Random instances of feedforward Boolean circuits are studied both analytically and numerically. Evaluating these circuits is known to be a P-complete problem and thus, in the worst case, believed to be impossible to perform, even given a massively parallel computer, in a time much less than the depth of the circuit. Nonetheless, it is found that, for some ensembles of random circuits, saturation to a fixed truth value occurs rapidly so that evaluation of the circuit can be accomplished in much less parallel time than the depth of the circuit. For other ensembles saturation does not occur and circuit evaluation is apparently hard. In particular, for some random circuits composed of connectives with five or more inputs, the number of true out...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
In contrast to machine models like Turing machines or random access machines, circuits are a rigid c...
Determining time necessary for computing important functions on parallel machines is one of the most...
We present a simple new construction of a pseudorandom bit generator, based on the constant depth ge...
AbstractWe consider the problem of deciding whether the output of a boolean circuit is determined by...
We present a simple new construction of a pseudorandom bit generator. It stretches a short string of...
We prove several results giving new and stronger connections between learning theory, circuit comple...
We consider the problem of deciding whether the output of a boolean circuit is determined by a parti...
Computational complexity theory and algorithms are two major areas in theoretical computer science. ...
Parallel time and space are perhaps the two most fundamental resources in computation. They appear t...
In a celebrated result Linial et al. [3] gave an algorithm which learns size-s depth-d AND/OR/NOT ci...
grantor: University of TorontoUniform complexity classes are typically defined in terms of...
Existing proofs that deduce BPP=P from circuit lower bounds convert randomized algorithms into deter...
We study the circuit complexity of generating at random a word of length n from a given language und...
AbstractIn contrast to machine models like Turing machines or random access machines, circuits are a...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
In contrast to machine models like Turing machines or random access machines, circuits are a rigid c...
Determining time necessary for computing important functions on parallel machines is one of the most...
We present a simple new construction of a pseudorandom bit generator, based on the constant depth ge...
AbstractWe consider the problem of deciding whether the output of a boolean circuit is determined by...
We present a simple new construction of a pseudorandom bit generator. It stretches a short string of...
We prove several results giving new and stronger connections between learning theory, circuit comple...
We consider the problem of deciding whether the output of a boolean circuit is determined by a parti...
Computational complexity theory and algorithms are two major areas in theoretical computer science. ...
Parallel time and space are perhaps the two most fundamental resources in computation. They appear t...
In a celebrated result Linial et al. [3] gave an algorithm which learns size-s depth-d AND/OR/NOT ci...
grantor: University of TorontoUniform complexity classes are typically defined in terms of...
Existing proofs that deduce BPP=P from circuit lower bounds convert randomized algorithms into deter...
We study the circuit complexity of generating at random a word of length n from a given language und...
AbstractIn contrast to machine models like Turing machines or random access machines, circuits are a...
International audienceWe consider multi-party information-theoretic private protocols, and specifica...
In contrast to machine models like Turing machines or random access machines, circuits are a rigid c...
Determining time necessary for computing important functions on parallel machines is one of the most...