Can we ensure reliability in the era of heterogeneous integration?

W. R. Bottoms
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Abstract

The rise of the Internet of Things and the migrations of data, logic and applications to the cloud are driving an explosive growth in demand for communications bandwidth at low latency. The traditional path for decreasing power requirement, reducing size, reducing cost and increasing performance can no longer support the market demands as we near the end of Moore's Law. The only solution lies in bringing components closer together through packaging. This requires heterogeneous integration with diversity of materials, circuit types, architectures and processes. Decreases in power, latency and cost while increasing performance and physical density of bandwidth are enabled by bringing the photons closer to the transistors. The introduction of complex 2.5D and 3D heterogeneous SiP integration is just beginning and it can be a solution but there are many difficult challenges. Active photonics, electronic and plasmonic components must be integrated into the same package with passive devices, RF, sensors and MEMS. Ensuring reliability at the system level will be more than just KGD and KGI.
在异构集成时代,我们能保证可靠性吗?
物联网的兴起以及数据、逻辑和应用程序向云的迁移正在推动低延迟通信带宽需求的爆炸式增长。随着摩尔定律的终结,降低功耗、缩小尺寸、降低成本和提高性能的传统途径已经无法满足市场需求。唯一的解决方案是通过封装使组件更紧密地连接在一起。这需要不同材料、电路类型、架构和工艺的异质集成。通过使光子更接近晶体管,可以降低功率、延迟和成本,同时提高性能和带宽的物理密度。复杂的2.5D和3D异构SiP集成的引入才刚刚开始,它可能是一个解决方案,但存在许多困难的挑战。有源光子学、电子和等离子体元件必须与无源器件、RF、传感器和MEMS集成到同一个封装中。确保系统级别的可靠性将不仅仅是KGD和KGI。
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