This paper presents an acceleration framework for packing linear programming problems where the amount of data available is limited, i.e., where the number of constraints m is small compared to the variable dimension n . The framework can be used as a black box to speed up linear programming solvers dramatically, by two orders of magnitude in our experiments. We present worst-case guarantees on the quality of the solution and the speedup provided by the algorithm, showing that the framework provides an approximately optimal solution while running the original solver on a much smaller problem. The framework can be used to accelerate exact solvers, approximate solvers, and parallel/distributed solvers. Further, it can be used for both linear ...
Positive linear programs (LPs), or equivalently, mixed packing and covering LPs, are LPs formulated ...
We present novel, efficient algorithms for solving extremely large optimization problems. A signific...
This paper presents an ADBASE-based parallel algorithm for solving multiple objective linear program...
This paper presents an acceleration framework for packing linear programming problems where the amou...
Linear programs, or LPs, are often used in optimization problems, such as improving manufacturing ef...
Packing and covering linear programs (PC-LP s) form an important class of linear programs (LPs) acro...
Packing and covering linear programs (LP) are an important class of problems that bridges computer s...
Positive linear programs (LPs) model many graph and operations research problems. One can solve for ...
AbstractWe present a new linear-programming algorithm that is simple, effective, fully parallelizabl...
This report presents an algorithm that finds an -feasible solution relatively to some constraints ...
In practice, many large-scale linear programming problems are too large to be solved effectively due...
In this paper, we study fast first-order algorithms that approximately solve linear programs (LPs). ...
This study developed a parallel algorithm to efficiently solve linear programming models. The propos...
A fast Newton method is proposed for solving linear programs with a very large ( 106) number of co...
This article presents an algorithm that finds an e-feasible solution relatively to some constraints ...
Positive linear programs (LPs), or equivalently, mixed packing and covering LPs, are LPs formulated ...
We present novel, efficient algorithms for solving extremely large optimization problems. A signific...
This paper presents an ADBASE-based parallel algorithm for solving multiple objective linear program...
This paper presents an acceleration framework for packing linear programming problems where the amou...
Linear programs, or LPs, are often used in optimization problems, such as improving manufacturing ef...
Packing and covering linear programs (PC-LP s) form an important class of linear programs (LPs) acro...
Packing and covering linear programs (LP) are an important class of problems that bridges computer s...
Positive linear programs (LPs) model many graph and operations research problems. One can solve for ...
AbstractWe present a new linear-programming algorithm that is simple, effective, fully parallelizabl...
This report presents an algorithm that finds an -feasible solution relatively to some constraints ...
In practice, many large-scale linear programming problems are too large to be solved effectively due...
In this paper, we study fast first-order algorithms that approximately solve linear programs (LPs). ...
This study developed a parallel algorithm to efficiently solve linear programming models. The propos...
A fast Newton method is proposed for solving linear programs with a very large ( 106) number of co...
This article presents an algorithm that finds an e-feasible solution relatively to some constraints ...
Positive linear programs (LPs), or equivalently, mixed packing and covering LPs, are LPs formulated ...
We present novel, efficient algorithms for solving extremely large optimization problems. A signific...
This paper presents an ADBASE-based parallel algorithm for solving multiple objective linear program...