We use a decomposition approach to solve two types of realistic problems: Block-angular linear programs arising in energy planning, and multicommodity network problems arising in capacity planning for survivable telecommunication networks. Decomposition is an algorithmic device that down computations into several independent subproblems. It is thus ideally suited to parallel implementation. To achieve robustness and greater reliability in the performance of the decomposition algorithm, we use the Analytic Center Cutting Plane Method (ACCPM) to handle the master program. We run the algorithm on two different parallel computing platforms: a network of PC's running under Linux and a genuine parallel machine, the IBM SP2. The approach is well a...
The interconnection of geographically distributed supercomputers via highspeed networks makes availa...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
This paper represents the first attempt towards a decomposition-independent implementation of parall...
Abstract. Planning is known to be a difficult task. One of the approaches used to reduce this diffic...
Dynamic programming is a technique widely used to solve several combinatory optimization problems. A...
In this dissertation, we present a parallel decomposition method to address the complexity of solvi...
In practice, many large-scale linear programming problems are too large to be solved effectively due...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
International audienceIn this paper, we focus on a distributed and parallel programming paradigm for...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
International audienceThis paper studies the influence of various parameters, in order to improve th...
Two issues in linear algebra algorithms for multicomputers are addressed. First, how tounify paralle...
This paper introduces a new parallel QR decomposition algorithm. The novel load balancing method des...
For most huge systems, planning is a very important step to adapt them for future excepted changes. ...
Many large-scale computational problems are based on irregular (unstructured) domains. Some examples...
The interconnection of geographically distributed supercomputers via highspeed networks makes availa...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
This paper represents the first attempt towards a decomposition-independent implementation of parall...
Abstract. Planning is known to be a difficult task. One of the approaches used to reduce this diffic...
Dynamic programming is a technique widely used to solve several combinatory optimization problems. A...
In this dissertation, we present a parallel decomposition method to address the complexity of solvi...
In practice, many large-scale linear programming problems are too large to be solved effectively due...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
International audienceIn this paper, we focus on a distributed and parallel programming paradigm for...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
International audienceThis paper studies the influence of various parameters, in order to improve th...
Two issues in linear algebra algorithms for multicomputers are addressed. First, how tounify paralle...
This paper introduces a new parallel QR decomposition algorithm. The novel load balancing method des...
For most huge systems, planning is a very important step to adapt them for future excepted changes. ...
Many large-scale computational problems are based on irregular (unstructured) domains. Some examples...
The interconnection of geographically distributed supercomputers via highspeed networks makes availa...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
This paper represents the first attempt towards a decomposition-independent implementation of parall...