Built-In Self-Test Design for the 3D-Stacked Wide-I/O DRAM

Kun Lun Luo; Ming Hsueh Wu; Chun Lung Hsu; Chen An Chen

doi:10.1007/s10836-016-5570-8

Built-In Self-Test Design for the 3D-Stacked Wide-I/O DRAM

Kun Lun Luo
, Ming Hsueh Wu
, Chun Lung Hsu
, Chen An Chen

Department of Electrical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Mobile Wide-I/O DRAMs are used in smartphones, tablets, handheld gaming consoles and other mobile devices. The main benefit of the Wide-I/O DRAM over its predecessors (such as LPDDRx DRAMs) is that it offers more bandwidth at lower power. In this paper, we propose a Wide-I/O DRAM built-in self-test design, named WIO-BIST including the local BIST (LO-BIST), global BIST (GL-BIST) and test interface structures, to support the fault detection in memory-die channels and TSVs. It should be noted that, a TSV test scheme is presented embedding the test procedure of TSVs into the memory-die channel test processes to significantly save the test time of TSVs. A logic die and 4 memory-dies stacking configuration is used to act as a dedicated circuit to demonstrate the feasibility of the proposed WIO-BIST design. Experimental results and comparisons show that the proposed WIO-BIST design has good performance in test time reduction with tiny extra area overhead penalty.

Original language	English
Pages (from-to)	111-123
Number of pages	13
Journal	Journal of Electronic Testing: Theory and Applications (JETTA)
Volume	32
Issue number	2
DOIs	https://doi.org/10.1007/s10836-016-5570-8
State	Published - 1 Apr 2016

Keywords

Area overhead
Built-in self-test
Test time
Wide-I/O DRAM

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10.1007/s10836-016-5570-8

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title = "Built-In Self-Test Design for the 3D-Stacked Wide-I/O DRAM",

abstract = "Mobile Wide-I/O DRAMs are used in smartphones, tablets, handheld gaming consoles and other mobile devices. The main benefit of the Wide-I/O DRAM over its predecessors (such as LPDDRx DRAMs) is that it offers more bandwidth at lower power. In this paper, we propose a Wide-I/O DRAM built-in self-test design, named WIO-BIST including the local BIST (LO-BIST), global BIST (GL-BIST) and test interface structures, to support the fault detection in memory-die channels and TSVs. It should be noted that, a TSV test scheme is presented embedding the test procedure of TSVs into the memory-die channel test processes to significantly save the test time of TSVs. A logic die and 4 memory-dies stacking configuration is used to act as a dedicated circuit to demonstrate the feasibility of the proposed WIO-BIST design. Experimental results and comparisons show that the proposed WIO-BIST design has good performance in test time reduction with tiny extra area overhead penalty.",

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PY - 2016/4/1

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N2 - Mobile Wide-I/O DRAMs are used in smartphones, tablets, handheld gaming consoles and other mobile devices. The main benefit of the Wide-I/O DRAM over its predecessors (such as LPDDRx DRAMs) is that it offers more bandwidth at lower power. In this paper, we propose a Wide-I/O DRAM built-in self-test design, named WIO-BIST including the local BIST (LO-BIST), global BIST (GL-BIST) and test interface structures, to support the fault detection in memory-die channels and TSVs. It should be noted that, a TSV test scheme is presented embedding the test procedure of TSVs into the memory-die channel test processes to significantly save the test time of TSVs. A logic die and 4 memory-dies stacking configuration is used to act as a dedicated circuit to demonstrate the feasibility of the proposed WIO-BIST design. Experimental results and comparisons show that the proposed WIO-BIST design has good performance in test time reduction with tiny extra area overhead penalty.

AB - Mobile Wide-I/O DRAMs are used in smartphones, tablets, handheld gaming consoles and other mobile devices. The main benefit of the Wide-I/O DRAM over its predecessors (such as LPDDRx DRAMs) is that it offers more bandwidth at lower power. In this paper, we propose a Wide-I/O DRAM built-in self-test design, named WIO-BIST including the local BIST (LO-BIST), global BIST (GL-BIST) and test interface structures, to support the fault detection in memory-die channels and TSVs. It should be noted that, a TSV test scheme is presented embedding the test procedure of TSVs into the memory-die channel test processes to significantly save the test time of TSVs. A logic die and 4 memory-dies stacking configuration is used to act as a dedicated circuit to demonstrate the feasibility of the proposed WIO-BIST design. Experimental results and comparisons show that the proposed WIO-BIST design has good performance in test time reduction with tiny extra area overhead penalty.

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KW - Test time

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Built-In Self-Test Design for the 3D-Stacked Wide-I/O DRAM

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Keywords

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