• Title/Summary/Keyword: 3D-IC

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IEEE 1500 Wrapper Design Technique for Pre/Post Bond Testing of TSV based 3D IC (TSV 기반 3D IC Pre/Post Bond 테스트를 위한 IEEE 1500 래퍼 설계기술)

  • Oh, Jungsub;Jung, Jihun;Park, Sungju
    • Journal of the Institute of Electronics and Information Engineers
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    • v.50 no.1
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    • pp.131-136
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    • 2013
  • TSV based 3D ICs have been widely developed with new problems at die and IC levels. It is imperative to test at post-bond as well as pre-bond to achieve high reliability and yield. This paper introduces a new testable design technique which not only test microscopic defects at TSV input/output contact at a die but also test interconnect defects at a stacked IC. IEEE 1500 wrapper cells are augmented and through at-speed tests for pre-bond die and post-bond IC, known-good-die and defect free 3D IC can be massively manufactured+.

Overview of 3-D IC Design Technologies for Signal Integrity (SI) and Power Integrity (PI) of a TSV-Based 3D IC

  • Kim, Joohee;Kim, Joungho
    • The Proceeding of the Korean Institute of Electromagnetic Engineering and Science
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    • v.24 no.2
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    • pp.3-14
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    • 2013
  • In this paper, key design issues and considerations for Signal Integrity(SI) and Power Integrity(PI) of a TSV-based 3D IC are introduced. For the signal integrity and power integrity of a TSV-based 3-D IC channel, analytical modeling and analysis results of a TSV-based 3-D channel and power delivery network (PDN) are presented. In addition, various design techniques and solutions which are to improve the electrical performance of a 3-D IC are investigated.

TSV Liquid Cooling System for 3D Integrated Circuits (3D IC 열관리를 위한 TSV Liquid Cooling System)

  • Park, Manseok;Kim, Sungdong;Kim, Sarah Eunkyung
    • Journal of the Microelectronics and Packaging Society
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    • v.20 no.3
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    • pp.1-6
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    • 2013
  • 3D integrated circuit(IC) technology with TSV(through Si via) liquid cooling system is discussed. As a device scales down, both interconnect and packaging technologies are not fast enough to follow transistor's technology. 3D IC technology is considered as one of key technologies to resolve a device scaling issue between transistor and packaging. However, despite of many advantages, 3D IC technology suffers from power delivery, thermal management, manufacturing yield, and device test. Especially for high density and high performance devices, power density increases significantly and it results in a major thermal problem in stacked ICs. In this paper, the recent studies of TSV liquid cooling system has been reviewed as one of device cooling methods for the next generation thermal management.

The Impedance Analysis of Multiple TSV-to-TSV (다중(multiple) TSV-to-TSV의 임피던스 해석)

  • Lee, Sihyun
    • Journal of the Institute of Electronics and Information Engineers
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    • v.53 no.7
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    • pp.131-137
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    • 2016
  • In this paper, we analyze the impedance analysis of vertical interconnection through-silicon vias (TSV) that is being studied for the purpose of improving the degree of integration and an electric feature in 3D IC. Also, it is to improve the performance and the degree of integration of the three-dimensional integrated circuit system which can exceed the limits of conventional two-dimensional a IC. In the future, TSV technology in full-chip 3-dimensional integrated circuit system design is very important, and a study on the electrical characteristics of the TSV for high-density and high-bandwidth system design is very important. Therefore, we study analyze the impedance influence of the TSV in accordance with the distance and frequency in a multiple TSV-to-TSV for the purpose of designing a full-chip three-dimensional IC. The results of this study also are applicable to semiconductor process tools and designed for the manufacture of a full-chip 3D IC.

Thermo-Mechanical Reliability of TSV based 3D-IC (TSV 기반 3차원 소자의 열적-기계적 신뢰성)

  • Yoon, Taeshik;Kim, Taek-Soo
    • Journal of the Microelectronics and Packaging Society
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    • v.24 no.1
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    • pp.35-43
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    • 2017
  • The three-dimensional integrated circuit (3D-IC) is a general trend for the miniaturized and high-performance electronic devices. The through-silicon-via (TSV) is the advanced interconnection method to achieve 3D integration, which uses vertical metal via through silicon substrate. However, the TSV based 3D-IC undergoes severe thermo-mechanical stress due to the CTE (coefficient of thermal expansion) mismatch between via and silicon. The thermo-mechanical stress induces mechanical failure on silicon and silicon-via interface, which reduces the device reliability. In this paper, the thermo-mechanical reliability of TSV based 3D-IC is reviewed in terms of mechanical fracture, heat conduction, and material characteristic. Furthermore, the state of the art via-level and package-level design techniques are introduced to improve the reliability of TSV based 3D-IC.

