A data-level parallel linear-quadratic penalty algorithm for multicommodity network flows
Copyright policy )A data-level parallel linear-quadratic penalty algorithm for multicommodity network flows
We describe the development of a data-level, massively parallel, software system for the solution of multicommodity network flow problems. Using a smooth linear-quadratic penalty (LQP) algorithm we transform the multicommodity network flow problem into a sequence of independent min-cost network flow subproblems. The solution of these problems is coordinated via a simple, dense, nonlinear master program to obtain a solution that is feasible within some user-specified tolerance to the original multicommodity network flow problem. Particular emphasis is placed on the mapping of both the subproblems and master problem data to the processing elements of a massively parallel computer, the Connection Machine CM-2. As a result of this design we can solve large and sparse optimization problems on current SIMD massively parallel architectures. Details of the implementation are reported, together with summary computational results with a set of test problems drawn from a Military Airlift Command application.
- Technical University of Denmark Denmark
- Bilkent University Turkey
- University of Pennsylvania United States
- University of Cyprus Cyprus
Optimization, Parallel algorithms, Parallel optimization, Multicommodity network problems, large and sparse optimization problems, Numerical mathematical programming methods, Nonlinear programming, Deterministic network models in operations research, smooth linear-quadratic penalty algorithm, Computer architecture, Constraint theory, computational results, Parallel processing systems, Mathematical programming, Parallel numerical computation, software system, Parallel linear quadratic penalty algorithm, multicommodity network flow problems, Packaged methods for numerical algorithms, Computer systems programming, parallel computation, Algorithms
Optimization, Parallel algorithms, Parallel optimization, Multicommodity network problems, large and sparse optimization problems, Numerical mathematical programming methods, Nonlinear programming, Deterministic network models in operations research, smooth linear-quadratic penalty algorithm, Computer architecture, Constraint theory, computational results, Parallel processing systems, Mathematical programming, Parallel numerical computation, software system, Parallel linear quadratic penalty algorithm, multicommodity network flow problems, Packaged methods for numerical algorithms, Computer systems programming, parallel computation, Algorithms
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