Extraction of geometry-related interconnect variation based on parasitic capacitance data

Li Jie Sun; Jia Cheng; Zheng Ren; Gan Bing Shang; Shao Jian Hu; Shou Mian Chen; Yu Hang Zhao; Long Zhang; Xiao Jin Li; Yan Ling Shi

doi:10.1109/LED.2014.2344173

Extraction of geometry-related interconnect variation based on parasitic capacitance data

Li Jie Sun^*
, Jia Cheng
, Zheng Ren
, Gan Bing Shang
, Shao Jian Hu
, Shou Mian Chen
, Yu Hang Zhao
, Long Zhang
, Xiao Jin Li
, Yan Ling Shi

^*Corresponding author for this work

School of Communication and Electronic Engineering

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

8 Scopus citations

Abstract

A new interconnect parasitic extraction flow considering geometry-related variation has been proposed in this letter. The 42 interconnect capacitance loads were fabricated by 55-nm process technology and measured to characterize geometric variation. According to the new extraction flow, interconnect technology file (ITF) has been optimized and established. As a result, both extracted error by layout parasitic extraction tool and simulated error by field solver have been improved obviously with this optimized ITF. Meanwhile, an on-chip interconnect test technique with nonoverlapping signal generation circuitry based on charge-induced-injection error-free charge-based capacitance measurement has been designed in this letter to simplify the test procedure.

Original language	English
Article number	6879252
Pages (from-to)	980-982
Number of pages	3
Journal	IEEE Electron Device Letters
Volume	35
Issue number	10
DOIs	https://doi.org/10.1109/LED.2014.2344173
State	Published - 1 Oct 2014

Keywords

Charge-induced-injection error-free charge-based capacitance measurement (CIEF CBCM)
Geometric-related variation
Interconnect parasitic extraction
Non-overlapping signal generation circuitry

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10.1109/LED.2014.2344173

Cite this

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title = "Extraction of geometry-related interconnect variation based on parasitic capacitance data",

abstract = "A new interconnect parasitic extraction flow considering geometry-related variation has been proposed in this letter. The 42 interconnect capacitance loads were fabricated by 55-nm process technology and measured to characterize geometric variation. According to the new extraction flow, interconnect technology file (ITF) has been optimized and established. As a result, both extracted error by layout parasitic extraction tool and simulated error by field solver have been improved obviously with this optimized ITF. Meanwhile, an on-chip interconnect test technique with nonoverlapping signal generation circuitry based on charge-induced-injection error-free charge-based capacitance measurement has been designed in this letter to simplify the test procedure.",

keywords = "Charge-induced-injection error-free charge-based capacitance measurement (CIEF CBCM), Geometric-related variation, Interconnect parasitic extraction, Non-overlapping signal generation circuitry",

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year = "2014",

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doi = "10.1109/LED.2014.2344173",

language = "英语",

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AU - Ren, Zheng

AU - Shang, Gan Bing

AU - Hu, Shao Jian

AU - Chen, Shou Mian

AU - Zhao, Yu Hang

AU - Zhang, Long

AU - Li, Xiao Jin

AU - Shi, Yan Ling

PY - 2014/10/1

Y1 - 2014/10/1

N2 - A new interconnect parasitic extraction flow considering geometry-related variation has been proposed in this letter. The 42 interconnect capacitance loads were fabricated by 55-nm process technology and measured to characterize geometric variation. According to the new extraction flow, interconnect technology file (ITF) has been optimized and established. As a result, both extracted error by layout parasitic extraction tool and simulated error by field solver have been improved obviously with this optimized ITF. Meanwhile, an on-chip interconnect test technique with nonoverlapping signal generation circuitry based on charge-induced-injection error-free charge-based capacitance measurement has been designed in this letter to simplify the test procedure.

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KW - Charge-induced-injection error-free charge-based capacitance measurement (CIEF CBCM)

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KW - Interconnect parasitic extraction

KW - Non-overlapping signal generation circuitry

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M3 - 文章

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Extraction of geometry-related interconnect variation based on parasitic capacitance data

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Keywords

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