The aim of this paper is to present an automatic and efficient algorithm to find cohomology generators suitable for 2d eddycurrent problems formulated by means of complementary formulations. The algorithm is general, straightforward to implement, exhibits a linear worst-case computational complexity and produces optimal representatives of generators. By optimal we mean the representatives that minimize in practical cases the fill-in of the system of equations matrix and guarantee that the current flowing in each conductor is in one-to-one correspondence with a generator. As a numerical example, the complementary formulations are used to compute the frequency-dependent per-unit-length impedance in integrated circuits
The impedance boundary condition methods (IBCs) are among the most efficient for solving time-harmon...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
The problem of computing cohomology generators of a cell complex is gaining more and more interest i...
Efficient boundary integral formulations based on stream functions for solving eddy current problems...
Efficient boundary integral formulations based on stream functions for solving eddy current problems...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
This contribution addresses the solution of eddy-current problems by means of a volume integral form...
When solving eddy-current problems containing topologically non-trivial conductors with formulations...
Computing the first cohomology group generators received great attention in computational electromag...
The systematic potential design is of high importance in computational electromagnetics. For example...
We present an effective technique to solve eddy current problems in thin conductors of arbitrary top...
This paper presents a methodology to efficiently calculate the resistive distribution of halo curren...
This paper presents a methodology to efficiently calculate the resistive distribution of halo curren...
The impedance boundary condition methods (IBCs) are among the most efficient for solving time-harmon...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
The problem of computing cohomology generators of a cell complex is gaining more and more interest i...
Efficient boundary integral formulations based on stream functions for solving eddy current problems...
Efficient boundary integral formulations based on stream functions for solving eddy current problems...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
This contribution addresses the solution of eddy-current problems by means of a volume integral form...
When solving eddy-current problems containing topologically non-trivial conductors with formulations...
Computing the first cohomology group generators received great attention in computational electromag...
The systematic potential design is of high importance in computational electromagnetics. For example...
We present an effective technique to solve eddy current problems in thin conductors of arbitrary top...
This paper presents a methodology to efficiently calculate the resistive distribution of halo curren...
This paper presents a methodology to efficiently calculate the resistive distribution of halo curren...
The impedance boundary condition methods (IBCs) are among the most efficient for solving time-harmon...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...