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Electromigration Assessment in Power Grids with Account of Redundancy and Non-Uniform Temperature Distribution

Authors:

Stephane MoreauAuthors Info & Claims

ISPD '23: Proceedings of the 2023 International Symposium on Physical Design

Pages 124 - 132

https://doi.org/10.1145/3569052.3578922

Published: 26 March 2023 Publication History

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Abstract

A recently proposed methodology for electromigration (EM) assessment in on-chip power/ground grid of integrated circuits has been validated by means of measurements, performed on dedicated test grids. IR drop degradation in the grid is used for defining the EM failure criteria. Physics-based models are involved for simulation of EM-induced stress evolution in interconnect structures, void formation and evolution, resistance increase of the voided segments, and consequent re-distribution of electric current in the redundant grid paths. A grid-like test structure, fabricated with a 65 nm technology and consisting of two metal layers, allowed to calibrate the voiding models by tracking voltage evolution in all grid nodes in experiment and in simulation. Good fit of the measured and simulated time-to-failure (TTF) probability distribution was obtained in both cases of uniform and non-uniform temperature distribution across the grid. The second test grid was fabricated with a 28 nm technology, consisted of 4 metal layers, and contained power and ground nets connected to "quasi-cells" with poly-resistors, which were specially designed for operating at elevated temperatures ~350°C. The existing current distributions resulted in different behavior of EM-induced failures in these nets: a gradual voltage evolution in power net, and sharp changes in ground net were observed in experiment, and successfully reproduced in simulations.

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Cited By

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Zahedmanesh H(2024)Electromigration in Nano-Interconnects: Determining Reliability Margins in Redundant Mesh Networks Using a Scalable Physical–Statistical Hybrid ParadigmMicromachines10.3390/mi1508095615:8(956)Online publication date: 26-Jul-2024
https://doi.org/10.3390/mi15080956
Jia JZhai JZhao K(2024)Fast Estimation for Electromigration Nucleation Time Based on Random Activation Energy Model2024 Design, Automation & Test in Europe Conference & Exhibition (DATE)10.23919/DATE58400.2024.10546741(1-2)Online publication date: 25-Mar-2024
https://doi.org/10.23919/DATE58400.2024.10546741

Index Terms

Electromigration Assessment in Power Grids with Account of Redundancy and Non-Uniform Temperature Distribution
1. Hardware
  1. Electronic design automation
    1. Methodologies for EDA
      1. Software tools for EDA

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Published In

ISPD '23: Proceedings of the 2023 International Symposium on Physical Design

March 2023

278 pages

ISBN:9781450399784

DOI:10.1145/3569052

General Chair:
David Chinnery
Siemens Digital Industries Software, USA
,
Program Chair:
Iris Hui-Ru Jiang
National Taiwan University, Taiwan

This work is licensed under a Creative Commons Attribution International 4.0 License.

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 26 March 2023

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ISPD '23: International Symposium on Physical Design

March 26 - 29, 2023

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Overall Acceptance Rate 62 of 172 submissions, 36%

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Cited By

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Zahedmanesh H(2024)Electromigration in Nano-Interconnects: Determining Reliability Margins in Redundant Mesh Networks Using a Scalable Physical–Statistical Hybrid ParadigmMicromachines10.3390/mi1508095615:8(956)Online publication date: 26-Jul-2024
https://doi.org/10.3390/mi15080956
Jia JZhai JZhao K(2024)Fast Estimation for Electromigration Nucleation Time Based on Random Activation Energy Model2024 Design, Automation & Test in Europe Conference & Exhibition (DATE)10.23919/DATE58400.2024.10546741(1-2)Online publication date: 25-Mar-2024
https://doi.org/10.23919/DATE58400.2024.10546741

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Inductive Characteristics of Power Distribution Grids in High Speed Integrated Circuits

Redundancy-aware electromigration checking for mesh power grids

Stress aware switching activity driven low power design of critical paths in nanoscale CMOS circuits