Layer Assignment of Functional Chip Blocks for 3-D Hybrid IC Planning (3차원 Hybrid IC 배치를 위한 기둥첩 블록의 층할당)

  • 이평한;경종민
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.24 no.6
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    • pp.1068-1073
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    • 1987
  • Traditional circuit partitioning algorithm using the cluster development method, which is suitable for such applications as single chip floor planning or multiple layer PCB system placement, where the clusters are formed so that inter-cluster nets are localized within the I/O connector pins, may not be appropriate for the functiona block placement in truly 3-D electronic modules. 3-D hybrid IC is one such example where the inter-layer routing as well as the intra-layer routing can be maximally incorporated to reduce the overall circuit size, cooling requirements and to improve the speed performance. In this paper, we propose a new algorithm called MBE(Minimum Box Embedding) for the layer assignment of each functional block in 3-D hybrid IC design. The sequence of MBE is as follows` i) force-directed relaxation in 3-D space, ii) exhaustive search for the optimal orientation of the slicing plane and iii) layer assignment. The algorithm is first explaines for a 2-D reduced problem, and then extended for 3-D applications. An example result for a circuit consisting of 80 blocks has been shown.

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Wafer Level Bonding Technology for 3D Stacked IC (3D 적층 IC를 위한 웨이퍼 레벨 본딩 기술)

  • Cho, Young Hak;Kim, Sarah Eunkyung;Kim, Sungdong
    • Journal of the Microelectronics and Packaging Society
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    • v.20 no.1
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    • pp.7-13
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    • 2013
  • 3D stacked IC is one of the promising candidates which can keep Moore's law valid for next decades. IC can be stacked through various bonding technologies and they were reviewed in this report, for example, wafer direct bonding and atomic diffusion bonding, etc. As an effort to reduce the high temperature and pressure which were required for high bonding strength in conventional Cu-Cu thermo-compression bonding, surface activated bonding, solid liquid inter-diffusion and direct bonding interface technologies are actively being developed.

Optimization of Power Bumps and TSVs with Optimized Power Mesh Structure for Power Delivery Network in 3D-ICs (3D-IC 전력 공급 네트워크를 위한 최적의 전력 메시 구조를 사용한 전력 범프와 TSV 최소화)

  • Ahn, Byung-Gyu;Kim, Jae-Hwan;Jang, Cheol-Jon;Chong, Jong-Wha
    • Journal of IKEEE
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    • v.16 no.2
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    • pp.102-108
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    • 2012
  • 3-dimensional integrated circuits (3D-ICs) have some problems for power delivery network design due to larger supply currents and larger power delivery paths compared to 2D-IC. The power delivery network consists of power bumps & through-silicon-vias (TSVs), and IR-drop at each node varies with the number and location of power bumps & TSVs. It is important to optimize the power bumps & TSVs while IR-drop constraint is satisfied in order to operate chip ordinarily. In this paper, the power bumps & TSVs optimization with optimized power mesh structure for power delivery network in 3D-ICs is proposed.

Research Needs for TSV-Based 3D IC Architectural Floorplanning

  • Lim, Sung Kyu
    • Journal of information and communication convergence engineering
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    • v.12 no.1
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    • pp.46-52
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    • 2014
  • This article presents key research needs in three-dimensional integrated circuit (3D IC) architectural floorplanning. Architectural floorplaning is done at a very early stage of 3D IC design process, where the goal is to quickly evaluate architectural designs described in register-transfer level (RTL) in terms of power, performance, and reliability. This evaluation is then fed back to architects for further improvement and/or modifications needed to meet the target constraints. We discuss the details of the following research needs in this article: block-level modeling, through-silicon-via (TSV) insertion and management, and chip/package co-evaluation. The goal of block-level modeling is to obtain physical, power, performance, and reliability information of architectural blocks. We then assemble the blocks into multiple tiers while connecting them using TSVs that are placed in between hard IPs and inside soft IPs. Once a full-stack 3D floorplanning is obtained, we evaluate it so that the feedback is provided back to architects.