We introduce symmetric arithmetic circuits, i.e. arithmetic circuits with a natural symmetry restriction. In the context of circuits computing polynomials defined on a matrix of variables, such as the determinant or the permanent, the restriction amounts to requiring that the shape of the circuit is invariant under row and column permutations of the matrix. We establish unconditional, nearly exponential, lower bounds on the size of any symmetric circuit for computing the permanent over any field of characteristic other than 2. In contrast, we show that there are polynomial-size symmetric circuits for computing the determinant over fields of characteristic zero
In their paper on the ''chasm at depth four'', Agrawal and Vinay have shown that polynomials in m va...
AbstractIn their paper on the “chasm at depth four”, Agrawal and Vinay have shown that polynomials i...
| openaire: EC/H2020/759557/EU//ALGOComThe fundamental theorem of symmetric polynomials states that ...
We introduce symmetric arithmetic circuits, i.e. arithmetic circuits with a natural symmetry restric...
Weintroducesymmetricarithmeticcircuits,i.e.,arithmeticcircuitswithanatural symmetry restriction. In ...
Dawar and Wilsenach (ICALP 2020) introduce the model of symmetric arithmetic circuits and show an ex...
We deploy algebraic complexity theoretic techniques for constructing symmetric determinantal represe...
40 pages, 18 figuresWe deploy algebraic complexity theoretic techniques for constructing symmetric d...
We deploy algebraic complexity theoretic techniques for constructing symmetric determinantal represe...
Abstract. We deploy algebraic complexity theoretic techniques to construct symmetric determinantal r...
AbstractIn this paper, we introduce a new model for computing polynomials—a depth-2 circuit with a s...
A function of boolean arguments is symmetric if its value depends solely on the number of 1's among ...
We study properties of relational structures such as graphs that are decided by families of Boolean ...
One of the main goals of theoretical computer science is to prove limits on how efficiently certain ...
A function of boolean arguments is symmetric if its value depends solely on the number of 1's among ...
In their paper on the ''chasm at depth four'', Agrawal and Vinay have shown that polynomials in m va...
AbstractIn their paper on the “chasm at depth four”, Agrawal and Vinay have shown that polynomials i...
| openaire: EC/H2020/759557/EU//ALGOComThe fundamental theorem of symmetric polynomials states that ...
We introduce symmetric arithmetic circuits, i.e. arithmetic circuits with a natural symmetry restric...
Weintroducesymmetricarithmeticcircuits,i.e.,arithmeticcircuitswithanatural symmetry restriction. In ...
Dawar and Wilsenach (ICALP 2020) introduce the model of symmetric arithmetic circuits and show an ex...
We deploy algebraic complexity theoretic techniques for constructing symmetric determinantal represe...
40 pages, 18 figuresWe deploy algebraic complexity theoretic techniques for constructing symmetric d...
We deploy algebraic complexity theoretic techniques for constructing symmetric determinantal represe...
Abstract. We deploy algebraic complexity theoretic techniques to construct symmetric determinantal r...
AbstractIn this paper, we introduce a new model for computing polynomials—a depth-2 circuit with a s...
A function of boolean arguments is symmetric if its value depends solely on the number of 1's among ...
We study properties of relational structures such as graphs that are decided by families of Boolean ...
One of the main goals of theoretical computer science is to prove limits on how efficiently certain ...
A function of boolean arguments is symmetric if its value depends solely on the number of 1's among ...
In their paper on the ''chasm at depth four'', Agrawal and Vinay have shown that polynomials in m va...
AbstractIn their paper on the “chasm at depth four”, Agrawal and Vinay have shown that polynomials i...
| openaire: EC/H2020/759557/EU//ALGOComThe fundamental theorem of symmetric polynomials states that ...