Heterogeneous Power Delivery for 7nm High-Performance Chiplet-Based Processors Using Integrated Passive Device and In-Package Voltage Regulator

2020 IEEE Symposium on VLSI Technology Pub Date : 2020-06-01 DOI:10.1109/VLSITechnology18217.2020.9265105

A. Roth, Charlie Zhou, Mei Wong, E. Soenen, Tze-Chiang Huang, Paul Ranucci, Y. Hsu, Hung-Chih Lin, C. Kuo, Min-Jer Wang, Sheng-Yao Yang, J.R. Chu, Ting-Yu Yeh, K. Ting, A. Loke, S. Rusu, Mark Chen, F. Lee, Kevin Zhang, A. Kalnitsky

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引用次数: 7

Abstract

We demonstrate two heterogeneous solutions to improve power delivery to High-Performance Computing (HPC) processors. The scalable HPC vehicle integrates two 7nm CMOS processor chiplets, each with four ARM® Cortex®-A72 cores, that are mounted on a Chip-on-Wafer-on-Substrate (CoWoS®) silicon interposer [1]. In the first solution, Integrated Passive Device (IPD) capacitors are placed directly beneath the interposer to provide more accessible and effective supply noise decoupling. The result is 3.9% higher maximum clock frequency at a core supply of 1.135V. In the second solution, the processor is powered by a laterally mounted in-Package Voltage Regulator (PVR) built in 28nm CMOS augmented with high-per-meability on-die inductors. The processor performance provided by the buck converter-based PVR matches that by an off-package External Voltage Regulator (EVR). As processor power increases with higher core counts, PVRs with on-die inductors will be increasingly compelling for efficient system power delivery.

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采用集成无源器件和封装稳压器的7nm高性能芯片处理器的异构功率传输

我们展示了两种异构解决方案，以改善高性能计算(HPC)处理器的功率传输。可扩展的高性能计算车辆集成了两个7nm CMOS处理器芯片，每个芯片都有四个ARM®Cortex®-A72内核，安装在芯片-晶圆-基板(coos®)硅中间层上[1]。在第一种解决方案中，集成无源器件(IPD)电容器直接放置在中间插孔下方，以提供更易于访问和有效的电源噪声去耦。结果是在1.135V的核心电源下，最大时钟频率提高了3.9%。在第二种解决方案中，处理器由横向安装的封装内稳压器(PVR)供电，该稳压器内置在28nm CMOS中，增强了高每导率的片上电感器。基于降压变换器的PVR提供的处理器性能与外接电压调节器(EVR)相匹配。随着处理器功率随着核数的增加而增加，带有片上电感器的pvr将越来越有吸引力，以实现高效的系统供电。

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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2020 IEEE Symposium on VLSI Technology

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