International audienceIn this work we study the portfolio problem which is to find a good combination of multiple heuristics to solve given instances on parallel resources in minimum time. The resources are assumed to be discrete, it is not possible to allocate a resource to more than one heuristic. Our goal is to minimize the average completion time of the set of instances, given a set of heuristics on homogeneous discrete resources. This problem has been studied in the continuous case in [T. Sayag et al., 2006]. We first show that the problem is hard and that there is no constant ratio polynomial approximation unless P = NP in the general case. Then, we design several approximation schemes for a restricted version of the problem where eac...
Scheduling a subset of solvers belonging to a given portfolio has proven to be a good strategy when ...
Hard combinatorial problems such as propositional satisfiability are ubiquitous. The holy grail are ...
This thesis centers on the topic of how to automatically combine multiple heuristics. For most compu...
International audienceThe goal of this work is to study the portfolio problem which consists in find...
International audienceGiven multiple parallel heuristics solving the same problem, we are interested...
Solving hard combinatorial problems has always been a challenge. The constant progress in algorithm ...
We present an approach for improving the performance of combinatorial optimization algorithms by ge...
International audienceWe are interested in this work in solving efficiently a set of instances of th...
On many problems, it is hard to find an algorithm that solves all its instances with the shortest ex...
International audienceWe introduce a new parallel and distributed algorithm for the solution of the ...
We introduce a new parallel and distributed algorithm for the solution of the satisfiability problem...
Introduction. Solving large-scale discrete optimization problems requires the processing of large-sc...
In this paper we deal with a discrete optimization problem, which, among many other such problems, i...
This dissertation presents a number of contributions to the field of solver portfolios, in particula...
The Resource-Constrained Project Scheduling Problem (RCPSP) is a well-known scheduling problem aimed...
Scheduling a subset of solvers belonging to a given portfolio has proven to be a good strategy when ...
Hard combinatorial problems such as propositional satisfiability are ubiquitous. The holy grail are ...
This thesis centers on the topic of how to automatically combine multiple heuristics. For most compu...
International audienceThe goal of this work is to study the portfolio problem which consists in find...
International audienceGiven multiple parallel heuristics solving the same problem, we are interested...
Solving hard combinatorial problems has always been a challenge. The constant progress in algorithm ...
We present an approach for improving the performance of combinatorial optimization algorithms by ge...
International audienceWe are interested in this work in solving efficiently a set of instances of th...
On many problems, it is hard to find an algorithm that solves all its instances with the shortest ex...
International audienceWe introduce a new parallel and distributed algorithm for the solution of the ...
We introduce a new parallel and distributed algorithm for the solution of the satisfiability problem...
Introduction. Solving large-scale discrete optimization problems requires the processing of large-sc...
In this paper we deal with a discrete optimization problem, which, among many other such problems, i...
This dissertation presents a number of contributions to the field of solver portfolios, in particula...
The Resource-Constrained Project Scheduling Problem (RCPSP) is a well-known scheduling problem aimed...
Scheduling a subset of solvers belonging to a given portfolio has proven to be a good strategy when ...
Hard combinatorial problems such as propositional satisfiability are ubiquitous. The holy grail are ...
This thesis centers on the topic of how to automatically combine multiple heuristics. For most compu...