four stacked modules of 48 GaAs BLs.<>

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来源期刊

40th Conference Proceedings on Electronic Components and Technology

CiteScore

3.10

自引率

0.00%

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