Electromigration Effects in Power Grids Characterized Using an On-Chip Test Structure with Poly Heaters and Voltage Tapping Points

2018 IEEE Symposium on VLSI Technology Pub Date : 2018-06-01 DOI:10.1109/VLSIT.2018.8510638
Chen Zhou, R. Wong, S. Wen, C. Kim
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引用次数: 5

Abstract

A 65nm test chip to study electromigration (EM) effects in power grids was taped-out and tested. A 9×9 grid was implemented using M3 and M4 metal layers which was stressed under constant current and constant voltage modes. On-chip poly heaters were employed to raise the die temperature to 350°C without damaging the chip package. A bank of transmission gates based on IO transistors were used to tap out the M3 and M4 voltages at each intersection point of the power grid. Using the test structure, we could observe for the first time, subtle behaviors of EM such as mechanical stress dependent failure locations and self-healing due to redundant current paths.
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用带有聚加热器和电压分接点的片上测试结构表征电网中的电迁移效应
研制了一种用于研究电网电迁移效应的65nm测试芯片,并进行了测试。9×9网格采用M3和M4金属层,在恒流和恒压模式下受力。采用片上多聚加热器将芯片温度提高到350°C而不损坏芯片封装。采用一组基于IO晶体管的传输门,在电网的每个交点抽射出M3和M4电压。利用该测试结构,我们首次观察到EM的细微行为,如机械应力相关的失效位置和冗余电流路径导致的自修复。
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2018 IEEE Symposium on VLSI Technology
2018 IEEE Symposium on VLSI Technology
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