On the robustness of random Boolean formulae

Alexander Mozeika; David Saad; Jack Raymond

doi:10.1088/1742-6596/233/1/012015

On the robustness of random Boolean formulae

Alexander Mozeika, David Saad, Jack Raymond

College of Engineering and Physical Sciences

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

Abstract

Random Boolean formulae, generated by a growth process of noisy logical gates are analyzed using the generating functional methodology of statistical physics. We study the type of functions generated for different input distributions, their robustness for a given level of gate error and its dependence on the formulae depth and complexity and the gates used. Bounds on their performance, derived in the information theory literature for specific gates, are straightforwardly retrieved, generalized and identified as the corresponding typical-case phase transitions. Results for error-rates, function-depth and sensitivity of the generated functions are obtained for various gate-type and noise models.

Original language	English
Journal	Journal of Physics: Conference Series
Volume	233
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/233/1/012015
Publication status	Published - 19 Jul 2010
Event	International Workshop on Statistical-Mechanical Informatics 2010 - Kyoto, Japan Duration: 7 Mar 2010 → 10 Mar 2010

Bibliographical note

Published under licence in the Journal of Physics: Conference Series by IOP Publishing Ltd.

Keywords

random Boolean formulae
noisy logical gates

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10.1088/1742-6596/233/1/012015

On the robustness of random Boolean formulae
Published under licence in the Journal of Physics: Conference Series by IOP Publishing Ltd.
Submitted manuscript, 210 KB

http://iopscience.iop.org/1742-6596/233/1/012015/

Cite this

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AU - Raymond, Jack

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AB - Random Boolean formulae, generated by a growth process of noisy logical gates are analyzed using the generating functional methodology of statistical physics. We study the type of functions generated for different input distributions, their robustness for a given level of gate error and its dependence on the formulae depth and complexity and the gates used. Bounds on their performance, derived in the information theory literature for specific gates, are straightforwardly retrieved, generalized and identified as the corresponding typical-case phase transitions. Results for error-rates, function-depth and sensitivity of the generated functions are obtained for various gate-type and noise models.

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On the robustness of random Boolean formulae

Abstract

Bibliographical note

Keywords

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