Nanoscale silicon mosfet response to THz radiation for testing VLSI

2018 IEEE 27th North Atlantic Test Workshop (NATW) Pub Date : 2018-05-01 DOI:10.1109/NATW.2018.8388865
M. Shur, J. Suarez
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引用次数: 8

Abstract

The increasing complexity of silicon VLSI circuits makes their comprehensive testing, determination of counterfeit parts, and predictions of reliability a growing challenge. We analyze the response of Si MOSFETs to sub-THz and THz radiation for different feature sizes and temperatures. Our results show that such testing could be expanded to develop unique response signatures for contact and channel regions for feature sizes exceeding 20 nm. They also indicate a possibility of the resonant MOSFET response to the THz radiation at cryogenic temperatures.
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用于超大规模集成电路测试的纳米硅mosfet对太赫兹辐射的响应
硅VLSI电路的复杂性日益增加,使其全面测试,确定假冒零件和可靠性预测成为越来越大的挑战。我们分析了不同特征尺寸和温度下硅mosfet对亚太赫兹和太赫兹辐射的响应。我们的研究结果表明,这种测试可以扩展到开发超过20纳米特征尺寸的接触和通道区域的独特响应签名。它们还表明了在低温下谐振MOSFET对太赫兹辐射响应的可能性。
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2018 IEEE 27th North Atlantic Test Workshop (NATW)
2018 IEEE 27th North Atlantic Test Workshop (NATW)
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Enabling fast process variation and fault simulation through macromodelling of analog components One more time! Increasing fault detection with scan shift capture Nanoscale silicon mosfet response to THz radiation for testing VLSI A simplified on-chip calibration method for branch-line coupler New testing approach using near electromagnetic field probing intending to upgrade in-circuit testing of high density PCBAs
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