We study the fine-grained complexity of NP-complete satisfiability (SAT) problems and constraint satisfaction problems (CSPs) in the context of the strong exponential-time hypothesis (SETH), showing non-trivial lower and upper bounds on the running time. Here, by a non-trivial lower bound for a problem SAT(Gamma) (respectively CSP(Gamma)) with constraint language F, we mean a value c(0) > 1 such that the problem cannot be solved in time O(c(n)) for any c < c(0) unless SETH is false, while a non-trivial upper bound is simply an algorithm for the problem running in time O(c(n)) for some c < 2. Such lower bounds have proven extremely elusive, and except for cases where c(0) = 2 effectively no such previous bound was known....
We prove exponential lower bounds on the running time of many algorithms for Constraint Satisfaction...
The exponential complexity of a parameterized problem P is the infimum of those c such that P can be...
Not all NP-complete problems share the same practical hardness with respect to exact computation. Wh...
We study the fine-grained complexity of NP-complete satisfiability (SAT) problems and constraint sat...
The exponential-time hypothesis (ETH) states that 3-SAT is not solvable in subexponential time,i.e. ...
We study the constraint satisfaction problem (CSP) parameterized by a constraint language F (CSP(F))...
We study the constraint satisfaction problem (CSP) parameterized by a constraint language F (CSP(F))...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Alg...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Alg...
A constraint satisfaction problem (CSP) can be represented as two structures: the structure induced ...
International audienceThe construction of exact exponential-time algorithms for NP-complete prob- le...
Abstract. Obtaining lower bounds for NP-hard problems has for a long time been an active area of res...
International audienceThe construction of exact exponential-time algorithms for NP-complete prob- le...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Rec...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Rec...
We prove exponential lower bounds on the running time of many algorithms for Constraint Satisfaction...
The exponential complexity of a parameterized problem P is the infimum of those c such that P can be...
Not all NP-complete problems share the same practical hardness with respect to exact computation. Wh...
We study the fine-grained complexity of NP-complete satisfiability (SAT) problems and constraint sat...
The exponential-time hypothesis (ETH) states that 3-SAT is not solvable in subexponential time,i.e. ...
We study the constraint satisfaction problem (CSP) parameterized by a constraint language F (CSP(F))...
We study the constraint satisfaction problem (CSP) parameterized by a constraint language F (CSP(F))...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Alg...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Alg...
A constraint satisfaction problem (CSP) can be represented as two structures: the structure induced ...
International audienceThe construction of exact exponential-time algorithms for NP-complete prob- le...
Abstract. Obtaining lower bounds for NP-hard problems has for a long time been an active area of res...
International audienceThe construction of exact exponential-time algorithms for NP-complete prob- le...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Rec...
Obtaining lower bounds for NP-hard problems has for a long time been an active area of research. Rec...
We prove exponential lower bounds on the running time of many algorithms for Constraint Satisfaction...
The exponential complexity of a parameterized problem P is the infimum of those c such that P can be...
Not all NP-complete problems share the same practical hardness with respect to exact computation. Wh...