基于中间体的2.5D集成电路的有效测试长度缩减技术

Technical Papers of 2014 International Symposium on VLSI Design, Automation and Test Pub Date : 2014-04-28 DOI:10.1109/VLSI-DAT.2014.6834878

Shyue-Kung Lu, Huai-Min Li, M. Hashizume, Jin-Hua Hong, Zheng-Ru Tsai

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引用次数: 1

摘要

三维集成被认为是解决性能、功耗、质量和可靠性问题的一个很有前途的解决方案。2.5D集成电路的特点是将芯片堆叠在无源硅中间层上，并通过基于tsv的互连和硅中间层内的重新分配层(RDL)相互通信。本文旨在研究含硅中间体的2.5D集成电路的高效键后测试技术。为了有效地重用功能互连作为测试模具的并行测试访问机制，提出了一种新的基于宏模具的互连重用策略及其相应的测试设计(DFT)体系结构。该策略将多个模具合并形成一个宏模具，然后与其他模具连接形成菊花链进行测试。实验结果表明，该方法在TAM宽度约束条件下具有较高的成功率。此外，由于我们可以获得更宽的tam，因此测试长度可以显着减少。

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Efficient test length reduction techniques for interposer-based 2.5D ICs

Three-dimensional integration is considered a promising solution to cure the challenges of performance, power consumption, quality, and reliability issues. The feature of 2.5D ICs is that the dies are stacked on a passive silicon interposer and the dies communicate with each other by means of TSV-based interconnects and re-Distribution layers (RDL) within the silicon interposer. This paper aims to investigate the efficient post-bond test technique for the 2.5D ICs with silicon interposer. In order to efficiently reuse the functional interconnects as the parallel TAM (test access mechanism) for testing dies, a novel macro-die-based interconnect reuse strategy and its corresponding design-for-test (DFT) architecture are proposed in this paper. The proposed strategy merges several dies to form a macro die and then connected to other dies to form a daisy chain for testing. Experimental results show that the proposed techniques have higher success rates for the required TAM width constraints. Moreover, since we can get wider TAMs, the test length then can be reduced significantly.

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Technical Papers of 2014 International Symposium on VLSI Design, Automation and Test

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