Today's 3-D full-wave electromagnetic (EM) solvers follow the conventional model-mesh-solve workflow to analyze any EM structure. These solvers treat each model independently regardless of any similarity with a previously solved model and, therefore, sacrifice the possibility of accelerating a model solution from information harnessed from a prior solution of a similar model. This is a missed opportunity particularly in the solution of design variants, which involve multiple models with near-identical geometrical features. A Krylov recycling (KR) technique has been proposed in the past for the incremental solution of electrostatic problems. However, the technique is limited by the requirement of an unchanged mesh for the unmodified section ...
We consider solving three-dimensional electromagnetic problems in parameter regimes where the quasi-...
With the rapid increase in available compute power and memory, and bolstered by the advent of effici...
Three-dimensional (3-D) full-wave electromagnetic simulation using method of moments (MoM) under the...
Today's 3-D full-wave electromagnetic (EM) solvers follow the conventional model-mesh-solve workflow...
3D full-wave Method of Moments (MoM) is a well established method to solve Maxwell's equations numer...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
We present a massively parallel finite-element method for 3D electromagnetic forward modelling using...
We present an elaborate preconditioning scheme for Krylov subspace methods which has been developed ...
Practical applications of controlled-source electromagnetic (EM) modelling require solutions for mul...
We have developed several Krylov projection-based model-order reduction techniques to simulate elect...
A computational method is given for solving the forward modeling problem for transient elec-tromagne...
3-D full-wave method of moments (MoM) based electromagnetic analysis is a popular means toward accur...
We introduce a novel block rational Krylov method to accelerate three-dimensional time-domain marine...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThe consideration of an integral representation as an exact boundary condition...
We consider solving three-dimensional electromagnetic problems in parameter regimes where the quasi-...
With the rapid increase in available compute power and memory, and bolstered by the advent of effici...
Three-dimensional (3-D) full-wave electromagnetic simulation using method of moments (MoM) under the...
Today's 3-D full-wave electromagnetic (EM) solvers follow the conventional model-mesh-solve workflow...
3D full-wave Method of Moments (MoM) is a well established method to solve Maxwell's equations numer...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
We present a massively parallel finite-element method for 3D electromagnetic forward modelling using...
We present an elaborate preconditioning scheme for Krylov subspace methods which has been developed ...
Practical applications of controlled-source electromagnetic (EM) modelling require solutions for mul...
We have developed several Krylov projection-based model-order reduction techniques to simulate elect...
A computational method is given for solving the forward modeling problem for transient elec-tromagne...
3-D full-wave method of moments (MoM) based electromagnetic analysis is a popular means toward accur...
We introduce a novel block rational Krylov method to accelerate three-dimensional time-domain marine...
Despite vast advancements in computational hardware capabilities, full-wave electromagnetic simulati...
International audienceThe consideration of an integral representation as an exact boundary condition...
We consider solving three-dimensional electromagnetic problems in parameter regimes where the quasi-...
With the rapid increase in available compute power and memory, and bolstered by the advent of effici...
Three-dimensional (3-D) full-wave electromagnetic simulation using method of moments (MoM) under the...