Timing-test scheduling for constraint-graph based post-silicon skew tuning

2012 IEEE 30th International Conference on Computer Design (ICCD) Pub Date : 2012-09-30 DOI:10.1109/ICCD.2012.6378679

M. Kaneko

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引用次数: 4

Abstract

Post-Silicon Tuning is an emerging technology for improving performance-yield of VLSIs under process variations. This paper focuses especially on the post-silicon timing-skew tuning (PSST) via programmable delay elements (PDEs), and proposes a novel tuning algorithm which utilizes only the result of setup and hold timing tests, not the result of costly delay-time measurements. The basic framework of our PSST consists of the construction of Control-value Constraint Graph from the results of timing-tests, and the computation of longest path lengths on this graph for finding safe PDE setting. Even though the cost for timing test is smaller than a delay-time measurement, the cost of timing-tests is still a dominant part of the PSST cost, and its reduction is a crucial problem. Longest path lengths which we need to compute depends directly on edge weights in the “longest-paths tree”, but for co-tree edges, their exact edge weights are not always necessary. Based on this observation, we propose timing-test scheduling for reducing the timing-test cost for PDE tuning. The experimental simulation results show that our approach reduces the test cost by almost half or more.

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基于约束图的后硅倾斜调谐时序测试调度

后硅调谐是一种新兴技术，用于提高超大规模集成电路在工艺变化下的性能良率。本文重点研究了基于可编程延迟元件(pde)的后硅时间偏差调谐(PSST)，并提出了一种新的调谐算法，该算法仅利用设置和保持时间测试的结果，而不是昂贵的延迟时间测量的结果。我们的PSST的基本框架包括根据时间测试的结果构造控制值约束图，并计算该图上的最长路径长度以寻找安全的PDE设置。尽管定时测试的成本比延迟时间测量的成本小，但定时测试的成本仍然是PSST成本的主要组成部分，其降低是一个关键问题。我们需要计算的最长路径长度直接取决于“最长路径树”中的边权，但对于共树边，它们的确切边权并不总是必需的。基于这一观察，我们提出了时序测试调度，以减少PDE调优的时序测试成本。实验仿真结果表明，该方法可将测试成本降低近一半或更多。

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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2012 IEEE 30th International Conference on Computer Design (ICCD)

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