Parallel Numerical Algorithms for Optimization of Electrical Cables

Abstract: In this paper we propose new heuristic numerical algorithm for determination of the optimal wires diameters in electrical cables. Two multilevel parallel versions of the optimization algorithm are constructed. The first algorithm is based on master-slave technique and the second algorithm uses the data-parallel strategy. Multilevel structure of the algorithms gives a possibility to adapt them to parallel architecture, for example, cluster of multicore computers. Some results of numerical experiments are presen… Show more

“…The differential equation (4.4) can be solved numerically. The discrete solution of (4.4) can be approximated by preconditioned Krylov methods such as the BiCGStab algorithm with Gauss-Seidel preconditioner which was applied and investigated for simulation of convection dominated flows and heat conduction problems with nonlinear convection flows through boundaries of the domain [7,8]. In the case of one and two dimensional spaces, where DSN schemes are used, the direct sweeping algorithm [9] is advised since it solve the problem in O(N ) operations, N being the size of the problem.…”

“…It is solely dependent on the spectrum of the Self-adjoint part of the transport operator. The convergence of the method is numerically illustrated and compared with the standard Source Iteration method, a spatial multigrid method and Krylov subspace methods such as Induced Dimension Reduction (IDR) [16], BiCGStab [7,8] and a preconditioned GMRES methods [3] on sample problems in slab geometry and in two dimensional space.…”

A Splitting Iterative Method for Solving the Neutron Transport Equation

“…The differential equation (4.4) can be solved numerically. The discrete solution of (4.4) can be approximated by preconditioned Krylov methods such as the BiCGStab algorithm with Gauss-Seidel preconditioner which was applied and investigated for simulation of convection dominated flows and heat conduction problems with nonlinear convection flows through boundaries of the domain [7,8]. In the case of one and two dimensional spaces, where DSN schemes are used, the direct sweeping algorithm [9] is advised since it solve the problem in O(N ) operations, N being the size of the problem.…”

“…It is solely dependent on the spectrum of the Self-adjoint part of the transport operator. The convergence of the method is numerically illustrated and compared with the standard Source Iteration method, a spatial multigrid method and Krylov subspace methods such as Induced Dimension Reduction (IDR) [16], BiCGStab [7,8] and a preconditioned GMRES methods [3] on sample problems in slab geometry and in two dimensional space.…”

A Splitting Iterative Method for Solving the Neutron Transport Equation

“…Such multiscale strategy can reduce essentially computational costs of the full optimization cycle. It was used in [10] to optimize electrical cables. Table 6.…”

“…Application of one of those in civil engineering is described in [2]. The other two level parallel MS template was successfully used to implement optimization algorithms for simulation and optimization of electrical cables in automotive industry [10]. One of the main tasks there is to determine optimal conductor cross-sections in the bundles of electric cables in order to minimize the total weight of cables.…”

A Parallel Solver for the Design of Oil Filters

“…[7,13]). The important practical problem of determination of the heat conductivity coefficient of electrical cables is considered in [5,4]. Since for ill-posed problems we cannot assume the existence of (F ′ ) −1 or its uniform boundedness then some kind of regularization is needed.…”

Some Iterative Regularized Methods for Highly Nonlinear Least Squares Problems