Built-in Self-Test and Fault Localization for Inter-Layer Vias in Monolithic 3D ICs

IF 2.1 4区计算机科学 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE ACM Journal on Emerging Technologies in Computing Systems Pub Date : 2022-01-31 DOI:10.1145/3464430

Arjun Chaudhuri, Sanmitra Banerjee, Jinwoo Kim, Heechun Park, B. W. Ku, S. Kannan, K. Chakrabarty, S. Lim

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引用次数: 4

Abstract

Monolithic 3D (M3D) integration provides massive vertical integration through the use of nanoscale inter-layer vias (ILVs). However, high integration density and aggressive scaling of the inter-layer dielectric make ILVs especially prone to defects. We present a low-cost built-in self-test (BIST) method that requires only two test patterns to detect opens, stuck-at faults, and bridging faults (shorts) in ILVs. We also propose an extended BIST architecture for fault detection, called Dual-BIST, to guarantee zero ILV fault masking due to single BIST faults and negligible ILV fault masking due to multiple BIST faults. We analyze the impact of coupling between adjacent ILVs arranged in a 1D array in block-level partitioned designs. Based on this analysis, we present a novel test architecture called Shared-BIST with the added functionality of localizing single and multiple faults, including coupling-induced faults. We introduce a systematic clustering-based method for designing and integrating a delay bank with the Shared-BIST architecture for testing small-delay defects in ILVs with minimal yield loss. Simulation results for four two-tier M3D benchmark designs highlight the effectiveness of the proposed BIST framework.

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单片三维集成电路层间通孔的内置自检与故障定位

单片3D (M3D)集成通过使用纳米级层间通孔(ILVs)提供大规模垂直集成。然而，高集成度和层间介电的严重结垢使得ilv特别容易产生缺陷。我们提出了一种低成本的内置自检(BIST)方法，该方法只需要两种测试模式来检测ilv中的打开、卡在故障和桥接故障(短路)。我们还提出了一种扩展的BIST结构，称为双BIST，用于故障检测，以保证由于单个BIST故障导致的ILV故障屏蔽为零，而由于多个BIST故障导致的ILV故障屏蔽可以忽略不计。我们分析了在块级分区设计中排列成一维阵列的相邻ilv之间耦合的影响。基于这一分析，我们提出了一种新的测试体系结构，称为Shared-BIST，该体系结构增加了单个和多个故障的定位功能，包括耦合引起的故障。我们介绍了一种基于系统聚类的方法，用于设计和集成具有共享- bist架构的延迟库，以最小的产量损失测试ilv中的小延迟缺陷。四个两层M3D基准设计的仿真结果突出了所提出的BIST框架的有效性。

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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来源期刊

ACM Journal on Emerging Technologies in Computing Systems 工程技术-工程：电子与电气

CiteScore

4.80

自引率

4.50%

发文量

审稿时长

3 months

期刊介绍： The Journal of Emerging Technologies in Computing Systems invites submissions of original technical papers describing research and development in emerging technologies in computing systems. Major economic and technical challenges are expected to impede the continued scaling of semiconductor devices. This has resulted in the search for alternate mechanical, biological/biochemical, nanoscale electronic, asynchronous and quantum computing and sensor technologies. As the underlying nanotechnologies continue to evolve in the labs of chemists, physicists, and biologists, it has become imperative for computer scientists and engineers to translate the potential of the basic building blocks (analogous to the transistor) emerging from these labs into information systems. Their design will face multiple challenges ranging from the inherent (un)reliability due to the self-assembly nature of the fabrication processes for nanotechnologies, from the complexity due to the sheer volume of nanodevices that will have to be integrated for complex functionality, and from the need to integrate these new nanotechnologies with silicon devices in the same system. The journal provides comprehensive coverage of innovative work in the specification, design analysis, simulation, verification, testing, and evaluation of computing systems constructed out of emerging technologies and advanced semiconductors