AbstractWe study the bit-complexity of computing Boolean functions on anonymous networks. Let N be the number of nodes, δ the diameter, and d the maximal node degree of the network. For arbitrary, anonymous networks we give a general algorithm of polynomial bit complexity O(N3 · δ · d2 · log N) for computing any Boolean function which is computable on the network. This improves upon the previous best known algorithm, which was of exponential bit complexity O(dN2). For symmetric functions on arbitrary networks we give an algorithm with bit complexity O(N3· δ · d2 · log2N). This same algorithm is shown to have even lower bit complexity for a number of specific networks, for example tori, hypercubes, and random regular graphs. We also consider...
AbstractWe study the problem of representing symmetric Boolean functions as symmetric polynomials ov...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
In this paper we study the complexity of realizing a monotone but otherwise arbitrary Boolean functi...
AbstractWe study the bit-complexity of computing Boolean functions on anonymous networks. Let N be t...
We consider the bit-complexity (i.e.a, total number of bits transmitted) of computing boolean functi...
We study the realization of monotone Boolean functions by networks. Our main result is a precise ver...
We survey the current state of knowledge concerning the computation of Boolean functions by networks...
AbstractPaul (1977) has proved a 2.5n-lower bound for the network complexity of an explicit Boolean ...
AbstractLet fn:{0, 1}2⌜lgn⌝+1+n→{0, 1} be the Boolean function fn(a,b,q,z1…,zn)=q⋁j=1n zj(a=j∨b=j)∨ ...
We give efficient algorithms for distributed computation on oriented, anonymous, asynchronous hyperc...
We give efficient algorithms for distributed computation on anonymous, labeled, asynchronous oriente...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
We propose a model for deterministic distributed function computation by a network of identical and ...
AbstractIn Moran and Warmuth (1993, SIAM .J. Comput.22, No. 2, 379-399), it was shown that computing...
AbstractWe examine the power of Boolean functions with low L1 norms in several settings. In a large ...
AbstractWe study the problem of representing symmetric Boolean functions as symmetric polynomials ov...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
In this paper we study the complexity of realizing a monotone but otherwise arbitrary Boolean functi...
AbstractWe study the bit-complexity of computing Boolean functions on anonymous networks. Let N be t...
We consider the bit-complexity (i.e.a, total number of bits transmitted) of computing boolean functi...
We study the realization of monotone Boolean functions by networks. Our main result is a precise ver...
We survey the current state of knowledge concerning the computation of Boolean functions by networks...
AbstractPaul (1977) has proved a 2.5n-lower bound for the network complexity of an explicit Boolean ...
AbstractLet fn:{0, 1}2⌜lgn⌝+1+n→{0, 1} be the Boolean function fn(a,b,q,z1…,zn)=q⋁j=1n zj(a=j∨b=j)∨ ...
We give efficient algorithms for distributed computation on oriented, anonymous, asynchronous hyperc...
We give efficient algorithms for distributed computation on anonymous, labeled, asynchronous oriente...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
We propose a model for deterministic distributed function computation by a network of identical and ...
AbstractIn Moran and Warmuth (1993, SIAM .J. Comput.22, No. 2, 379-399), it was shown that computing...
AbstractWe examine the power of Boolean functions with low L1 norms in several settings. In a large ...
AbstractWe study the problem of representing symmetric Boolean functions as symmetric polynomials ov...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
In this paper we study the complexity of realizing a monotone but otherwise arbitrary Boolean functi...