Improved access pattern for ROB soft error rate mitigation based on 3D integration technology

2015 International 3D Systems Integration Conference (3DIC) Pub Date : 2015-11-23 DOI:10.1109/3DIC.2015.7334590

Chao Song, Minxuan Zhang

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Abstract

With the progress of integrated circuit technology, the soft error problem has become more and more serious, which has become a real challenge for reliability design. 3D integrated technology, which is capable of stacking multi circuit layers in the vertical direction, offers the shielding effect to reduce the probability of soft errors. In this paper, we focus on reorder buffer(ROB), and conduct a fine-grained analysis of the AVF of each ROB entry. Based on the non-uniformity of AVF, the ROB is divided into two parts, which statically layout to different circuit layers in 3D chip. Based on the observation that ROB occupancy rate is low at most of the time, we propose a dynamic mapping access pattern and a migration access pattern further to reduce the soft error rate. Simulation results show that the soft error rate was reduced by 47.6%, 84.5% and 88.2% respectively, with the static layout, dynamic mapping and migration access patterns. Considering the correlation analysis on the soft error rate and the capacity of ROB, a better balance between the soft error rate reduction and the area overhead can be achieved if the capacity is 80.

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改进的基于三维集成技术的ROB软错误率降低访问模式

随着集成电路技术的进步，软误差问题日益严重，已成为可靠性设计面临的现实挑战。三维集成技术能够在垂直方向上堆叠多个电路层，提供屏蔽效果，降低软误差的概率。本文主要研究了重排序缓冲区(ROB)，并对每个ROB条目的AVF进行了细粒度分析。基于AVF的非均匀性，将ROB分为两部分，分别静态布局到三维芯片的不同电路层。在观察到大多数时间ROB占用率较低的基础上，我们提出了动态映射访问模式和迁移访问模式，以进一步降低软错误率。仿真结果表明，采用静态布局、动态映射和迁移访问方式，软错误率分别降低了47.6%、84.5%和88.2%。考虑到软错误率与ROB容量的相关性分析，当容量为80时，可以更好地平衡软错误率降低与面积开销。

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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2015 International 3D Systems Integration Conference (3DIC)

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