Add to ORKGA {+,×}-circuit counts a given multivariate polynomial f, if its values on 0-1 inputs are the same as those of f; on other inputs the circuit may output arbitrary values. Such a circuit counts the number of monomials of f evaluated to 1 by a given 0-1 input vector (with multiplicities given by their coefficients). A circuit decides f if it has the same 0-1 roots as f. We first show that some multilinear polynomials can be exponentially easier to count than to compute them, and can be exponentially easier to decide than to count them. Then we give general lower bounds on the size of counting circuits
AbstractWe study a new method for proving lower bounds for subclasses of arithmetic circuits. Roughl...
We define a Boolean circuit to be multilinear if the formal polynomial associated with it is multi...
International audienceAn Algebraic Circuit for a polynomial P is a computational model for construct...
We consider the complexity of two questions on polynomials given by arithmetic circuits: testing whe...
We consider the complexity of two questions on polynomials given by arithmetic circuits: testing whe...
International audienceWe consider the complexity of two questions on polynomials given by arithmetic...
AbstractWe consider monotone arithmetic circuits with restricted depths to compute monotone multivar...
We study the problem of testing if the polynomial computed by an arithmetic circuit is identically z...
Our main result is a combinatorial lower bounds criterion for a general model of monotone circuits, ...
AbstractWe study a new method for proving lower bounds for subclasses of arithmetic circuits. Roughl...
AbstractWe prove a lower bound, exponential in the eighth root of the input length, on the size of m...
AbstractWe consider monotone arithmetic circuits with restricted depths to compute monotone multivar...
A monotone Boolean circuit is composed of OR gates, AND gates and input gates corresponding to the i...
16 pagesBy using arithmetic circuits, encoding multivariate polynomials may be drastically more effi...
We prove an exponential lower bound for the size of constant depth multilinear arithmetic circuits c...
AbstractWe study a new method for proving lower bounds for subclasses of arithmetic circuits. Roughl...
We define a Boolean circuit to be multilinear if the formal polynomial associated with it is multi...
International audienceAn Algebraic Circuit for a polynomial P is a computational model for construct...
We consider the complexity of two questions on polynomials given by arithmetic circuits: testing whe...
We consider the complexity of two questions on polynomials given by arithmetic circuits: testing whe...
International audienceWe consider the complexity of two questions on polynomials given by arithmetic...
AbstractWe consider monotone arithmetic circuits with restricted depths to compute monotone multivar...
We study the problem of testing if the polynomial computed by an arithmetic circuit is identically z...
Our main result is a combinatorial lower bounds criterion for a general model of monotone circuits, ...
AbstractWe study a new method for proving lower bounds for subclasses of arithmetic circuits. Roughl...
AbstractWe prove a lower bound, exponential in the eighth root of the input length, on the size of m...
AbstractWe consider monotone arithmetic circuits with restricted depths to compute monotone multivar...
A monotone Boolean circuit is composed of OR gates, AND gates and input gates corresponding to the i...
16 pagesBy using arithmetic circuits, encoding multivariate polynomials may be drastically more effi...
We prove an exponential lower bound for the size of constant depth multilinear arithmetic circuits c...
AbstractWe study a new method for proving lower bounds for subclasses of arithmetic circuits. Roughl...
We define a Boolean circuit to be multilinear if the formal polynomial associated with it is multi...
International audienceAn Algebraic Circuit for a polynomial P is a computational model for construct...