Test-wrapper optimization for embedded cores in TSV-based three-dimensional SOCs

2009 IEEE International Conference on Computer Design Pub Date : 2009-10-04 DOI:10.1109/ICCD.2009.5413172

Brandon Noia, K. Chakrabarty, Yuan Xie

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引用次数: 50

Abstract

System-on-chip (SOC) designs comprised of a number of embedded cores are widespread in today's integrated circuits. Embedded core-based design is likely to be equally popular for three-dimensional integrated circuits (3D ICs), the manufacture of which has become feasible in recent years. 3D integration offers a number of advantages over traditional two-dimensional (2D) technologies, such as the reduction in the average interconnect length, higher performance, lower interconnect power consumption, and smaller IC footprint. Despite recent advances in 3D fabrication and design methods, no attempt has been made thus far to design a 1500-style test wrapper for an embedded core that spans multiple layers in a 3D SOC. This paper addresses wrapper optimization in 3D ICs based on through-silicon vias (TSVs) for vertical interconnects. Our objective is to minimize the scan-test time for a core under constraints on the total number of TSVs available for testing. We present two polynomial-time heuristic solutions. Simulation results are presented for embedded cores from the ITC 2002 SOC test benchmarks.

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基于tsv的三维soc中嵌入式内核的测试包装优化

由许多嵌入式内核组成的系统芯片(SOC)设计在当今的集成电路中非常普遍。基于嵌入式核心的设计可能同样流行于三维集成电路(3D ic)，其制造在最近几年变得可行。与传统的二维(2D)技术相比，3D集成提供了许多优势，例如缩短平均互连长度、提高性能、降低互连功耗和减小IC占地面积。尽管最近在3D制造和设计方法方面取得了进展，但迄今为止还没有尝试为3D SOC中跨越多层的嵌入式核心设计1500风格的测试封装器。本文讨论了垂直互连中基于硅通孔(tsv)的3D集成电路封装优化。我们的目标是在可用于测试的tsv总数的限制下，最大限度地减少堆芯的扫描测试时间。我们提出了两个多项式时间启发式解。从ITC 2002 SOC测试基准中给出了嵌入式内核的仿真结果。

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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2009 IEEE International Conference on Computer Design

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