Title :
Formulas Resilient to Short-Circuit Errors
Author :
Kalai, Yael Tauman ; Lewko, Allison ; Rao, Anup
Abstract :
We show how to efficiently convert any boolean formula F into a boolean formula E that is resilient to short-circuit errors (as introduced by Kleitman et al. [KLM94]). A gate has a short-circuit error when the value it computes is replaced by the value of one of its inputs. We guarantee that E computes the same function as F, as long as at most (1/10 - ε) of the gates on each path from the output to an input have been corrupted in E. The corruptions may be chosen adversarially, and may depend on the formula E and even on the input. We obtain our result by extending the Karchmer-Wigderson connection between formulas and communication protocols to the setting of adversarial error. This enables us to obtain error-resilient formulas from error-resilient communication protocols.
Keywords :
Boolean functions; circuit complexity; directed graphs; formal languages; protocols; Boolean formula; Karchmer-Wigderson connection; adversarial error; directed acyclic graph; error-resilient communication protocols; error-resilient formulas; polynomial time computable function; short-circuit errors; Boolean functions; Circuit faults; Computational modeling; Games; Integrated circuit modeling; Logic gates; Protocols;
Conference_Titel :
Foundations of Computer Science (FOCS), 2012 IEEE 53rd Annual Symposium on
Conference_Location :
New Brunswick, NJ
Print_ISBN :
978-1-4673-4383-1
DOI :
10.1109/FOCS.2012.69
