@inproceedings{1492272e3a304ae39783412531caa386,
title = "Lattice-based computation of Boolean functions",
abstract = "This paper studies the implementation of Boolean functions with lattices of two-dimensional switches. Each switch is controlled by a Boolean literal. If the literal is 1, the switch is connected to its four neighbours; else it is not connected. Boolean functions are implemented in terms of connectivity across the lattice: a Boolean function evaluates to 1 iff there exists a top-to-bottom path. The paper addresses the following synthesis problem: how should we map literals to switches in a lattice in order to implement a given target Boolean function? We seek to minimize the number of switches. Also, we aim for an efficient algorithm - one that does not exhaustively enumerate paths. We exploit the concept of lattice and Boolean function duality. We demonstrate a synthesis method that produces lattices with a number of switches that grows linearly with the number of product terms in the function. Our algorithm runs in time that grows polynomially.",
keywords = "Boolean functions, Lattice duality, Lattices, Switching circuits",
author = "Mustafa Altun and Riedel, {Marc D.}",
year = "2010",
doi = "10.1145/1837274.1837423",
language = "English",
isbn = "9781450300025",
series = "Proceedings - Design Automation Conference",
pages = "609--612",
booktitle = "Proceedings of the 47th Design Automation Conference, DAC '10",
note = "47th Design Automation Conference, DAC '10 ; Conference date: 13-06-2010 Through 18-06-2010",
}