A Case for Packageless Processors

2018 IEEE International Symposium on High Performance Computer Architecture (HPCA) Pub Date : 2018-02-28 DOI:10.1109/HPCA.2018.00047

Saptadeep Pal, Daniel Petrisko, A. Bajwa, Puneet Gupta, S. Iyer, Rakesh Kumar

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引用次数: 18

Abstract

Demand for increasing performance is far outpacing the capability of traditional methods for performance scaling. Disruptive solutions are needed to advance beyond incremental improvements. Traditionally, processors reside inside packages to enable PCB-based integration. We argue that packages reduce the potential memory bandwidth of a processor by at least one order of magnitude, allowable thermal design power (TDP) by up to 70%, and area efficiency by a factor of 5 to 18. Further, silicon chips have scaled well while packages have not. We propose packageless processors - processors where packages have been removed and dies directly mounted on a silicon board using a novel integration technology, Silicon Interconnection Fabric (Si-IF). We show that Si-IF-based packageless processors outperform their packaged counterparts by up to 58% (16% average), 136%(103% average), and 295% (80% average) due to increased memory bandwidth, increased allowable TDP, and reduced area respectively. We also extend the concept of packageless processing to the entire processor and memory system, where the area footprint reduction was up to 76%.

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无封装处理器的案例

提高性能的需求远远超过了传统性能扩展方法的能力。需要颠覆性的解决方案来超越渐进式改进。传统上，处理器驻留在包中以实现基于pcb的集成。我们认为封装将处理器的潜在存储带宽减少了至少一个数量级，允许热设计功率(TDP)减少了高达70%，面积效率减少了5到18倍。此外，硅芯片可以很好地扩展，而封装则不行。我们提出无封装处理器，即使用新型集成技术硅互连结构(Si-IF)将封装移除并直接安装在硅板上的处理器。我们表明，基于si - if的无封装处理器的性能分别比封装处理器高出58%(平均16%)、136%(平均103%)和295%(平均80%)，这是由于内存带宽的增加、允许TDP的增加和面积的减少。我们还将无封装处理的概念扩展到整个处理器和内存系统，其中面积占用减少高达76%。

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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2018 IEEE International Symposium on High Performance Computer Architecture (HPCA)

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