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A statistical methodology for noise sensor placement and full-chIP voltage map generation

Publication ,  Conference
Published in: Proceedings - Design Automation Conference
January 1, 2015

© 2015 ACM. Noise margin violation, also known as voltage emergency induced by continuously reducing noise margin and increasing magnitude of current swings, is becoming a severe threat to the correct execution of applications in processors. Noise sensors can be placed in the non-function area of processors to detect such emergencies by monitoring runtime voltage fluctuations. In this work, we aim to accurately predict the voltage droops using a small set of sensors. We achieve our goal in two steps: We first propose a methodology via group lasso approach to select the optimal set of noise sensors, then build a practical model via ordinary least-squares fitting approach to predict the voltage in the function area of the chIP, using the selected sensors in non-function area. Experiment results show that when compared to the full-chIP voltage transient simulation, the prediction error of our model is much less than 0.01, and compared to prior work, our approach can achieve better error rates of voltage emergency detection (less than half).

Duke Scholars

Published In

Proceedings - Design Automation Conference

DOI

ISSN

0738-100X

ISBN

9781450335201

Publication Date

January 1, 2015
 

Citation

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A statistical methodology for noise sensor placement and full-chIP voltage map generation. (2015). In Proceedings - Design Automation Conference. https://doi.org/10.1145/2744769.2744784
A statistical methodology for noise sensor placement and full-chIP voltage map generation.” In Proceedings - Design Automation Conference, 2015. https://doi.org/10.1145/2744769.2744784.
A statistical methodology for noise sensor placement and full-chIP voltage map generation.” Proceedings - Design Automation Conference, 2015. Scopus, doi:10.1145/2744769.2744784.

Published In

Proceedings - Design Automation Conference

DOI

ISSN

0738-100X

ISBN

9781450335201

Publication Date

January 1, 2015